Vaccines or candidate vaccines used to prevent infection with viruses from the genus SIMPLEXVIRUS. This includes vaccines for HSV-1 and HSV-2.
A group of acute infections caused by herpes simplex virus type 1 or type 2 that is characterized by the development of one or more small fluid-filled vesicles with a raised erythematous base on the skin or mucous membrane. It occurs as a primary infection or recurs due to a reactivation of a latent infection. (Dorland, 27th ed.)
A genus of the family HERPESVIRIDAE, subfamily ALPHAHERPESVIRINAE, consisting of herpes simplex-like viruses. The type species is HERPESVIRUS 1, HUMAN.
The type species of SIMPLEXVIRUS causing most forms of non-genital herpes simplex in humans. Primary infection occurs mainly in infants and young children and then the virus becomes latent in the dorsal root ganglion. It then is periodically reactivated throughout life causing mostly benign conditions.
A species of SIMPLEXVIRUS associated with genital infections (HERPES GENITALIS). It is transmitted by sexual intercourse and close personal contact.
A CELL LINE derived from the kidney of the African green (vervet) monkey, (CERCOPITHECUS AETHIOPS) used primarily in virus replication studies and plaque assays.
Infection of the genitals (GENITALIA) with HERPES SIMPLEX VIRUS in either the males or the females.
A species of CERCOPITHECUS containing three subspecies: C. tantalus, C. pygerythrus, and C. sabeus. They are found in the forests and savannah of Africa. The African green monkey (C. pygerythrus) is the natural host of SIMIAN IMMUNODEFICIENCY VIRUS and is used in AIDS research.
An enzyme that catalyzes the conversion of ATP and thymidine to ADP and thymidine 5'-phosphate. Deoxyuridine can also act as an acceptor and dGTP as a donor. (From Enzyme Nomenclature, 1992) EC 2.7.1.21.
Proteins found in any species of virus.
A GUANOSINE analog that acts as an antimetabolite. Viruses are especially susceptible. Used especially against herpes.
The process of intracellular viral multiplication, consisting of the synthesis of PROTEINS; NUCLEIC ACIDS; and sometimes LIPIDS, and their assembly into a new infectious particle.
Suspensions of attenuated or killed viruses administered for the prevention or treatment of infectious viral disease.
Trans-acting protein that combines with host factors to induce immediate early gene transcription in herpes simplex virus.
Deoxyribonucleic acid that makes up the genetic material of viruses.
Immunoglobulins produced in response to VIRAL ANTIGENS.
Suspensions of killed or attenuated microorganisms (bacteria, viruses, fungi, protozoa), antigenic proteins, synthetic constructs, or other bio-molecular derivatives, administered for the prevention, amelioration, or treatment of infectious and other diseases.
Vaccines in which the infectious microbial nucleic acid components have been destroyed by chemical or physical treatment (e.g., formalin, beta-propiolactone, gamma radiation) without affecting the antigenicity or immunogenicity of the viral coat or bacterial outer membrane proteins.
An acute (or rarely chronic) inflammatory process of the brain caused by SIMPLEXVIRUS infections which may be fatal. The majority of infections are caused by human herpesvirus 1 (HERPESVIRUS 1, HUMAN) and less often by human herpesvirus 2 (HERPESVIRUS 2, HUMAN). Clinical manifestations include FEVER; HEADACHE; SEIZURES; HALLUCINATIONS; behavioral alterations; APHASIA; hemiparesis; and COMA. Pathologically, the condition is marked by a hemorrhagic necrosis involving the medial and inferior TEMPORAL LOBE and orbital regions of the FRONTAL LOBE. (From Adams et al., Principles of Neurology, 6th ed, pp751-4)
The functional hereditary units of VIRUSES.
Proteins that are coded by immediate-early genes, in the absence of de novo protein synthesis. The term was originally used exclusively for viral regulatory proteins that were synthesized just after viral integration into the host cell. It is also used to describe cellular proteins which are synthesized immediately after the resting cell is stimulated by extracellular signals.
Layers of protein which surround the capsid in animal viruses with tubular nucleocapsids. The envelope consists of an inner layer of lipids and virus specified proteins also called membrane or matrix proteins. The outer layer consists of one or more types of morphological subunits called peplomers which project from the viral envelope; this layer always consists of glycoproteins.
A superficial, epithelial Herpesvirus hominis infection of the cornea, characterized by the presence of small vesicles which may break down and coalesce to form dendritic ulcers (KERATITIS, DENDRITIC). (Dictionary of Visual Science, 3d ed)
The semilunar-shaped ganglion containing the cells of origin of most of the sensory fibers of the trigeminal nerve. It is situated within the dural cleft on the cerebral surface of the petrous portion of the temporal bone and gives off the ophthalmic, maxillary, and part of the mandibular nerves.
Agents used in the prophylaxis or therapy of VIRUS DISEASES. Some of the ways they may act include preventing viral replication by inhibiting viral DNA polymerase; binding to specific cell-surface receptors and inhibiting viral penetration or uncoating; inhibiting viral protein synthesis; or blocking late stages of virus assembly.
Established cell cultures that have the potential to propagate indefinitely.
Method for measuring viral infectivity and multiplication in CULTURED CELLS. Clear lysed areas or plaques develop as the VIRAL PARTICLES are released from the infected cells during incubation. With some VIRUSES, the cells are killed by a cytopathic effect; with others, the infected cells are not killed but can be detected by their hemadsorptive ability. Sometimes the plaque cells contain VIRAL ANTIGENS which can be measured by IMMUNOFLUORESCENCE.
The mechanism by which latent viruses, such as genetically transmitted tumor viruses (PROVIRUSES) or PROPHAGES of lysogenic bacteria, are induced to replicate and then released as infectious viruses. It may be effected by various endogenous and exogenous stimuli, including B-cell LIPOPOLYSACCHARIDES, glucocorticoid hormones, halogenated pyrimidines, IONIZING RADIATION, ultraviolet light, and superinfecting viruses.
A form of herpetic keratitis characterized by the formation of small vesicles which break down and coalesce to form recurring dendritic ulcers, characteristically irregular, linear, branching, and ending in knoblike extremities. (Dictionary of Visual Science, 3d ed)
Small synthetic peptides that mimic surface antigens of pathogens and are immunogenic, or vaccines manufactured with the aid of recombinant DNA techniques. The latter vaccines may also be whole viruses whose nucleic acids have been modified.
The ability of a pathogenic virus to lie dormant within a cell (latent infection). In eukaryotes, subsequent activation and viral replication is thought to be caused by extracellular stimulation of cellular transcription factors. Latency in bacteriophage is maintained by the expression of virally encoded repressors.
The expelling of virus particles from the body. Important routes include the respiratory tract, genital tract, and intestinal tract. Virus shedding is an important means of vertical transmission (INFECTIOUS DISEASE TRANSMISSION, VERTICAL).
Substances elaborated by viruses that have antigenic activity.
Herpes simplex, caused by type 1 virus, primarily spread by oral secretions and usually occurring as a concomitant of fever. It may also develop in the absence of fever or prior illness. It commonly involves the facial region, especially the lips and the nares. (Dorland, 27th ed.)
Recombinant DNA vectors encoding antigens administered for the prevention or treatment of disease. The host cells take up the DNA, express the antigen, and present it to the immune system in a manner similar to that which would occur during natural infection. This induces humoral and cellular immune responses against the encoded antigens. The vector is called naked DNA because there is no need for complex formulations or delivery agents; the plasmid is injected in saline or other buffers.
Live vaccines prepared from microorganisms which have undergone physical adaptation (e.g., by radiation or temperature conditioning) or serial passage in laboratory animal hosts or infected tissue/cell cultures, in order to produce avirulent mutant strains capable of inducing protective immunity.
Descriptions of specific amino acid, carbohydrate, or nucleotide sequences which have appeared in the published literature and/or are deposited in and maintained by databanks such as GENBANK, European Molecular Biology Laboratory (EMBL), National Biomedical Research Foundation (NBRF), or other sequence repositories.
Any of the processes by which cytoplasmic factors influence the differential control of gene action in viruses.
An acute infectious, usually self-limited, disease believed to represent activation of latent varicella-zoster virus (HERPESVIRUS 3, HUMAN) in those who have been rendered partially immune after a previous attack of CHICKENPOX. It involves the SENSORY GANGLIA and their areas of innervation and is characterized by severe neuralgic pain along the distribution of the affected nerve and crops of clustered vesicles over the area. (From Dorland, 27th ed)
An ACYCLOVIR analog that is a potent inhibitor of the Herpesvirus family including cytomegalovirus. Ganciclovir is used to treat complications from AIDS-associated cytomegalovirus infections.
The type species of VARICELLOVIRUS causing CHICKENPOX (varicella) and HERPES ZOSTER (shingles) in humans.
Administration of vaccines to stimulate the host's immune response. This includes any preparation intended for active immunological prophylaxis.
Two or more vaccines in a single dosage form.
DNA molecules capable of autonomous replication within a host cell and into which other DNA sequences can be inserted and thus amplified. Many are derived from PLASMIDS; BACTERIOPHAGES; or VIRUSES. They are used for transporting foreign genes into recipient cells. Genetic vectors possess a functional replicator site and contain GENETIC MARKERS to facilitate their selective recognition.
Process of growing viruses in live animals, plants, or cultured cells.
The sequence of PURINES and PYRIMIDINES in nucleic acids and polynucleotides. It is also called nucleotide sequence.
Vaccines or candidate vaccines containing inactivated HIV or some of its component antigens and designed to prevent or treat AIDS. Some vaccines containing antigens are recombinantly produced.
Specific molecular components of the cell capable of recognizing and interacting with a virus, and which, after binding it, are capable of generating some signal that initiates the chain of events leading to the biological response.
The infective system of a virus, composed of the viral genome, a protein core, and a protein coat called a capsid, which may be naked or enclosed in a lipoprotein envelope called the peplos.
The measurement of infection-blocking titer of ANTISERA by testing a series of dilutions for a given virus-antiserum interaction end-point, which is generally the dilution at which tissue cultures inoculated with the serum-virus mixtures demonstrate cytopathology (CPE) or the dilution at which 50% of test animals injected with serum-virus mixtures show infectivity (ID50) or die (LD50).
Inbred BALB/c mice are a strain of laboratory mice that have been selectively bred to be genetically identical to each other, making them useful for scientific research and experiments due to their consistent genetic background and predictable responses to various stimuli or treatments.
A simple organophosphorus compound that inhibits DNA polymerase, especially in viruses and is used as an antiviral agent.
The type species of ORTHOPOXVIRUS, related to COWPOX VIRUS, but whose true origin is unknown. It has been used as a live vaccine against SMALLPOX. It is also used as a vector for inserting foreign DNA into animals. Rabbitpox virus is a subspecies of VACCINIA VIRUS.
Viral proteins that are components of the mature assembled VIRUS PARTICLES. They may include nucleocapsid core proteins (gag proteins), enzymes packaged within the virus particle (pol proteins), and membrane components (env proteins). These do not include the proteins encoded in the VIRAL GENOME that are produced in infected cells but which are not packaged in the mature virus particle,i.e. the so called non-structural proteins (VIRAL NONSTRUCTURAL PROTEINS).
Suspensions of attenuated or killed bacteria administered for the prevention or treatment of infectious bacterial disease.
The outer protein protective shell of a virus, which protects the viral nucleic acid.
Stomatitis caused by Herpesvirus hominis. It usually occurs as acute herpetic stomatitis (or gingivostomatitis), an oral manifestation of primary herpes simplex seen primarily in children and adolescents.
A subfamily in the family MURIDAE, comprising the hamsters. Four of the more common genera are Cricetus, CRICETULUS; MESOCRICETUS; and PHODOPUS.
Visible morphologic changes in cells infected with viruses. It includes shutdown of cellular RNA and protein synthesis, cell fusion, release of lysosomal enzymes, changes in cell membrane permeability, diffuse changes in intracellular structures, presence of viral inclusion bodies, and chromosomal aberrations. It excludes malignant transformation, which is CELL TRANSFORMATION, VIRAL. Viral cytopathogenic effects provide a valuable method for identifying and classifying the infecting viruses.
Vaccines consisting of one or more antigens that stimulate a strong immune response. They are purified from microorganisms or produced by recombinant DNA techniques, or they can be chemically synthesized peptides.
Vaccines or candidate vaccines used to prevent infection by any virus from the family HERPESVIRIDAE.
The assembly of VIRAL STRUCTURAL PROTEINS and nucleic acid (VIRAL DNA or VIRAL RNA) to form a VIRUS PARTICLE.
Ribonucleic acid that makes up the genetic material of viruses.
Any detectable and heritable change in the genetic material that causes a change in the GENOTYPE and which is transmitted to daughter cells and to succeeding generations.
Viruses which lack a complete genome so that they cannot completely replicate or cannot form a protein coat. Some are host-dependent defectives, meaning they can replicate only in cell systems which provide the particular genetic function which they lack. Others, called SATELLITE VIRUSES, are able to replicate only when their genetic defect is complemented by a helper virus.
A family of enveloped, linear, double-stranded DNA viruses infecting a wide variety of animals. Subfamilies, based on biological characteristics, include: ALPHAHERPESVIRINAE; BETAHERPESVIRINAE; and GAMMAHERPESVIRINAE.
Vaccines used to prevent infection by viruses in the family ORTHOMYXOVIRIDAE. It includes both killed and attenuated vaccines. The composition of the vaccines is changed each year in response to antigenic shifts and changes in prevalence of influenza virus strains. The vaccine is usually bivalent or trivalent, containing one or two INFLUENZAVIRUS A strains and one INFLUENZAVIRUS B strain.
The order of amino acids as they occur in a polypeptide chain. This is referred to as the primary structure of proteins. It is of fundamental importance in determining PROTEIN CONFORMATION.
Extrachromosomal, usually CIRCULAR DNA molecules that are self-replicating and transferable from one organism to another. They are found in a variety of bacterial, archaeal, fungal, algal, and plant species. They are used in GENETIC ENGINEERING as CLONING VECTORS.
Infections of the eye caused by minute intracellular agents. These infections may lead to severe inflammation in various parts of the eye - conjunctiva, iris, eyelids, etc. Several viruses have been identified as the causative agents. Among these are Herpesvirus, Adenovirus, Poxvirus, and Myxovirus.
Viruses whose genetic material is RNA.
Vaccines or candidate vaccines used to prevent infection with WEST NILE VIRUS.
A species of VARICELLOVIRUS producing a respiratory infection (PSEUDORABIES) in swine, its natural host. It also produces an usually fatal ENCEPHALOMYELITIS in cattle, sheep, dogs, cats, foxes, and mink.
A diverse class of enzymes that interact with UBIQUITIN-CONJUGATING ENZYMES and ubiquitination-specific protein substrates. Each member of this enzyme group has its own distinct specificity for a substrate and ubiquitin-conjugating enzyme. Ubiquitin-protein ligases exist as both monomeric proteins multiprotein complexes.
Cells propagated in vitro in special media conducive to their growth. Cultured cells are used to study developmental, morphologic, metabolic, physiologic, and genetic processes, among others.
Deliberate stimulation of the host's immune response. ACTIVE IMMUNIZATION involves administration of ANTIGENS or IMMUNOLOGIC ADJUVANTS. PASSIVE IMMUNIZATION involves administration of IMMUNE SERA or LYMPHOCYTES or their extracts (e.g., transfer factor, immune RNA) or transplantation of immunocompetent cell producing tissue (thymus or bone marrow).
The species Oryctolagus cuniculus, in the family Leporidae, order LAGOMORPHA. Rabbits are born in burrows, furless, and with eyes and ears closed. In contrast with HARES, rabbits have 22 chromosome pairs.
Serologic tests in which a known quantity of antigen is added to the serum prior to the addition of a red cell suspension. Reaction result is expressed as the smallest amount of antigen which causes complete inhibition of hemagglutination.
Vaccines or candidate vaccines used to prevent infection with RESPIRATORY SYNCYTIAL VIRUSES.
A general term for diseases produced by viruses.
A novel member of the tumor-necrosis factor receptor family that can also mediate HERPES SIMPLEX VIRUS TYPE 1 entry into cells. It has specificity for TUMOR NECROSIS FACTOR LIGAND SUPERFAMILY MEMBER 14 and the homotrimeric form of LYMPHOTOXIN-ALPHA. The receptor is abundantly expressed on T-LYMPHOCYTES and may play a role in regulating lymphocyte activation. Signaling by the activated receptor occurs through its association with TNF RECEPTOR-ASSOCIATED FACTORS.
DNA-dependent DNA polymerases found in bacteria, animal and plant cells. During the replication process, these enzymes catalyze the addition of deoxyribonucleotide residues to the end of a DNA strand in the presence of DNA as template-primer. They also possess exonuclease activity and therefore function in DNA repair.
The uptake of naked or purified DNA by CELLS, usually meaning the process as it occurs in eukaryotic cells. It is analogous to bacterial transformation (TRANSFORMATION, BACTERIAL) and both are routinely employed in GENE TRANSFER TECHNIQUES.
Semisynthetic vaccines consisting of polysaccharide antigens from microorganisms attached to protein carrier molecules. The carrier protein is recognized by macrophages and T-cells thus enhancing immunity. Conjugate vaccines induce antibody formation in people not responsive to polysaccharide alone, induce higher levels of antibody, and show a booster response on repeated injection.
The first continuously cultured human malignant CELL LINE, derived from the cervical carcinoma of Henrietta Lacks. These cells are used for VIRUS CULTIVATION and antitumor drug screening assays.
The biosynthesis of RNA carried out on a template of DNA. The biosynthesis of DNA from an RNA template is called REVERSE TRANSCRIPTION.
Production of new arrangements of DNA by various mechanisms such as assortment and segregation, CROSSING OVER; GENE CONVERSION; GENETIC TRANSFORMATION; GENETIC CONJUGATION; GENETIC TRANSDUCTION; or mixed infection of viruses.
The 5th and largest cranial nerve. The trigeminal nerve is a mixed motor and sensory nerve. The larger sensory part forms the ophthalmic, mandibular, and maxillary nerves which carry afferents sensitive to external or internal stimuli from the skin, muscles, and joints of the face and mouth and from the teeth. Most of these fibers originate from cells of the TRIGEMINAL GANGLION and project to the TRIGEMINAL NUCLEUS of the brain stem. The smaller motor part arises from the brain stem trigeminal motor nucleus and innervates the muscles of mastication.
Techniques and strategies which include the use of coding sequences and other conventional or radical means to transform or modify cells for the purpose of treating or reversing disease conditions.
The process by which a DNA molecule is duplicated.
A subtype of INFLUENZA A VIRUS with the surface proteins hemagglutinin 1 and neuraminidase 1. The H1N1 subtype was responsible for the Spanish flu pandemic of 1918.
Vaccines or candidate vaccines used to prevent and treat RABIES. The inactivated virus vaccine is used for preexposure immunization to persons at high risk of exposure, and in conjunction with rabies immunoglobulin, for postexposure prophylaxis.
Proteins that form the CAPSID of VIRUSES.
A genus of the family HERPESVIRIDAE, subfamily BETAHERPESVIRINAE, infecting the salivary glands, liver, spleen, lungs, eyes, and other organs, in which they produce characteristically enlarged cells with intranuclear inclusions. Infection with Cytomegalovirus is also seen as an opportunistic infection in AIDS.
A subfamily of HERPESVIRIDAE characterized by a short replication cycle. The genera include: SIMPLEXVIRUS; VARICELLOVIRUS; MAREK'S DISEASE-LIKE VIRUSES; and ILTOVIRUS.
An immunoassay utilizing an antibody labeled with an enzyme marker such as horseradish peroxidase. While either the enzyme or the antibody is bound to an immunosorbent substrate, they both retain their biologic activity; the change in enzyme activity as a result of the enzyme-antibody-antigen reaction is proportional to the concentration of the antigen and can be measured spectrophotometrically or with the naked eye. Many variations of the method have been developed.
Inflammation of the BRAIN due to infection, autoimmune processes, toxins, and other conditions. Viral infections (see ENCEPHALITIS, VIRAL) are a relatively frequent cause of this condition.
Ribonucleotide Reductases are enzymes that catalyze the conversion of ribonucleotides to deoxyribonucleotides, which is a crucial step in DNA synthesis and repair, utilizing a radical mechanism for this conversion.
Substances that augment, stimulate, activate, potentiate, or modulate the immune response at either the cellular or humoral level. The classical agents (Freund's adjuvant, BCG, Corynebacterium parvum, et al.) contain bacterial antigens. Some are endogenous (e.g., histamine, interferon, transfer factor, tuftsin, interleukin-1). Their mode of action is either non-specific, resulting in increased immune responsiveness to a wide variety of antigens, or antigen-specific, i.e., affecting a restricted type of immune response to a narrow group of antigens. The therapeutic efficacy of many biological response modifiers is related to their antigen-specific immunoadjuvanticity.
A live attenuated virus vaccine of chick embryo origin, used for routine immunization of children and for immunization of adolescents and adults who have not had measles or been immunized with live measles vaccine and have no serum antibodies against measles. Children are usually immunized with measles-mumps-rubella combination vaccine. (From Dorland, 28th ed)
Test for tissue antigen using either a direct method, by conjugation of antibody with fluorescent dye (FLUORESCENT ANTIBODY TECHNIQUE, DIRECT) or an indirect method, by formation of antigen-antibody complex which is then labeled with fluorescein-conjugated anti-immunoglobulin antibody (FLUORESCENT ANTIBODY TECHNIQUE, INDIRECT). The tissue is then examined by fluorescence microscopy.
The complete genetic complement contained in a DNA or RNA molecule in a virus.
In vitro method for producing large amounts of specific DNA or RNA fragments of defined length and sequence from small amounts of short oligonucleotide flanking sequences (primers). The essential steps include thermal denaturation of the double-stranded target molecules, annealing of the primers to their complementary sequences, and extension of the annealed primers by enzymatic synthesis with DNA polymerase. The reaction is efficient, specific, and extremely sensitive. Uses for the reaction include disease diagnosis, detection of difficult-to-isolate pathogens, mutation analysis, genetic testing, DNA sequencing, and analyzing evolutionary relationships.
The degree of pathogenicity within a group or species of microorganisms or viruses as indicated by case fatality rates and/or the ability of the organism to invade the tissues of the host. The pathogenic capacity of an organism is determined by its VIRULENCE FACTORS.
The major immunoglobulin isotype class in normal human serum. There are several isotype subclasses of IgG, for example, IgG1, IgG2A, and IgG2B.
Elements of limited time intervals, contributing to particular results or situations.
An inheritable change in cells manifested by changes in cell division and growth and alterations in cell surface properties. It is induced by infection with a transforming virus.
An acute viral infection in humans involving the respiratory tract. It is marked by inflammation of the NASAL MUCOSA; the PHARYNX; and conjunctiva, and by headache and severe, often generalized, myalgia.
Genes that show rapid and transient expression in the absence of de novo protein synthesis. The term was originally used exclusively for viral genes where immediate-early referred to transcription immediately following virus integration into the host cell. It is also used to describe cellular genes which are expressed immediately after resting cells are stimulated by extracellular signals such as growth factors and neurotransmitters.
Enzymes that are part of the restriction-modification systems. They catalyze the endonucleolytic cleavage of DNA sequences which lack the species-specific methylation pattern in the host cell's DNA. Cleavage yields random or specific double-stranded fragments with terminal 5'-phosphates. The function of restriction enzymes is to destroy any foreign DNA that invades the host cell. Most have been studied in bacterial systems, but a few have been found in eukaryotic organisms. They are also used as tools for the systematic dissection and mapping of chromosomes, in the determination of base sequences of DNAs, and have made it possible to splice and recombine genes from one organism into the genome of another. EC 3.21.1.
Vaccines used to prevent infection by MUMPS VIRUS. Best known is the live attenuated virus vaccine of chick embryo origin, used for routine immunization of children and for immunization of adolescents and adults who have not had mumps or been immunized with live mumps vaccine. Children are usually immunized with measles-mumps-rubella combination vaccine.
The type species of MORBILLIVIRUS and the cause of the highly infectious human disease MEASLES, which affects mostly children.
An antiviral agent used in the treatment of cytomegalovirus retinitis. Foscarnet also shows activity against human herpesviruses and HIV.
Virus diseases caused by the HERPESVIRIDAE.
A subtype of INFLUENZA A VIRUS comprised of the surface proteins hemagglutinin 3 and neuraminidase 2. The H3N2 subtype was responsible for the Hong Kong flu pandemic of 1968.
Biologically active DNA which has been formed by the in vitro joining of segments of DNA from different sources. It includes the recombination joint or edge of a heteroduplex region where two recombining DNA molecules are connected.
Vaccines made from antigens arising from any of the four strains of Plasmodium which cause malaria in humans, or from P. berghei which causes malaria in rodents.
The type species of LYSSAVIRUS causing rabies in humans and other animals. Transmission is mostly by animal bites through saliva. The virus is neurotropic multiplying in neurons and myotubes of vertebrates.
A broad category of viral proteins that play indirect roles in the biological processes and activities of viruses. Included here are proteins that either regulate the expression of viral genes or are involved in modifying host cell functions. Many of the proteins in this category serve multiple functions.
Vaccines or candidate vaccines containing inactivated hepatitis B or some of its component antigens and designed to prevent hepatitis B. Some vaccines may be recombinantly produced.
A subtype of INFLUENZA A VIRUS comprised of the surface proteins hemagglutinin 5 and neuraminidase 1. The H5N1 subtype, frequently referred to as the bird flu virus, is endemic in wild birds and very contagious among both domestic (POULTRY) and wild birds. It does not usually infect humans, but some cases have been reported.
Inflammation of brain parenchymal tissue as a result of viral infection. Encephalitis may occur as primary or secondary manifestation of TOGAVIRIDAE INFECTIONS; HERPESVIRIDAE INFECTIONS; ADENOVIRIDAE INFECTIONS; FLAVIVIRIDAE INFECTIONS; BUNYAVIRIDAE INFECTIONS; PICORNAVIRIDAE INFECTIONS; PARAMYXOVIRIDAE INFECTIONS; ORTHOMYXOVIRIDAE INFECTIONS; RETROVIRIDAE INFECTIONS; and ARENAVIRIDAE INFECTIONS.
Vaccines or candidate vaccines used to prevent PAPILLOMAVIRUS INFECTIONS. Human vaccines are intended to reduce the incidence of UTERINE CERVICAL NEOPLASMS, so they are sometimes considered a type of CANCER VACCINES. They are often composed of CAPSID PROTEINS, especially L1 protein, from various types of ALPHAPAPILLOMAVIRUS.
Within a eukaryotic cell, a membrane-limited body which contains chromosomes and one or more nucleoli (CELL NUCLEOLUS). The nuclear membrane consists of a double unit-type membrane which is perforated by a number of pores; the outermost membrane is continuous with the ENDOPLASMIC RETICULUM. A cell may contain more than one nucleus. (From Singleton & Sainsbury, Dictionary of Microbiology and Molecular Biology, 2d ed)
The genital canal in the female, extending from the UTERUS to the VULVA. (Stedman, 25th ed)
Conjugated protein-carbohydrate compounds including mucins, mucoid, and amyloid glycoproteins.
The transparent anterior portion of the fibrous coat of the eye consisting of five layers: stratified squamous CORNEAL EPITHELIUM; BOWMAN MEMBRANE; CORNEAL STROMA; DESCEMET MEMBRANE; and mesenchymal CORNEAL ENDOTHELIUM. It serves as the first refracting medium of the eye. It is structurally continuous with the SCLERA, avascular, receiving its nourishment by permeation through spaces between the lamellae, and is innervated by the ophthalmic division of the TRIGEMINAL NERVE via the ciliary nerves and those of the surrounding conjunctiva which together form plexuses. (Cline et al., Dictionary of Visual Science, 4th ed)
A species of POLYOMAVIRUS originally isolated from Rhesus monkey kidney tissue. It produces malignancy in human and newborn hamster kidney cell cultures.
Virus diseases caused by the ORTHOMYXOVIRIDAE.
Use of restriction endonucleases to analyze and generate a physical map of genomes, genes, or other segments of DNA.
Any immunization following a primary immunization and involving exposure to the same or a closely related antigen.
DNA sequences which are recognized (directly or indirectly) and bound by a DNA-dependent RNA polymerase during the initiation of transcription. Highly conserved sequences within the promoter include the Pribnow box in bacteria and the TATA BOX in eukaryotes.
Delivery of medications through the nasal mucosa.
An analog of DEOXYURIDINE that inhibits viral DNA synthesis. The drug is used as an antiviral agent.
The entering of cells by viruses following VIRUS ATTACHMENT. This is achieved by ENDOCYTOSIS, by direct MEMBRANE FUSION of the viral membrane with the CELL MEMBRANE, or by translocation of the whole virus across the cell membrane.
Proteins which bind to DNA. The family includes proteins which bind to both double- and single-stranded DNA and also includes specific DNA binding proteins in serum which can be used as markers for malignant diseases.
Antibodies produced by a single clone of cells.
A family of RNA viruses causing INFLUENZA and other diseases. There are five recognized genera: INFLUENZAVIRUS A; INFLUENZAVIRUS B; INFLUENZAVIRUS C; ISAVIRUS; and THOGOTOVIRUS.
Viruses whose nucleic acid is DNA.
Antibodies that reduce or abolish some biological activity of a soluble antigen or infectious agent, usually a virus.
Use of attenuated VIRUSES as ANTINEOPLASTIC AGENTS to selectively kill CANCER cells.
The production of ANTIBODIES by proliferating and differentiated B-LYMPHOCYTES under stimulation by ANTIGENS.
A cultured line of C3H mouse FIBROBLASTS that do not adhere to one another and do not express CADHERINS.
A suborder of PRIMATES consisting of six families: CEBIDAE (some New World monkeys), ATELIDAE (some New World monkeys), CERCOPITHECIDAE (Old World monkeys), HYLOBATIDAE (gibbons and siamangs), CALLITRICHINAE (marmosets and tamarins), and HOMINIDAE (humans and great apes).
A genetic rearrangement through loss of segments of DNA or RNA, bringing sequences which are normally separated into close proximity. This deletion may be detected using cytogenetic techniques and can also be inferred from the phenotype, indicating a deletion at one specific locus.
A sequence of successive nucleotide triplets that are read as CODONS specifying AMINO ACIDS and begin with an INITIATOR CODON and end with a stop codon (CODON, TERMINATOR).
Inflammation of the eyelids.
A live, attenuated varicella virus vaccine used for immunization against chickenpox. It is recommended for children between the ages of 12 months and 13 years.
Recombinant proteins produced by the GENETIC TRANSLATION of fused genes formed by the combination of NUCLEIC ACID REGULATORY SEQUENCES of one or more genes with the protein coding sequences of one or more genes.
Widely used technique which exploits the ability of complementary sequences in single-stranded DNAs or RNAs to pair with each other to form a double helix. Hybridization can take place between two complimentary DNA sequences, between a single-stranded DNA and a complementary RNA, or between two RNA sequences. The technique is used to detect and isolate specific sequences, measure homology, or define other characteristics of one or both strands. (Kendrew, Encyclopedia of Molecular Biology, 1994, p503)
RNA sequences that serve as templates for protein synthesis. Bacterial mRNAs are generally primary transcripts in that they do not require post-transcriptional processing. Eukaryotic mRNA is synthesized in the nucleus and must be exported to the cytoplasm for translation. Most eukaryotic mRNAs have a sequence of polyadenylic acid at the 3' end, referred to as the poly(A) tail. The function of this tail is not known for certain, but it may play a role in the export of mature mRNA from the nucleus as well as in helping stabilize some mRNA molecules by retarding their degradation in the cytoplasm.
Naturally occurring or experimentally induced animal diseases with pathological processes sufficiently similar to those of human diseases. They are used as study models for human diseases.
Proteins prepared by recombinant DNA technology.
Inactivation of viruses by non-immune related techniques. They include extremes of pH, HEAT treatment, ultraviolet radiation, IONIZING RADIATION; DESICCATION; ANTISEPTICS; DISINFECTANTS; organic solvents, and DETERGENTS.
Tumor-selective, replication competent VIRUSES that have antineoplastic effects. This is achieved by producing cytotoxicity-enhancing proteins and/or eliciting an antitumor immune response. They are genetically engineered so that they can replicate in CANCER cells but not in normal cells, and are used in ONCOLYTIC VIROTHERAPY.
An antiviral derivative of THYMIDINE used mainly in the treatment of primary keratoconjunctivitis and recurrent epithelial keratitis due to HERPES SIMPLEX virus. (From Martindale, The Extra Pharmacopoeia, 30th ed, p557)
Membrane glycoproteins from influenza viruses which are involved in hemagglutination, virus attachment, and envelope fusion. Fourteen distinct subtypes of HA glycoproteins and nine of NA glycoproteins have been identified from INFLUENZA A VIRUS; no subtypes have been identified for Influenza B or Influenza C viruses.
A group of viruses in the PNEUMOVIRUS genus causing respiratory infections in various mammals. Humans and cattle are most affected but infections in goats and sheep have also been reported.
Vaccines or candidate vaccines used to prevent infection with NEISSERIA MENINGITIDIS.
A species of VARICELLOVIRUS that causes INFECTIOUS BOVINE RHINOTRACHEITIS and other associated syndromes in CATTLE.
Clusters of multipolar neurons surrounded by a capsule of loosely organized CONNECTIVE TISSUE located outside the CENTRAL NERVOUS SYSTEM.
The property of objects that determines the direction of heat flow when they are placed in direct thermal contact. The temperature is the energy of microscopic motions (vibrational and translational) of the particles of atoms.
A species of SIMPLEXVIRUS that causes vesicular lesions of the mouth in monkeys. When the virus is transmitted to man it causes an acute encephalitis or encephalomyelitis, which is nearly always fatal.
A cellular transcriptional coactivator that was originally identified by its requirement for the stable assembly IMMEDIATE-EARLY PROTEINS of the HERPES SIMPLEX VIRUS. It is a nuclear protein that is a transcriptional coactivator for a number of transcription factors including VP16 PROTEIN; GA-BINDING PROTEIN; EARLY GROWTH RESPONSE PROTEIN 2; and E2F4 TRANSCRIPTION FACTOR. It also interacts with and stabilizes HERPES SIMPLEX VIRUS PROTEIN VMW65 and helps regulate GENETIC TRANSCRIPTION of IMMEDIATE-EARLY GENES in HERPES SIMPLEX VIRUS.
Inbred C57BL mice are a strain of laboratory mice that have been produced by many generations of brother-sister matings, resulting in a high degree of genetic uniformity and homozygosity, making them widely used for biomedical research, including studies on genetics, immunology, cancer, and neuroscience.
Forceful administration into a muscle of liquid medication, nutrient, or other fluid through a hollow needle piercing the muscle and any tissue covering it.
Vaccines or candidate vaccines used to prevent infection with hepatitis A virus (HEPATOVIRUS).
Methods of maintaining or growing biological materials in controlled laboratory conditions. These include the cultures of CELLS; TISSUES; organs; or embryo in vitro. Both animal and plant tissues may be cultured by a variety of methods. Cultures may derive from normal or abnormal tissues, and consist of a single cell type or mixed cell types.
The rate dynamics in chemical or physical systems.
A test used to determine whether or not complementation (compensation in the form of dominance) will occur in a cell with a given mutant phenotype when another mutant genome, encoding the same mutant phenotype, is introduced into that cell.
The type species of the genus INFLUENZAVIRUS A that causes influenza and other diseases in humans and animals. Antigenic variation occurs frequently between strains, allowing classification into subtypes and variants. Transmission is usually by aerosol (human and most non-aquatic hosts) or waterborne (ducks). Infected birds shed the virus in their saliva, nasal secretions, and feces.
A live VACCINIA VIRUS vaccine of calf lymph or chick embryo origin, used for immunization against smallpox. It is now recommended only for laboratory workers exposed to smallpox virus. Certain countries continue to vaccinate those in the military service. Complications that result from smallpox vaccination include vaccinia, secondary bacterial infections, and encephalomyelitis. (Dorland, 28th ed)
One of the Type II site-specific deoxyribonucleases (EC 3.1.21.4). It recognizes and cleaves the sequence G/GATCC at the slash. BamHI is from Bacillus amyloliquefaciens N. Numerous isoschizomers have been identified. EC 3.1.21.-.
The insertion of recombinant DNA molecules from prokaryotic and/or eukaryotic sources into a replicating vehicle, such as a plasmid or virus vector, and the introduction of the resultant hybrid molecules into recipient cells without altering the viability of those cells.
A family of non-enveloped viruses infecting mammals (MASTADENOVIRUS) and birds (AVIADENOVIRUS) or both (ATADENOVIRUS). Infections may be asymptomatic or result in a variety of diseases.
A family of enzymes that catalyze the exonucleolytic cleavage of DNA. It includes members of the class EC 3.1.11 that produce 5'-phosphomonoesters as cleavage products.
The type species of RUBULAVIRUS that causes an acute infectious disease in humans, affecting mainly children. Transmission occurs by droplet infection.
Fusion of somatic cells in vitro or in vivo, which results in somatic cell hybridization.
The type species of ALPHAVIRUS normally transmitted to birds by CULEX mosquitoes in Egypt, South Africa, India, Malaya, the Philippines, and Australia. It may be associated with fever in humans. Serotypes (differing by less than 17% in nucleotide sequence) include Babanki, Kyzylagach, and Ockelbo viruses.
Manifestations of the immune response which are mediated by antigen-sensitized T-lymphocytes via lymphokines or direct cytotoxicity. This takes place in the absence of circulating antibody or where antibody plays a subordinate role.
Vaccines or candidate vaccines used to prevent infection with DENGUE VIRUS. These include live-attenuated, subunit, DNA, and inactivated vaccines.
A purine that is an isomer of ADENINE (6-aminopurine).
The process in which substances, either endogenous or exogenous, bind to proteins, peptides, enzymes, protein precursors, or allied compounds. Specific protein-binding measures are often used as assays in diagnostic assessments.
Serological reactions in which an antiserum against one antigen reacts with a non-identical but closely related antigen.
Includes the spectrum of human immunodeficiency virus infections that range from asymptomatic seropositivity, thru AIDS-related complex (ARC), to acquired immunodeficiency syndrome (AIDS).
Lymphocytes responsible for cell-mediated immunity. Two types have been identified - cytotoxic (T-LYMPHOCYTES, CYTOTOXIC) and helper T-lymphocytes (T-LYMPHOCYTES, HELPER-INDUCER). They are formed when lymphocytes circulate through the THYMUS GLAND and differentiate to thymocytes. When exposed to an antigen, they divide rapidly and produce large numbers of new T cells sensitized to that antigen.
Short sequences (generally about 10 base pairs) of DNA that are complementary to sequences of messenger RNA and allow reverse transcriptases to start copying the adjacent sequences of mRNA. Primers are used extensively in genetic and molecular biology techniques.
A critical subpopulation of regulatory T-lymphocytes involved in MHC Class I-restricted interactions. They include both cytotoxic T-lymphocytes (T-LYMPHOCYTES, CYTOTOXIC) and CD8+ suppressor T-lymphocytes.
Enzymes that catalyze the hydrolysis of ester bonds within RNA. EC 3.1.-.
Microscopy using an electron beam, instead of light, to visualize the sample, thereby allowing much greater magnification. The interactions of ELECTRONS with specimens are used to provide information about the fine structure of that specimen. In TRANSMISSION ELECTRON MICROSCOPY the reactions of the electrons that are transmitted through the specimen are imaged. In SCANNING ELECTRON MICROSCOPY an electron beam falls at a non-normal angle on the specimen and the image is derived from the reactions occurring above the plane of the specimen.
Deletion of sequences of nucleic acids from the genetic material of an individual.
A live attenuated virus vaccine of duck embryo or human diploid cell tissue culture origin, used for routine immunization of children and for immunization of nonpregnant adolescent and adult females of childbearing age who are unimmunized and do not have serum antibodies to rubella. Children are usually immunized with measles-mumps-rubella combination vaccine. (Dorland, 28th ed)
EPIDEMIOLOGIC STUDIES based on the detection through serological testing of characteristic change in the serum level of specific ANTIBODIES. Latent subclinical infections and carrier states can thus be detected in addition to clinically overt cases.
A single-stranded DNA-dependent RNA polymerase that functions to initiate, or prime, DNA synthesis by synthesizing oligoribonucleotide primers. EC 2.7.7.-.
Viruses parasitic on plants higher than bacteria.
Transfer of immunity from immunized to non-immune host by administration of serum antibodies, or transplantation of lymphocytes (ADOPTIVE TRANSFER).
The parts of a macromolecule that directly participate in its specific combination with another molecule.
The interactions between a host and a pathogen, usually resulting in disease.
The type species of VESICULOVIRUS causing a disease symptomatically similar to FOOT-AND-MOUTH DISEASE in cattle, horses, and pigs. It may be transmitted to other species including humans, where it causes influenza-like symptoms.
A pyrimidine nucleoside formed in the body by the deamination of CYTARABINE.
Body organ that filters blood for the secretion of URINE and that regulates ion concentrations.
The binding of virus particles to receptors on the host cell surface. For enveloped viruses, the virion ligand is usually a surface glycoprotein as is the cellular receptor. For non-enveloped viruses, the virus CAPSID serves as the ligand.

Role of the immune response during neuro-attenuated herpes simplex virus-mediated tumor destruction in a murine intracranial melanoma model. (1/90)

Neuro-attenuated herpes simplex virus-1 (HSV-1) gamma34.5 mutants can slow progression of preformed tumors and lead to complete regression of some tumors. However, the role of the immune response in this process is poorly understood. Syngenic DBA/2 tumor-bearing mice treated with HSV-1 1716 fourteen days after tumor implantation had significant prolongation in survival when compared with mice treated with viral growth sera (mock; 38.9 +/- 2.3 versus 24.9 +/- 0.6, respectively; P < 0.0001). Additionally, 60% of the animals treated on day 7 had complete regression of the tumors. However, no difference was observed in the mean survival rates of viral- or mock-treated tumor-bearing SCID mice (15 +/- 1.7 versus 14.8 +/- 2.2, respectively). When DBA/2 mice syngenic for the tumor were depleted of leukocytes by cyclophosphamide administration (before and during viral administration), there was again no significant difference observed in the survival times (19.0 +/- 1.9 versus 19.5 +/- 2.7, respectively). These data demonstrate that the immune response contributes to the viral-mediated tumor destruction and the increase in survival. Immune cell infiltration was up-regulated, specifically CD4+ T cells and macrophages (which are found early after viral administration). Prior immunity to HSV-1 increased survival times of treated mice over those of naive mice, an important consideration because 50-95% of the adult human population is sero-positive for HSV-1. Our results imply that the timing of viral administration and the immune status of the animals will be an important consideration in determining the effectiveness of viral therapies.  (+info)

Prevention of herpes genitalis by the 'Bulgarian' vaccine F.HSV-2V(PRK): preliminary clinical evidence. (2/90)

AIM: To examine the antigenic properties of the formalin-inactivated herpes simplex virus type 2 (HSV-2) virus-particle vaccine F. HSV-2V(PRK), which has been used therapeutically in Bulgaria for 30 years, and to make preliminary assessment of its potential protective efficacy by a follow-up of vaccinated patients with herpes genitalis. METHODS: Properties of the vaccine were examined by standard immunological laboratory tests. Fifty-five patients at risk of herpes genitalis received 2-4 vaccinations and were monitored during a 6-year follow-up. RESULTS: The vaccine was antigenic in laboratory tests and absorbed neutralizing antibody from hyperimmune rabbit serum against herpes simplex virus type 1 (HSV-1). In vaccinated patients, there was an overall contraction rate of herpes genitalis of 5.4%. There was no evidence of significant local or generalized adverse effects from vaccination. CONCLUSION: Bulgarian vaccine F.HSV-2V(PRK) may have protective efficacy, which, in association with its apparent safety from our findings and from its clinical use for over 30 years in Bulgaria, suggests that it should be scrutinized by a formal clinical trial.  (+info)

Modulation of immunity against herpes simplex virus infection via mucosal genetic transfer of plasmid DNA encoding chemokines. (3/90)

In this study, we examined the effects of murine chemokine DNA, as genetic adjuvants given mucosally, on the systemic and distal mucosal immune responses to plasmid DNA encoding gB of herpes simplex virus (HSV) by using the mouse model. The CC chemokines macrophage inflammatory protein 1beta (MIP-1beta) and monocyte chemotactic protein 1 (MCP-1) biased the immunity to the Th2-type pattern as judged by the ratio of immunoglobulin isotypes and interleukin-4 cytokine levels produced by CD4(+) T cells. The CXC chemokine MIP-2 and the CC chemokine MIP-1alpha, however, mounted immune responses of the Th1-type pattern, and such a response rendered recipients more resistant to HSV vaginal infection. In addition, MIP-1alpha appeared to act via the upregulation of antigen-presenting cell (APC) function and the expression of costimulatory molecules (B7-1 and B7-2), whereas MIP-2 enhanced Th1-type CD4(+) T-cell-mediated adaptive immunity by increasing gamma interferon secretion from activated NK cells. Our results emphasize the value of using the mucosal route to administer DNA modulators such as chemokines that function as adjuvants by regulating the activity of innate immunity. Our findings provide new insight into the value of CXC and CC chemokines, which act on different innate cellular components as the linkage signals between innate and adaptive immunity in mucosal DNA vaccination.  (+info)

The application of a plasmid DNA encoding IFN-alpha 1 postinfection enhances cumulative survival of herpes simplex virus type 2 vaginally infected mice. (4/90)

Using a hormonally induced susceptibility mouse model to investigate vaginal HSV type 2 (HSV-2) infection, a study was undertaken to determine the efficacy of a plasmid DNA encoding IFN-alpha1 introduced into the vaginal lumen postinfection (PI). Mice infected with HSV-2 intravaginally and treated intravaginally 24 h later with 100 microg DNA encoding IFN-alpha1 showed enhanced survival (10/15) in comparison to mice treated with 100 microg plasmid DNA vector alone (3/10) or vehicle (4/27). In contrast, mice receiving recombinant IFN-alphaA (5-500 U/vagina) 24 h PI showed no significant survival in comparison to the vehicle (saline)-treated group. The protective effect was time dependent in that mice receiving the IFN-alpha1 transgene 48 h PI succumbed at a rate similar to the plasmid DNA vector-treated group. The increase in cumulative survival elicited by the transgene corresponded with a reduction in viral replication and Ag expressed in the vaginal epithelium early (i.e., 3 days PI) during acute infection and replicating virus recovered in the spinal cord day 7 PI. By day 7 PI, HSV-2 glycoprotein B transcript expression was no longer detectable in vaginal tissue from the IFN-alpha1 transgene-treated group (0/8) compared with levels expressed in plasmid vector-treated controls (4/6 mice surveyed were positive). Collectively, these results suggest the application of DNA encoding type I IFN is an effective and alternative approach to currently prescribed therapies in controlling vaginal HSV-2 infection by antagonizing viral replication.  (+info)

Intranasal immunization with CpG oligodeoxynucleotides as an adjuvant dramatically increases IgA and protection against herpes simplex virus-2 in the genital tract. (5/90)

Development of vaccines capable of preventing the transmission or limiting the severity of sexually transmitted viruses, such as HSV and HIV, will likely be dependent on the induction of potent long-lasting mucosal immune responses in the genital tract. Recently, synthetic oligodeoxynucleotides (ODN) containing immunostimulatory CpG motifs were shown to serve as potent adjuvants for the induction of mucosal immune responses. Here, we show that intranasal immunization with CpG ODN, plus recombinant glycoprotein B (rgB) of HSV-1, results in significantly elevated levels of specific anti-gB IgA Abs in vaginal washes that remained high throughout the estrous cycle. Additionally, dramatically elevated numbers of specific IgA Ab-secreting cells were present and persisted in the genital tract in response to intravaginal (IVAG) HSV-2 challenge. HSV-2-specific CTL were observed at moderate levels in the spleens of CpG or non-CpG ODN-immunized mice. In contrast, strong CTL responses were observed locally in the genital tissues of both groups following IVAG HSV-2 challenge. Interestingly, mice immunized intranasally with rgB plus CpG ODN, but not non-CpG ODN, were significantly protected following IVAG HSV-2 challenge. Measurement of virus in protected CpG-immunized mice revealed a log lower level of replication within the first few days after infection. In conclusion, these results indicate that intranasal immunization with CpG ODN plus protein mediates immunity in the female genital tract capable of protecting against a sexually transmitted pathogen.  (+info)

Prime-boost immunization with DNA vaccine: mucosal route of administration changes the rules. (6/90)

In this study we assessed prime-boost immunization strategies with a DNA vaccine (gB DNA) and attenuated recombinant vaccinia virus vector (rvacgB), both encoding the gB protein of HSV, for their effectiveness at inducing mucosal as well as systemic immunity to HSV. Confirming the reports of others, systemic priming with gB DNA and systemic boosting with rvacgB were the most effective means of inducing serum Ab and splenic T cell responses. Nevertheless, the systemic prime-boost approach failed to induce detectable humoral or T cell responses at mucosal sites. However, such responses, at both proximal and distal locations, were induced if immunizations, especially the priming dose, were administered mucosally. Curiously, whereas optimal immunity with systemic priming and boosting occurred when gB DNA was used to prime and rvacgB was used as a boost, mucosal responses were optimal when animals were mucosally primed with rvacgB and boosted with gB DNA given mucosally. Furthermore, notable mucosal responses also occurred in animals mucosally primed with rvacgB and subsequently boosted systemically with gB DNA. Because the mucosal prime-boost immunization protocol also induced excellent systemic immune responses, the approach should be useful to vaccinate against agents for which both mucosal and systemic immunity are important for protection.  (+info)

The use of a genetically engineered herpes simplex virus (R7020) with ionizing radiation for experimental hepatoma. (7/90)

The herpes simplex virus (HSV) recombinant virus R7020 is an attenuated virus designed as a candidate for immunization against both HSV-1 and HSV-2 infections. It was extensively tested in an experimental animal system and in a healthy human adult population without significant untoward effects. We report on the use of R7020 with ionizing radiation as an oncolytic agent for hepatomas. Two hepatoma cell lines were studied, Hep3B and Huh7. R7020 replicated to higher titers in Hep3B cells than in Huh7 cells. Tissue culture studies correlated with hepatoma xenograft responses to R7020. R7020 was more effective in mediating Hep3B tumor xenograft regression compared with Huh7. Ionizing radiation combined with R7020 also showed differential results in antitumor efficacy between the two cell lines in tumor xenografts. Ionizing radiation enhanced the replication of R7020 in Hep3B xenografts. Moreover, the combination of ionizing radiation and virus caused a greater regression of xenograft volume than either R7020 or radiation alone. Ionizing radiation had no effect on the replication of R7020 virus in Huh7 xenografts. These results indicate that a regimen involving infection with an appropriate herpesvirus such as R7020 in combination with ionizing radiation can be highly effective in eradicating certain tumor xenografts.  (+info)

Protective immunity against lethal HSV-1 challenge in mice by nucleic acid-based immunisation with herpes simplex virus type-1 genes specifying glycoproteins gB and gD. (8/90)

DNA-based vaccines were employed to assess protective immunity against herpes simplex virus in experimental infections of hairless (strain SKH1) and BALB/c mice. Mice were vaccinated with plasmids containing the herpes simplex virus type-1 (HSV-1) glycoprotein B (gB) or D (gD) genes under the human cytomegalovirus immediate-early promoter control. Vaccines were injected intramuscularly (i.m.) or intraperitoneally (i.p.) as purified DNA alone or as formulations supplemented with different non-ionic block copolymers. Antibody responses were assessed by immunofluorescence and radio-immunoprecipitation assays. Mice inoculated with either gB or gD plasmid, alone or with non-ionic block copolymers CRL 1029 and CRL 1190, produced high levels of antibodies specific for gB or gD. Three weeks after the last vaccination, mice were challenged with a clinical HSV-1 isolate (ABGK-1) by inoculation of a shaved and subsequently scarified area between the third and fourth lumbar vertebrae. Mice immunised with either gD or gB plasmid alone or mixed with copolymers were protected against lethal HSV-1 challenge when immunisation was performed via the i.m. route. Immunisations given via the i.p. route induced humoral responses in some mice and protected the animals against lethal HSV-1 challenge only when the formulations contained copolymers. The BALB/c mouse model was shown to be as good a model as the hairless mouse model.  (+info)

Herpes simplex virus vaccines are types of vaccines that are being developed to prevent infections caused by the herpes simplex viruses (HSV), which include HSV-1 and HSV-2. These viruses can cause painful blisters or sores on the skin or mucous membranes, such as those found inside the mouth or genitals.

There are currently no approved vaccines for HSV-1 or HSV-2, although several candidates are in various stages of development. The goal of an HSV vaccine is to stimulate the immune system to produce a strong and durable response that can prevent infection with the virus or reduce the severity and frequency of outbreaks in people who are already infected.

HSV vaccines typically work by introducing a harmless piece of the virus, such as a protein or a weakened or killed virus, to the body. This triggers the immune system to produce antibodies and activate immune cells that can recognize and attack the virus if it enters the body in the future. Some HSV vaccine candidates are designed to stimulate both arms of the immune system (humoral and cell-mediated immunity), while others focus on one or the other.

While there is no cure for herpes simplex virus infections, a successful vaccine could help prevent the spread of the virus and reduce the burden of disease.

Herpes Simplex is a viral infection caused by the Herpes Simplex Virus (HSV). There are two types of HSV: HSV-1 and HSV-2. Both types can cause sores or blisters on the skin or mucous membranes, but HSV-1 is typically associated with oral herpes (cold sores) and HSV-2 is usually linked to genital herpes. However, either type can infect any area of the body. The virus remains in the body for life and can reactivate periodically, causing recurrent outbreaks of lesions or blisters. It is transmitted through direct contact with infected skin or mucous membranes, such as during kissing or sexual activity.

Simplexvirus is a genus of viruses in the family Herpesviridae, subfamily Alphaherpesvirinae. This genus contains two species: Human alphaherpesvirus 1 (also known as HSV-1 or herpes simplex virus type 1) and Human alphaherpesvirus 2 (also known as HSV-2 or herpes simplex virus type 2). These viruses are responsible for causing various medical conditions, most commonly oral and genital herpes. They are characterized by their ability to establish lifelong latency in the nervous system and reactivate periodically to cause recurrent symptoms.

Medical Definition of "Herpesvirus 1, Human" (also known as Human Herpesvirus 1 or HHV-1):

Herpesvirus 1, Human is a type of herpesvirus that primarily causes infection in humans. It is also commonly referred to as human herpesvirus 1 (HHV-1) or oral herpes. This virus is highly contagious and can be transmitted through direct contact with infected saliva, skin, or mucous membranes.

After initial infection, the virus typically remains dormant in the body's nerve cells and may reactivate later, causing recurrent symptoms. The most common manifestation of HHV-1 infection is oral herpes, characterized by cold sores or fever blisters around the mouth and lips. In some cases, HHV-1 can also cause other conditions such as encephalitis (inflammation of the brain) and keratitis (inflammation of the eye's cornea).

There is no cure for HHV-1 infection, but antiviral medications can help manage symptoms and reduce the severity and frequency of recurrent outbreaks.

Medical Definition of "Herpesvirus 2, Human" (also known as Human Herpesvirus 2 or HHV-2):

Herpesvirus 2, Human is a double-stranded DNA virus that belongs to the Herpesviridae family. It is one of the eight herpesviruses known to infect humans. HHV-2 is the primary cause of genital herpes, a sexually transmitted infection (STI) that affects the mucosal surfaces and skin around the genitals, rectum, or mouth.

The virus is typically transmitted through sexual contact with an infected person, and it can also be spread from mother to child during childbirth if the mother has active genital lesions. After initial infection, HHV-2 establishes latency in the sacral ganglia (a collection of nerve cells at the base of the spine) and may reactivate periodically, leading to recurrent outbreaks of genital herpes.

During both primary and recurrent infections, HHV-2 can cause painful blisters or ulcers on the skin or mucous membranes, as well as flu-like symptoms such as fever, swollen lymph nodes, and body aches. While there is no cure for genital herpes, antiviral medications can help manage symptoms, reduce outbreak frequency, and lower the risk of transmission to sexual partners.

It's important to note that HHV-2 infection can sometimes be asymptomatic or cause mild symptoms that go unnoticed, making it difficult to determine the exact prevalence of the virus in the population. According to the World Health Organization (WHO), an estimated 491 million people worldwide aged 15 years and older have HSV-2 infection, with a higher prevalence in women than men.

Vero cells are a line of cultured kidney epithelial cells that were isolated from an African green monkey (Cercopithecus aethiops) in the 1960s. They are named after the location where they were initially developed, the Vervet Research Institute in Japan.

Vero cells have the ability to divide indefinitely under certain laboratory conditions and are often used in scientific research, including virology, as a host cell for viruses to replicate. This allows researchers to study the characteristics of various viruses, such as their growth patterns and interactions with host cells. Vero cells are also used in the production of some vaccines, including those for rabies, polio, and Japanese encephalitis.

It is important to note that while Vero cells have been widely used in research and vaccine production, they can still have variations between different cell lines due to factors like passage number or culture conditions. Therefore, it's essential to specify the exact source and condition of Vero cells when reporting experimental results.

Herpes genitalis is a sexually transmitted infection caused by the herpes simplex virus (HSV), specifically HSV-2, and occasionally HSV-1. It primarily affects the genital area, but can also involve the anal region, thighs, and buttocks. The infection presents as painful fluid-filled blisters or lesions that may be accompanied by symptoms such as itching, tingling, or burning sensations in the affected area. After the initial outbreak, the virus remains dormant in the body and can reactivate periodically, causing recurrent episodes of genital herpes. It's important to note that while there is no cure for herpes genitalis, antiviral medications can help manage symptoms and reduce transmission risks.

'Cercopithecus aethiops' is the scientific name for the monkey species more commonly known as the green monkey. It belongs to the family Cercopithecidae and is native to western Africa. The green monkey is omnivorous, with a diet that includes fruits, nuts, seeds, insects, and small vertebrates. They are known for their distinctive greenish-brown fur and long tail. Green monkeys are also important animal models in biomedical research due to their susceptibility to certain diseases, such as SIV (simian immunodeficiency virus), which is closely related to HIV.

Thymidine kinase (TK) is an enzyme that plays a crucial role in the synthesis of thymidine triphosphate (dTMP), a nucleotide required for DNA replication and repair. It catalyzes the phosphorylation of thymidine to thymidine monophosphate (dTMP) by transferring a phosphate group from adenosine triphosphate (ATP).

There are two major isoforms of thymidine kinase in humans: TK1 and TK2. TK1 is primarily found in the cytoplasm of proliferating cells, such as those involved in the cell cycle, while TK2 is located mainly in the mitochondria and is responsible for maintaining the dNTP pool required for mtDNA replication and repair.

Thymidine kinase activity has been used as a marker for cell proliferation, particularly in cancer cells, which often exhibit elevated levels of TK1 due to their high turnover rates. Additionally, measuring TK1 levels can help monitor the effectiveness of certain anticancer therapies that target DNA replication.

Viral proteins are the proteins that are encoded by the viral genome and are essential for the viral life cycle. These proteins can be structural or non-structural and play various roles in the virus's replication, infection, and assembly process. Structural proteins make up the physical structure of the virus, including the capsid (the protein shell that surrounds the viral genome) and any envelope proteins (that may be present on enveloped viruses). Non-structural proteins are involved in the replication of the viral genome and modulation of the host cell environment to favor viral replication. Overall, a thorough understanding of viral proteins is crucial for developing antiviral therapies and vaccines.

Acyclovir is an antiviral medication used for the treatment of infections caused by herpes simplex viruses (HSV) including genital herpes, cold sores, and shingles (varicella-zoster virus). It works by interfering with the replication of the virus's DNA, thereby preventing the virus from multiplying further. Acyclovir is available in various forms such as oral tablets, capsules, creams, and intravenous solutions.

The medical definition of 'Acyclovir' is:

Acyclovir (brand name Zovirax) is a synthetic nucleoside analogue that functions as an antiviral agent, specifically against herpes simplex viruses (HSV) types 1 and 2, varicella-zoster virus (VZV), and Epstein-Barr virus (EBV). Acyclovir is converted to its active form, acyclovir triphosphate, by viral thymidine kinase. This activated form then inhibits viral DNA polymerase, preventing further replication of the virus's DNA.

Acyclovir has a relatively low toxicity profile and is generally well-tolerated, although side effects such as nausea, vomiting, diarrhea, and headache can occur. In rare cases, more serious side effects such as kidney damage, seizures, or neurological problems may occur. It is important to take acyclovir exactly as directed by a healthcare provider and to report any unusual symptoms promptly.

Virus replication is the process by which a virus produces copies or reproduces itself inside a host cell. This involves several steps:

1. Attachment: The virus attaches to a specific receptor on the surface of the host cell.
2. Penetration: The viral genetic material enters the host cell, either by invagination of the cell membrane or endocytosis.
3. Uncoating: The viral genetic material is released from its protective coat (capsid) inside the host cell.
4. Replication: The viral genetic material uses the host cell's machinery to produce new viral components, such as proteins and nucleic acids.
5. Assembly: The newly synthesized viral components are assembled into new virus particles.
6. Release: The newly formed viruses are released from the host cell, often through lysis (breaking) of the cell membrane or by budding off the cell membrane.

The specific mechanisms and details of virus replication can vary depending on the type of virus. Some viruses, such as DNA viruses, use the host cell's DNA polymerase to replicate their genetic material, while others, such as RNA viruses, use their own RNA-dependent RNA polymerase or reverse transcriptase enzymes. Understanding the process of virus replication is important for developing antiviral therapies and vaccines.

A viral vaccine is a biological preparation that introduces your body to a specific virus in a way that helps your immune system build up protection against the virus without causing the illness. Viral vaccines can be made from weakened or inactivated forms of the virus, or parts of the virus such as proteins or sugars. Once introduced to the body, the immune system recognizes the virus as foreign and produces an immune response, including the production of antibodies. These antibodies remain in the body and provide immunity against future infection with that specific virus.

Viral vaccines are important tools for preventing infectious diseases caused by viruses, such as influenza, measles, mumps, rubella, polio, hepatitis A and B, rabies, rotavirus, chickenpox, shingles, and some types of cancer. Vaccination programs have led to the control or elimination of many infectious diseases that were once common.

It's important to note that viral vaccines are not effective against bacterial infections, and separate vaccines must be developed for each type of virus. Additionally, because viruses can mutate over time, it is necessary to update some viral vaccines periodically to ensure continued protection.

Herpes Simplex Virus Protein Vmw65, also known as Infected Cell Protein 0 (ICP0), is a crucial regulatory protein of the Herpes Simplex Virus (HSV). It is a viral early protein, which means it becomes active during the initial stages of viral replication.

Vmw65 plays a significant role in the virus's ability to evade the host's immune response and promote viral replication. It functions as a transcriptional regulator, affecting the expression of various genes involved in the host's antiviral defense mechanisms. Vmw65 can induce the degradation of certain cellular proteins that inhibit viral replication and also enhance viral gene expression by promoting viral DNA synthesis.

The protein's name, Vmw65, is derived from its molecular weight (65 kilodaltons) and its initial discovery as a virus-induced membrane protein. However, it's now more commonly referred to as ICP0 due to its role as an immediate-early viral gene product that functions as a transcriptional regulatory protein.

Viral DNA refers to the genetic material present in viruses that consist of DNA as their core component. Deoxyribonucleic acid (DNA) is one of the two types of nucleic acids that are responsible for storing and transmitting genetic information in living organisms. Viruses are infectious agents much smaller than bacteria that can only replicate inside the cells of other organisms, called hosts.

Viral DNA can be double-stranded (dsDNA) or single-stranded (ssDNA), depending on the type of virus. Double-stranded DNA viruses have a genome made up of two complementary strands of DNA, while single-stranded DNA viruses contain only one strand of DNA.

Examples of dsDNA viruses include Adenoviruses, Herpesviruses, and Poxviruses, while ssDNA viruses include Parvoviruses and Circoviruses. Viral DNA plays a crucial role in the replication cycle of the virus, encoding for various proteins necessary for its multiplication and survival within the host cell.

Antibodies, viral are proteins produced by the immune system in response to an infection with a virus. These antibodies are capable of recognizing and binding to specific antigens on the surface of the virus, which helps to neutralize or destroy the virus and prevent its replication. Once produced, these antibodies can provide immunity against future infections with the same virus.

Viral antibodies are typically composed of four polypeptide chains - two heavy chains and two light chains - that are held together by disulfide bonds. The binding site for the antigen is located at the tip of the Y-shaped structure, formed by the variable regions of the heavy and light chains.

There are five classes of antibodies in humans: IgA, IgD, IgE, IgG, and IgM. Each class has a different function and is distributed differently throughout the body. For example, IgG is the most common type of antibody found in the bloodstream and provides long-term immunity against viruses, while IgA is found primarily in mucous membranes and helps to protect against respiratory and gastrointestinal infections.

In addition to their role in the immune response, viral antibodies can also be used as diagnostic tools to detect the presence of a specific virus in a patient's blood or other bodily fluids.

A vaccine is a biological preparation that provides active acquired immunity to a particular infectious disease. It typically contains an agent that resembles the disease-causing microorganism and is often made from weakened or killed forms of the microbe, its toxins, or one of its surface proteins. The agent stimulates the body's immune system to recognize the agent as a threat, destroy it, and "remember" it, so that the immune system can more easily recognize and destroy any of these microorganisms that it encounters in the future.

Vaccines can be prophylactic (to prevent or ameliorate the effects of a future infection by a natural or "wild" pathogen), or therapeutic (to fight disease that is already present). The administration of vaccines is called vaccination. Vaccinations are generally administered through needle injections, but can also be administered by mouth or sprayed into the nose.

The term "vaccine" comes from Edward Jenner's 1796 use of cowpox to create immunity to smallpox. The first successful vaccine was developed in 1796 by Edward Jenner, who showed that milkmaids who had contracted cowpox did not get smallpox. He reasoned that exposure to cowpox protected against smallpox and tested his theory by injecting a boy with pus from a cowpox sore and then exposing him to smallpox, which the boy did not contract. The word "vaccine" is derived from Variolae vaccinae (smallpox of the cow), the term devised by Jenner to denote cowpox. He used it in 1798 during a conversation with a fellow physician and later in the title of his 1801 Inquiry.

Inactivated vaccines, also known as killed or non-live vaccines, are created by using a version of the virus or bacteria that has been grown in a laboratory and then killed or inactivated with chemicals, heat, or radiation. This process renders the organism unable to cause disease, but still capable of stimulating an immune response when introduced into the body.

Inactivated vaccines are generally considered safer than live attenuated vaccines since they cannot revert back to a virulent form and cause illness. However, they may require multiple doses or booster shots to maintain immunity because the immune response generated by inactivated vaccines is not as robust as that produced by live vaccines. Examples of inactivated vaccines include those for hepatitis A, rabies, and influenza (inactivated flu vaccine).

Herpes simplex encephalitis (HSE) is a severe and potentially life-thingening inflammation of the brain caused by the herpes simplex virus (HSV), most commonly HSV-1. It is a rare but serious condition that can cause significant neurological damage if left untreated.

The infection typically begins in the temporal or frontal lobes of the brain and can spread to other areas, causing symptoms such as headache, fever, seizures, confusion, memory loss, and personality changes. In severe cases, it can lead to coma or death.

Diagnosis of HSE is often made through a combination of clinical presentation, imaging studies (such as MRI), and laboratory tests, including polymerase chain reaction (PCR) analysis of cerebrospinal fluid (CSF) to detect the presence of the virus.

Treatment typically involves antiviral medications, such as acyclovir, which can help reduce the severity of the infection and prevent further neurological damage. In some cases, corticosteroids may also be used to reduce inflammation in the brain. Prompt treatment is critical for improving outcomes and reducing the risk of long-term neurological complications.

Viral genes refer to the genetic material present in viruses that contains the information necessary for their replication and the production of viral proteins. In DNA viruses, the genetic material is composed of double-stranded or single-stranded DNA, while in RNA viruses, it is composed of single-stranded or double-stranded RNA.

Viral genes can be classified into three categories: early, late, and structural. Early genes encode proteins involved in the replication of the viral genome, modulation of host cell processes, and regulation of viral gene expression. Late genes encode structural proteins that make up the viral capsid or envelope. Some viruses also have structural genes that are expressed throughout their replication cycle.

Understanding the genetic makeup of viruses is crucial for developing antiviral therapies and vaccines. By targeting specific viral genes, researchers can develop drugs that inhibit viral replication and reduce the severity of viral infections. Additionally, knowledge of viral gene sequences can inform the development of vaccines that stimulate an immune response to specific viral proteins.

Immediate-early proteins (IEPs) are a class of regulatory proteins that play a crucial role in the early stages of gene expression in viral infection and cellular stress responses. These proteins are synthesized rapidly, without the need for new protein synthesis, after the induction of immediate-early genes (IEGs).

In the context of viral infection, IEPs are often the first proteins produced by the virus upon entry into the host cell. They function as transcription factors that bind to specific DNA sequences and regulate the expression of early and late viral genes required for replication and packaging of the viral genome.

IEPs can also be involved in modulating host cell signaling pathways, altering cell cycle progression, and inducing apoptosis (programmed cell death). Dysregulation of IEPs has been implicated in various diseases, including cancer and neurological disorders.

It is important to note that the term "immediate-early proteins" is primarily used in the context of viral infection, while in other contexts such as cellular stress responses or oncogene activation, these proteins may be referred to by different names, such as "early response genes" or "transcription factors."

Viral envelope proteins are structural proteins found in the envelope that surrounds many types of viruses. These proteins play a crucial role in the virus's life cycle, including attachment to host cells, fusion with the cell membrane, and entry into the host cell. They are typically made up of glycoproteins and are often responsible for eliciting an immune response in the host organism. The exact structure and function of viral envelope proteins vary between different types of viruses.

Herpetic keratitis is a specific type of keratitis (inflammation of the cornea) that is caused by herpes simplex virus (HSV) infection. It is further divided into two types: dendritic and disciform keratitis. Dendritic keratitis is characterized by the development of branching ulcers on the surface of the cornea, while disciform keratitis involves inflammation and opacity in the stroma (middle layer) of the cornea. Both types of herpetic keratitis can cause symptoms such as eye pain, redness, sensitivity to light, tearing, and blurred vision. If left untreated, herpetic keratitis can lead to serious complications, including blindness.

The trigeminal ganglion, also known as the semilunar or Gasserian ganglion, is a sensory ganglion (a cluster of nerve cell bodies) located near the base of the skull. It is a part of the trigeminal nerve (the fifth cranial nerve), which is responsible for sensation in the face and motor functions such as biting and chewing.

The trigeminal ganglion contains the cell bodies of sensory neurons that carry information from three major branches of the trigeminal nerve: the ophthalmic, maxillary, and mandibular divisions. These divisions provide sensation to different areas of the face, head, and oral cavity, including the skin, mucous membranes, muscles, and teeth.

Damage to the trigeminal ganglion or its nerve branches can result in various sensory disturbances, such as pain, numbness, or tingling in the affected areas. Conditions like trigeminal neuralgia, a disorder characterized by intense, stabbing facial pain, may involve the trigeminal ganglion and its associated nerves.

Antiviral agents are a class of medications that are designed to treat infections caused by viruses. Unlike antibiotics, which target bacteria, antiviral agents interfere with the replication and infection mechanisms of viruses, either by inhibiting their ability to replicate or by modulating the host's immune response to the virus.

Antiviral agents are used to treat a variety of viral infections, including influenza, herpes simplex virus (HSV) infections, human immunodeficiency virus (HIV) infection, hepatitis B and C, and respiratory syncytial virus (RSV) infections.

These medications can be administered orally, intravenously, or topically, depending on the type of viral infection being treated. Some antiviral agents are also used for prophylaxis, or prevention, of certain viral infections.

It is important to note that antiviral agents are not effective against all types of viruses and may have significant side effects. Therefore, it is essential to consult with a healthcare professional before starting any antiviral therapy.

A cell line is a culture of cells that are grown in a laboratory for use in research. These cells are usually taken from a single cell or group of cells, and they are able to divide and grow continuously in the lab. Cell lines can come from many different sources, including animals, plants, and humans. They are often used in scientific research to study cellular processes, disease mechanisms, and to test new drugs or treatments. Some common types of human cell lines include HeLa cells (which come from a cancer patient named Henrietta Lacks), HEK293 cells (which come from embryonic kidney cells), and HUVEC cells (which come from umbilical vein endothelial cells). It is important to note that cell lines are not the same as primary cells, which are cells that are taken directly from a living organism and have not been grown in the lab.

A viral plaque assay is a laboratory technique used to measure the infectivity and concentration of viruses in a sample. This method involves infecting a monolayer of cells (usually in a petri dish or multi-well plate) with a known volume of a virus-containing sample, followed by overlaying the cells with a nutrient-agar medium to restrict viral spread and enable individual plaques to form.

After an incubation period that allows for viral replication and cell death, the cells are stained, and clear areas or "plaques" become visible in the monolayer. Each plaque represents a localized region of infected and lysed cells, caused by the progeny of a single infectious virus particle. The number of plaques is then counted, and the viral titer (infectious units per milliliter or PFU/mL) is calculated based on the dilution factor and volume of the original inoculum.

Viral plaque assays are essential for determining viral titers, assessing virus-host interactions, evaluating antiviral agents, and studying viral pathogenesis.

Viral activation, also known as viral reactivation or virus reactivation, refers to the process in which a latent or dormant virus becomes active and starts to replicate within a host cell. This can occur when the immune system is weakened or compromised, allowing the virus to evade the body's natural defenses and cause disease.

In some cases, viral activation can be triggered by certain environmental factors, such as stress, exposure to UV light, or infection with another virus. Once activated, the virus can cause symptoms similar to those seen during the initial infection, or it may lead to new symptoms depending on the specific virus and the host's immune response.

Examples of viruses that can remain dormant in the body and be reactivated include herpes simplex virus (HSV), varicella-zoster virus (VZV), cytomegalovirus (CMV), and Epstein-Barr virus (EBV). It is important to note that not all viruses can be reactivated, and some may remain dormant in the body indefinitely without causing any harm.

Dendritic keratitis is a specific form of keratitis, which is inflammation of the cornea. The term "dendritic" refers to the characteristic appearance of the lesion on the cornea, which resembles a branching tree or a dendrite.

Dendritic keratitis is most commonly caused by herpes simplex virus type 1 (HSV-1) infection, although other infectious and non-infectious etiologies can also produce similar lesions. The condition is characterized by the presence of a branching, dendrite-like ulcer on the corneal epithelium, often accompanied by symptoms such as eye pain, redness, photophobia (sensitivity to light), and tearing.

Treatment for dendritic keratitis typically involves antiviral medications to manage the underlying HSV-1 infection, as well as measures to promote corneal healing and reduce discomfort. It is essential to seek prompt medical attention if you suspect dendritic keratitis, as untreated or improperly managed cases can lead to serious complications, including corneal scarring, vision loss, and potential blindness.

Synthetic vaccines are artificially produced, designed to stimulate an immune response and provide protection against specific diseases. Unlike traditional vaccines that are derived from weakened or killed pathogens, synthetic vaccines are created using synthetic components, such as synthesized viral proteins, DNA, or RNA. These components mimic the disease-causing agent and trigger an immune response without causing the actual disease. The use of synthetic vaccines offers advantages in terms of safety, consistency, and scalability in production, making them valuable tools for preventing infectious diseases.

Virus latency, also known as viral latency, refers to a state of infection in which a virus remains dormant or inactive within a host cell for a period of time. During this phase, the virus does not replicate or cause any noticeable symptoms. However, under certain conditions such as stress, illness, or a weakened immune system, the virus can become reactivated and begin to produce new viruses, potentially leading to disease.

One well-known example of a virus that exhibits latency is the varicella-zoster virus (VZV), which causes chickenpox in children. After a person recovers from chickenpox, the virus remains dormant in the nervous system for years or even decades. In some cases, the virus can reactivate later in life, causing shingles, a painful rash that typically occurs on one side of the body.

Virus latency is an important concept in virology and infectious disease research, as it has implications for understanding the persistence of viral infections, developing treatments and vaccines, and predicting the risk of disease recurrence.

Virus shedding refers to the release of virus particles by an infected individual, who can then transmit the virus to others through various means such as respiratory droplets, fecal matter, or bodily fluids. This occurs when the virus replicates inside the host's cells and is released into the surrounding environment, where it can infect other individuals. The duration of virus shedding varies depending on the specific virus and the individual's immune response. It's important to note that some individuals may shed viruses even before they show symptoms, making infection control measures such as hand hygiene, mask-wearing, and social distancing crucial in preventing the spread of infectious diseases.

An antigen is any substance that can stimulate an immune response, particularly the production of antibodies. Viral antigens are antigens that are found on or produced by viruses. They can be proteins, glycoproteins, or carbohydrates present on the surface or inside the viral particle.

Viral antigens play a crucial role in the immune system's recognition and response to viral infections. When a virus infects a host cell, it may display its antigens on the surface of the infected cell. This allows the immune system to recognize and target the infected cells for destruction, thereby limiting the spread of the virus.

Viral antigens are also important targets for vaccines. Vaccines typically work by introducing a harmless form of a viral antigen to the body, which then stimulates the production of antibodies and memory T-cells that can recognize and respond quickly and effectively to future infections with the actual virus.

It's worth noting that different types of viruses have different antigens, and these antigens can vary between strains of the same virus. This is why there are often different vaccines available for different viral diseases, and why flu vaccines need to be updated every year to account for changes in the circulating influenza virus strains.

Herpes labialis, also known as cold sores or fever blisters, is a common viral infection caused by the herpes simplex virus type 1 (HSV-1). It typically affects the lips, mouth, and surrounding skin. The infection causes small, painful, fluid-filled blisters that can be accompanied by symptoms such as tingling, burning, or itching in the area before the blisters appear. After the blisters break, they leave behind painful ulcers that eventually crust over and heal within 2-3 weeks.

The virus is highly contagious and can spread through direct contact with infected saliva, skin lesions, or objects contaminated with the virus. Once a person becomes infected with HSV-1, the virus remains dormant in the nervous system and can reactivate periodically due to various triggers like stress, fatigue, illness, or sun exposure, leading to recurrent outbreaks of herpes labialis.

I could not find a specific medical definition for "Vaccines, DNA." However, I can provide you with some information about DNA vaccines.

DNA vaccines are a type of vaccine that uses genetically engineered DNA to stimulate an immune response in the body. They work by introducing a small piece of DNA into the body that contains the genetic code for a specific antigen (a substance that triggers an immune response). The cells of the body then use this DNA to produce the antigen, which prompts the immune system to recognize and attack it.

DNA vaccines have several advantages over traditional vaccines. They are relatively easy to produce, can be stored at room temperature, and can be designed to protect against a wide range of diseases. Additionally, because they use DNA to stimulate an immune response, DNA vaccines do not require the growth and culture of viruses or bacteria, which can make them safer than traditional vaccines.

DNA vaccines are still in the experimental stages, and more research is needed to determine their safety and effectiveness. However, they have shown promise in animal studies and are being investigated as a potential tool for preventing a variety of infectious diseases, including influenza, HIV, and cancer.

Attenuated vaccines consist of live microorganisms that have been weakened (attenuated) through various laboratory processes so they do not cause disease in the majority of recipients but still stimulate an immune response. The purpose of attenuation is to reduce the virulence or replication capacity of the pathogen while keeping it alive, allowing it to retain its antigenic properties and induce a strong and protective immune response.

Examples of attenuated vaccines include:

1. Sabin oral poliovirus vaccine (OPV): This vaccine uses live but weakened polioviruses to protect against all three strains of the disease-causing poliovirus. The weakened viruses replicate in the intestine and induce an immune response, which provides both humoral (antibody) and cell-mediated immunity.
2. Measles, mumps, and rubella (MMR) vaccine: This combination vaccine contains live attenuated measles, mumps, and rubella viruses. It is given to protect against these three diseases and prevent their spread in the population.
3. Varicella (chickenpox) vaccine: This vaccine uses a weakened form of the varicella-zoster virus, which causes chickenpox. By introducing this attenuated virus into the body, it stimulates an immune response that protects against future infection with the wild-type virus.
4. Yellow fever vaccine: This live attenuated vaccine is used to prevent yellow fever, a viral disease transmitted by mosquitoes in tropical and subtropical regions of Africa and South America. The vaccine contains a weakened form of the yellow fever virus that cannot cause the disease but still induces an immune response.
5. Bacillus Calmette-Guérin (BCG) vaccine: This live attenuated vaccine is used to protect against tuberculosis (TB). It contains a weakened strain of Mycobacterium bovis, which does not cause TB in humans but stimulates an immune response that provides some protection against the disease.

Attenuated vaccines are generally effective at inducing long-lasting immunity and can provide robust protection against targeted diseases. However, they may pose a risk for individuals with weakened immune systems, as the attenuated viruses or bacteria could potentially cause illness in these individuals. Therefore, it is essential to consider an individual's health status before administering live attenuated vaccines.

Molecular sequence data refers to the specific arrangement of molecules, most commonly nucleotides in DNA or RNA, or amino acids in proteins, that make up a biological macromolecule. This data is generated through laboratory techniques such as sequencing, and provides information about the exact order of the constituent molecules. This data is crucial in various fields of biology, including genetics, evolution, and molecular biology, allowing for comparisons between different organisms, identification of genetic variations, and studies of gene function and regulation.

Gene expression regulation, viral, refers to the processes that control the production of viral gene products, such as proteins and nucleic acids, during the viral life cycle. This can involve both viral and host cell factors that regulate transcription, RNA processing, translation, and post-translational modifications of viral genes.

Viral gene expression regulation is critical for the virus to replicate and produce progeny virions. Different types of viruses have evolved diverse mechanisms to regulate their gene expression, including the use of promoters, enhancers, transcription factors, RNA silencing, and epigenetic modifications. Understanding these regulatory processes can provide insights into viral pathogenesis and help in the development of antiviral therapies.

Herpes zoster, also known as shingles, is a viral infection that causes a painful rash. It's caused by the varicella-zoster virus, which also causes chickenpox. After you recover from chickenpox, the virus lies dormant in your nerve cells and can reactivate later in life as herpes zoster.

The hallmark symptom of herpes zoster is a unilateral, vesicular rash that occurs in a dermatomal distribution, which means it follows the path of a specific nerve. The rash usually affects one side of the body and can wrap around either the left or right side of your torso.

Before the rash appears, you may experience symptoms such as pain, tingling, or itching in the area where the rash will develop. Other possible symptoms include fever, headache, fatigue, and muscle weakness. The rash typically scabs over and heals within two to four weeks, but some people may continue to experience pain in the affected area for months or even years after the rash has healed. This is known as postherpetic neuralgia (PHN).

Herpes zoster is most common in older adults and people with weakened immune systems, although anyone who has had chickenpox can develop the condition. It's important to seek medical attention if you suspect you have herpes zoster, as early treatment with antiviral medications can help reduce the severity and duration of the rash and lower your risk of developing complications such as PHN.

Ganciclovir is an antiviral medication used to prevent and treat cytomegalovirus (CMV) infections, particularly in individuals who have undergone organ transplants or have weakened immune systems due to conditions like HIV/AIDS. It works by inhibiting the replication of the virus, thereby reducing its ability to cause damage to the body's cells and tissues.

The medical definition of Ganciclovir is:

A synthetic nucleoside analogue with antiviral activity against herpesviruses, including cytomegalovirus (CMV). Ganciclovir is converted intracellularly to its active form, ganciclovir triphosphate, which inhibits viral DNA polymerase and subsequently prevents viral replication. It is primarily used for the prevention and treatment of CMV infections in immunocompromised patients, such as those who have undergone organ transplants or have HIV/AIDS. Ganciclovir is available in various formulations, including oral capsules, intravenous solution, and ocular implants.

Also known as Varicella-zoster virus (VZV), Herpesvirus 3, Human is a species-specific alphaherpesvirus that causes two distinct diseases: chickenpox (varicella) during primary infection and herpes zoster (shingles) upon reactivation of latent infection.

Chickenpox is typically a self-limiting disease characterized by a generalized, pruritic vesicular rash, fever, and malaise. After resolution of the primary infection, VZV remains latent in the sensory ganglia and can reactivate later in life to cause herpes zoster, which is characterized by a unilateral, dermatomal vesicular rash and pain.

Herpesvirus 3, Human is highly contagious and spreads through respiratory droplets or direct contact with the chickenpox rash. Vaccination is available to prevent primary infection and reduce the risk of complications associated with chickenpox and herpes zoster.

Vaccination is a simple, safe, and effective way to protect people against harmful diseases, before they come into contact with them. It uses your body's natural defenses to build protection to specific infections and makes your immune system stronger.

A vaccination usually contains a small, harmless piece of a virus or bacteria (or toxins produced by these germs) that has been made inactive or weakened so it won't cause the disease itself. This piece of the germ is known as an antigen. When the vaccine is introduced into the body, the immune system recognizes the antigen as foreign and produces antibodies to fight it.

If a person then comes into contact with the actual disease-causing germ, their immune system will recognize it and immediately produce antibodies to destroy it. The person is therefore protected against that disease. This is known as active immunity.

Vaccinations are important for both individual and public health. They prevent the spread of contagious diseases and protect vulnerable members of the population, such as young children, the elderly, and people with weakened immune systems who cannot be vaccinated or for whom vaccination is not effective.

Combined vaccines are defined in medical terms as vaccines that contain two or more antigens from different diseases, which are given to provide protection against multiple diseases at the same time. This approach reduces the number of injections required and simplifies the immunization schedule, especially during early childhood. Examples of combined vaccines include:

1. DTaP-Hib-IPV (e.g., Pentacel): A vaccine that combines diphtheria, tetanus, pertussis (whooping cough), Haemophilus influenzae type b (Hib) disease, and poliovirus components in one injection to protect against these five diseases.
2. MMRV (e.g., ProQuad): A vaccine that combines measles, mumps, rubella, and varicella (chickenpox) antigens in a single injection to provide immunity against all four diseases.
3. HepA-HepB (e.g., Twinrix): A vaccine that combines hepatitis A and hepatitis B antigens in one injection, providing protection against both types of hepatitis.
4. MenACWY-TT (e.g., MenQuadfi): A vaccine that combines four serogroups of meningococcal bacteria (A, C, W, Y) with tetanus toxoid as a carrier protein in one injection for the prevention of invasive meningococcal disease caused by these serogroups.
5. PCV13-PPSV23 (e.g., Vaxneuvance): A vaccine that combines 13 pneumococcal serotypes with PPSV23, providing protection against a broader range of pneumococcal diseases in adults aged 18 years and older.

Combined vaccines have been thoroughly tested for safety and efficacy to ensure they provide a strong immune response and an acceptable safety profile. They are essential tools in preventing various infectious diseases and improving overall public health.

A genetic vector is a vehicle, often a plasmid or a virus, that is used to introduce foreign DNA into a host cell as part of genetic engineering or gene therapy techniques. The vector contains the desired gene or genes, along with regulatory elements such as promoters and enhancers, which are needed for the expression of the gene in the target cells.

The choice of vector depends on several factors, including the size of the DNA to be inserted, the type of cell to be targeted, and the efficiency of uptake and expression required. Commonly used vectors include plasmids, adenoviruses, retroviruses, and lentiviruses.

Plasmids are small circular DNA molecules that can replicate independently in bacteria. They are often used as cloning vectors to amplify and manipulate DNA fragments. Adenoviruses are double-stranded DNA viruses that infect a wide range of host cells, including human cells. They are commonly used as gene therapy vectors because they can efficiently transfer genes into both dividing and non-dividing cells.

Retroviruses and lentiviruses are RNA viruses that integrate their genetic material into the host cell's genome. This allows for stable expression of the transgene over time. Lentiviruses, a subclass of retroviruses, have the advantage of being able to infect non-dividing cells, making them useful for gene therapy applications in post-mitotic tissues such as neurons and muscle cells.

Overall, genetic vectors play a crucial role in modern molecular biology and medicine, enabling researchers to study gene function, develop new therapies, and modify organisms for various purposes.

Virus cultivation, also known as virus isolation or viral culture, is a laboratory method used to propagate and detect viruses by introducing them to host cells and allowing them to replicate. This process helps in identifying the specific virus causing an infection and studying its characteristics, such as morphology, growth pattern, and sensitivity to antiviral agents.

The steps involved in virus cultivation typically include:

1. Collection of a clinical sample (e.g., throat swab, blood, sputum) from the patient.
2. Preparation of the sample by centrifugation or filtration to remove cellular debris and other contaminants.
3. Inoculation of the prepared sample into susceptible host cells, which can be primary cell cultures, continuous cell lines, or embryonated eggs, depending on the type of virus.
4. Incubation of the inoculated cells under appropriate conditions to allow viral replication.
5. Observation for cytopathic effects (CPE), which are changes in the host cells caused by viral replication, such as cell rounding, shrinkage, or lysis.
6. Confirmation of viral presence through additional tests, like immunofluorescence assays, polymerase chain reaction (PCR), or electron microscopy.

Virus cultivation is a valuable tool in diagnostic virology, vaccine development, and research on viral pathogenesis and host-virus interactions. However, it requires specialized equipment, trained personnel, and biosafety measures due to the potential infectivity of the viruses being cultured.

A base sequence in the context of molecular biology refers to the specific order of nucleotides in a DNA or RNA molecule. In DNA, these nucleotides are adenine (A), guanine (G), cytosine (C), and thymine (T). In RNA, uracil (U) takes the place of thymine. The base sequence contains genetic information that is transcribed into RNA and ultimately translated into proteins. It is the exact order of these bases that determines the genetic code and thus the function of the DNA or RNA molecule.

An AIDS vaccine is a type of preventive vaccine that aims to stimulate the immune system to produce an effective response against the human immunodeficiency virus (HIV), which causes acquired immunodeficiency syndrome (AIDS). The goal of an AIDS vaccine is to induce the production of immune cells and proteins that can recognize and eliminate HIV-infected cells, thereby preventing the establishment of a persistent infection.

Despite decades of research, there is still no licensed AIDS vaccine available. This is due in part to the unique challenges posed by HIV, which has a high mutation rate and can rapidly evolve to evade the immune system's defenses. However, several promising vaccine candidates are currently being tested in clinical trials around the world, and researchers continue to explore new approaches and strategies for developing an effective AIDS vaccine.

Virus receptors are specific molecules (commonly proteins) on the surface of host cells that viruses bind to in order to enter and infect those cells. This interaction between the virus and its receptor is a critical step in the infection process. Different types of viruses have different receptor requirements, and identifying these receptors can provide important insights into the biology of the virus and potential targets for antiviral therapies.

A virion is the complete, infectious form of a virus outside its host cell. It consists of the viral genome (DNA or RNA) enclosed within a protein coat called the capsid, which is often surrounded by a lipid membrane called the envelope. The envelope may contain viral proteins and glycoproteins that aid in attachment to and entry into host cells during infection. The term "virion" emphasizes the infectious nature of the virus particle, as opposed to non-infectious components like individual capsid proteins or naked viral genome.

Neutralization tests are a type of laboratory assay used in microbiology and immunology to measure the ability of a substance, such as an antibody or antitoxin, to neutralize the activity of a toxin or infectious agent. In these tests, the substance to be tested is mixed with a known quantity of the toxin or infectious agent, and the mixture is then incubated under controlled conditions. After incubation, the mixture is tested for residual toxicity or infectivity using a variety of methods, such as cell culture assays, animal models, or biochemical assays.

The neutralization titer is then calculated based on the highest dilution of the test substance that completely neutralizes the toxin or infectious agent. Neutralization tests are commonly used in the diagnosis and evaluation of immune responses to vaccines, as well as in the detection and quantification of toxins and other harmful substances.

Examples of neutralization tests include the serum neutralization test for measles antibodies, the plaque reduction neutralization test (PRNT) for dengue virus antibodies, and the cytotoxicity neutralization assay for botulinum neurotoxins.

BALB/c is an inbred strain of laboratory mouse that is widely used in biomedical research. The strain was developed at the Institute of Cancer Research in London by Henry Baldwin and his colleagues in the 1920s, and it has since become one of the most commonly used inbred strains in the world.

BALB/c mice are characterized by their black coat color, which is determined by a recessive allele at the tyrosinase locus. They are also known for their docile and friendly temperament, making them easy to handle and work with in the laboratory.

One of the key features of BALB/c mice that makes them useful for research is their susceptibility to certain types of tumors and immune responses. For example, they are highly susceptible to developing mammary tumors, which can be induced by chemical carcinogens or viral infection. They also have a strong Th2-biased immune response, which makes them useful models for studying allergic diseases and asthma.

BALB/c mice are also commonly used in studies of genetics, neuroscience, behavior, and infectious diseases. Because they are an inbred strain, they have a uniform genetic background, which makes it easier to control for genetic factors in experiments. Additionally, because they have been bred in the laboratory for many generations, they are highly standardized and reproducible, making them ideal subjects for scientific research.

Phosphonoacetic acid (PAA) is not a naturally occurring substance, but rather a synthetic compound that is used in medical and scientific research. It is a colorless, crystalline solid that is soluble in water.

In a medical context, PAA is an inhibitor of certain enzymes that are involved in the replication of viruses, including HIV. It works by binding to the active site of these enzymes and preventing them from carrying out their normal functions. As a result, PAA has been studied as a potential antiviral agent, although it is not currently used as a medication.

It's important to note that while PAA has shown promise in laboratory studies, its safety and efficacy have not been established in clinical trials, and it is not approved for use as a drug by regulatory agencies such as the U.S. Food and Drug Administration (FDA).

Vaccinia virus is a large, complex DNA virus that belongs to the Poxviridae family. It is the virus used in the production of the smallpox vaccine. The vaccinia virus is not identical to the variola virus, which causes smallpox, but it is closely related and provides cross-protection against smallpox infection.

The vaccinia virus has a unique replication cycle that occurs entirely in the cytoplasm of infected cells, rather than in the nucleus like many other DNA viruses. This allows the virus to evade host cell defenses and efficiently produce new virions. The virus causes the formation of pocks or lesions on the skin, which contain large numbers of virus particles that can be transmitted to others through close contact.

Vaccinia virus has also been used as a vector for the delivery of genes encoding therapeutic proteins, vaccines against other infectious diseases, and cancer therapies. However, the use of vaccinia virus as a vector is limited by its potential to cause adverse reactions in some individuals, particularly those with weakened immune systems or certain skin conditions.

Viral structural proteins are the protein components that make up the viral particle or capsid, providing structure and stability to the virus. These proteins are encoded by the viral genome and are involved in the assembly of new virus particles during the replication cycle. They can be classified into different types based on their location and function, such as capsid proteins, matrix proteins, and envelope proteins. Capsid proteins form the protein shell that encapsulates the viral genome, while matrix proteins are located between the capsid and the envelope, and envelope proteins are embedded in the lipid bilayer membrane that surrounds some viruses.

Bacterial vaccines are types of vaccines that are created using bacteria or parts of bacteria as the immunogen, which is the substance that triggers an immune response in the body. The purpose of a bacterial vaccine is to stimulate the immune system to develop protection against specific bacterial infections.

There are several types of bacterial vaccines, including:

1. Inactivated or killed whole-cell vaccines: These vaccines contain entire bacteria that have been killed or inactivated through various methods, such as heat or chemicals. The bacteria can no longer cause disease, but they still retain the ability to stimulate an immune response.
2. Subunit, protein, or polysaccharide vaccines: These vaccines use specific components of the bacterium, such as proteins or polysaccharides, that are known to trigger an immune response. By using only these components, the vaccine can avoid using the entire bacterium, which may reduce the risk of adverse reactions.
3. Live attenuated vaccines: These vaccines contain live bacteria that have been weakened or attenuated so that they cannot cause disease but still retain the ability to stimulate an immune response. This type of vaccine can provide long-lasting immunity, but it may not be suitable for people with weakened immune systems.

Bacterial vaccines are essential tools in preventing and controlling bacterial infections, reducing the burden of diseases such as tuberculosis, pneumococcal disease, meningococcal disease, and Haemophilus influenzae type b (Hib) disease. They work by exposing the immune system to a harmless form of the bacteria or its components, which triggers the production of antibodies and memory cells that can recognize and fight off future infections with that same bacterium.

It's important to note that while vaccines are generally safe and effective, they may cause mild side effects such as pain, redness, or swelling at the injection site, fever, or fatigue. Serious side effects are rare but can occur, so it's essential to consult with a healthcare provider before receiving any vaccine.

A capsid is the protein shell that encloses and protects the genetic material of a virus. It is composed of multiple copies of one or more proteins that are arranged in a specific structure, which can vary in shape and symmetry depending on the type of virus. The capsid plays a crucial role in the viral life cycle, including protecting the viral genome from host cell defenses, mediating attachment to and entry into host cells, and assisting with the assembly of new virus particles during replication.

Herpetic stomatitis is a medical condition characterized by inflammation and sores or lesions in the mouth and mucous membranes caused by the herpes simplex virus (HSV). It is typically caused by HSV-1, which is highly contagious and can be spread through direct contact with an infected person, such as through kissing or sharing utensils.

The symptoms of herpetic stomatitis may include small, painful blisters or ulcers in the mouth, gums, tongue, or roof of the mouth; difficulty swallowing; fever; and swollen lymph nodes. The condition can be painful and make it difficult to eat, drink, or talk.

Herpetic stomatitis is usually self-limiting and will resolve on its own within 1-2 weeks. However, antiviral medications may be prescribed to help reduce the severity and duration of symptoms. It's important to practice good oral hygiene during an outbreak to prevent secondary infections.

It's worth noting that herpes simplex virus can also cause cold sores or fever blisters on the lips and around the mouth, which are similar to the lesions seen in herpetic stomatitis but occur outside of the mouth.

Cricetinae is a subfamily of rodents that includes hamsters, gerbils, and relatives. These small mammals are characterized by having short limbs, compact bodies, and cheek pouches for storing food. They are native to various parts of the world, particularly in Europe, Asia, and Africa. Some species are popular pets due to their small size, easy care, and friendly nature. In a medical context, understanding the biology and behavior of Cricetinae species can be important for individuals who keep them as pets or for researchers studying their physiology.

A Cytopathic Effect (CPE) is a visible change in the cell or group of cells due to infection by a pathogen, such as a virus. When the cytopathic effect is caused specifically by a viral infection, it is referred to as a "Viral Cytopathic Effect" (VCPE).

The VCPE can include various changes in the cell's morphology, size, and structure, such as rounding, shrinkage, multinucleation, inclusion bodies, and formation of syncytia (multinucleated giant cells). These changes are often used to identify and characterize viruses in laboratory settings.

The VCPE is typically observed under a microscope after the virus has infected cell cultures, and it can help researchers determine the type of virus, the degree of infection, and the effectiveness of antiviral treatments. The severity and timing of the VCPE can vary depending on the specific virus and the type of cells that are infected.

A subunit vaccine is a type of vaccine that contains a specific piece or component of the microorganism (such as a protein, sugar, or part of the bacterial outer membrane), instead of containing the entire organism. This piece of the microorganism is known as an antigen, and it stimulates an immune response in the body, allowing the development of immunity against the targeted infection without introducing the risk of disease associated with live vaccines.

Subunit vaccines offer several advantages over other types of vaccines. They are generally safer because they do not contain live or weakened microorganisms, making them suitable for individuals with weakened immune systems or specific medical conditions that prevent them from receiving live vaccines. Additionally, subunit vaccines can be designed to focus on the most immunogenic components of a pathogen, potentially leading to stronger and more targeted immune responses.

Examples of subunit vaccines include the Hepatitis B vaccine, which contains a viral protein, and the Haemophilus influenzae type b (Hib) vaccine, which uses pieces of the bacterial polysaccharide capsule. These vaccines have been crucial in preventing serious infectious diseases and reducing associated complications worldwide.

Herpesvirus vaccines are immunizations designed to protect against infections caused by herpesviruses. These viruses include herpes simplex virus type 1 (HSV-1), which primarily causes oral herpes, and herpes simplex virus type 2 (HSV-2), which primarily causes genital herpes. Additionally, other herpesviruses such as varicella-zoster virus (VZV), which causes chickenpox and shingles, and cytomegalovirus (CMV), which can cause serious complications in newborns and immunocompromised individuals, are also targeted by herpesvirus vaccines.

Herpesvirus vaccines work by exposing the immune system to a weakened or inactivated form of the virus, or to specific viral proteins, which triggers an immune response. This response includes the production of antibodies and activation of T-cells that recognize and attack the virus if it enters the body in the future.

Currently, there are vaccines available for HSV-1 and HSV-2, but they are not widely used. The only FDA-approved herpesvirus vaccine is for VZV, which is marketed as Varivax and prevents chickenpox and reduces the risk of shingles. There are also several experimental vaccines in development for other herpesviruses, including HSV-1, HSV-2, and CMV.

Virus assembly, also known as virion assembly, is the final stage in the virus life cycle where individual viral components come together to form a complete viral particle or virion. This process typically involves the self-assembly of viral capsid proteins around the viral genome (DNA or RNA) and, in enveloped viruses, the acquisition of a lipid bilayer membrane containing viral glycoproteins. The specific mechanisms and regulation of virus assembly vary among different viral families, but it is often directed by interactions between viral structural proteins and genomic nucleic acid.

A viral RNA (ribonucleic acid) is the genetic material found in certain types of viruses, as opposed to viruses that contain DNA (deoxyribonucleic acid). These viruses are known as RNA viruses. The RNA can be single-stranded or double-stranded and can exist as several different forms, such as positive-sense, negative-sense, or ambisense RNA. Upon infecting a host cell, the viral RNA uses the host's cellular machinery to translate the genetic information into proteins, leading to the production of new virus particles and the continuation of the viral life cycle. Examples of human diseases caused by RNA viruses include influenza, COVID-19 (SARS-CoV-2), hepatitis C, and polio.

A mutation is a permanent change in the DNA sequence of an organism's genome. Mutations can occur spontaneously or be caused by environmental factors such as exposure to radiation, chemicals, or viruses. They may have various effects on the organism, ranging from benign to harmful, depending on where they occur and whether they alter the function of essential proteins. In some cases, mutations can increase an individual's susceptibility to certain diseases or disorders, while in others, they may confer a survival advantage. Mutations are the driving force behind evolution, as they introduce new genetic variability into populations, which can then be acted upon by natural selection.

Defective viruses are viruses that have lost the ability to complete a full replication cycle and produce progeny virions independently. These viruses require the assistance of a helper virus, which provides the necessary functions for replication. Defective viruses can arise due to mutations, deletions, or other genetic changes that result in the loss of essential genes. They are often non-infectious and cannot cause disease on their own, but they may interfere with the replication of the helper virus and modulate the course of infection. Defective viruses can be found in various types of viruses, including retroviruses, bacteriophages, and DNA viruses.

Herpesviridae is a family of large, double-stranded DNA viruses that includes several important pathogens affecting humans and animals. The herpesviruses are characterized by their ability to establish latency in infected host cells, allowing them to persist for the lifetime of the host and leading to recurrent episodes of disease.

The family Herpesviridae is divided into three subfamilies: Alphaherpesvirinae, Betaherpesvirinae, and Gammaherpesvirinae. Each subfamily includes several genera and species that infect various hosts, including humans, primates, rodents, birds, and reptiles.

Human herpesviruses include:

* Alphaherpesvirinae: Herpes simplex virus type 1 (HSV-1), Herpes simplex virus type 2 (HSV-2), and Varicella-zoster virus (VZV)
* Betaherpesvirinae: Human cytomegalovirus (HCMV), Human herpesvirus 6A (HHV-6A), Human herpesvirus 6B (HHV-6B), and Human herpesvirus 7 (HHV-7)
* Gammaherpesvirinae: Epstein-Barr virus (EBV) and Kaposi's sarcoma-associated herpesvirus (KSHV, also known as HHV-8)

These viruses are responsible for a wide range of clinical manifestations, from mild skin lesions to life-threatening diseases. Primary infections usually occur during childhood or adolescence and can be followed by recurrent episodes due to virus reactivation from latency.

Influenza vaccines, also known as flu shots, are vaccines that protect against the influenza virus. Influenza is a highly contagious respiratory illness that can cause severe symptoms and complications, particularly in young children, older adults, pregnant women, and people with certain underlying health conditions.

Influenza vaccines contain inactivated or weakened viruses or pieces of the virus, which stimulate the immune system to produce antibodies that recognize and fight off the virus. The vaccine is typically given as an injection into the muscle, usually in the upper arm.

There are several different types of influenza vaccines available, including:

* Trivalent vaccines, which protect against three strains of the virus (two A strains and one B strain)
* Quadrivalent vaccines, which protect against four strains of the virus (two A strains and two B strains)
* High-dose vaccines, which contain a higher amount of antigen and are recommended for people aged 65 and older
* Adjuvanted vaccines, which contain an additional ingredient to boost the immune response and are also recommended for people aged 65 and older
* Cell-based vaccines, which are produced using cultured cells rather than eggs and may be recommended for people with egg allergies

It's important to note that influenza viruses are constantly changing, so the vaccine is updated each year to match the circulating strains. It's recommended that most people get vaccinated against influenza every year to stay protected.

An amino acid sequence is the specific order of amino acids in a protein or peptide molecule, formed by the linking of the amino group (-NH2) of one amino acid to the carboxyl group (-COOH) of another amino acid through a peptide bond. The sequence is determined by the genetic code and is unique to each type of protein or peptide. It plays a crucial role in determining the three-dimensional structure and function of proteins.

A plasmid is a small, circular, double-stranded DNA molecule that is separate from the chromosomal DNA of a bacterium or other organism. Plasmids are typically not essential for the survival of the organism, but they can confer beneficial traits such as antibiotic resistance or the ability to degrade certain types of pollutants.

Plasmids are capable of replicating independently of the chromosomal DNA and can be transferred between bacteria through a process called conjugation. They often contain genes that provide resistance to antibiotics, heavy metals, and other environmental stressors. Plasmids have also been engineered for use in molecular biology as cloning vectors, allowing scientists to replicate and manipulate specific DNA sequences.

Plasmids are important tools in genetic engineering and biotechnology because they can be easily manipulated and transferred between organisms. They have been used to produce vaccines, diagnostic tests, and genetically modified organisms (GMOs) for various applications, including agriculture, medicine, and industry.

Viral eye infections are caused by viruses that invade different parts of the eye, leading to inflammation and irritation. Some common types of viral eye infections include conjunctivitis (pink eye), keratitis, and dendritic ulcers. These infections can cause symptoms such as redness, watering, soreness, sensitivity to light, and discharge. In some cases, viral eye infections can also lead to complications like corneal scarring and vision loss if left untreated. They are often highly contagious and can spread through contact with contaminated surfaces or respiratory droplets. Antiviral medications may be used to treat certain types of viral eye infections, but in many cases, the infection will resolve on its own over time. Preventive measures such as good hygiene and avoiding touching the eyes can help reduce the risk of viral eye infections.

RNA viruses are a type of virus that contain ribonucleic acid (RNA) as their genetic material, as opposed to deoxyribonucleic acid (DNA). RNA viruses replicate by using an enzyme called RNA-dependent RNA polymerase to transcribe and replicate their RNA genome.

There are several different groups of RNA viruses, including:

1. Negative-sense single-stranded RNA viruses: These viruses have a genome that is complementary to the mRNA and must undergo transcription to produce mRNA before translation can occur. Examples include influenza virus, measles virus, and rabies virus.
2. Positive-sense single-stranded RNA viruses: These viruses have a genome that can serve as mRNA and can be directly translated into protein after entry into the host cell. Examples include poliovirus, rhinoviruses, and coronaviruses.
3. Double-stranded RNA viruses: These viruses have a genome consisting of double-stranded RNA and use a complex replication strategy involving both transcription and reverse transcription. Examples include rotaviruses and reoviruses.

RNA viruses are known to cause a wide range of human diseases, ranging from the common cold to more severe illnesses such as hepatitis C, polio, and COVID-19. Due to their high mutation rates and ability to adapt quickly to new environments, RNA viruses can be difficult to control and treat with antiviral drugs or vaccines.

West Nile Virus (WNV) vaccines are immunizations that are designed to protect against the West Nile virus, which is a single-stranded RNA virus that belongs to the family Flaviviridae. The virus is primarily transmitted to humans through the bite of infected mosquitoes, particularly those of the Culex species.

There are currently no licensed WNV vaccines available for human use in the United States or Europe. However, there are several veterinary vaccines that have been developed and approved for use in horses and other animals, such as birds and geese. These vaccines work by stimulating the immune system to produce antibodies against the virus, which can help prevent infection and reduce the severity of symptoms in animals that do become infected.

Human WNV vaccine candidates are in various stages of development and testing. Some of these vaccines use inactivated or weakened forms of the virus, while others use only a portion of the viral protein to stimulate an immune response. While these vaccines have shown promise in clinical trials, further research is needed to determine their safety and effectiveness in larger populations before they can be approved for widespread use.

Herpesvirus 1, Suid (Suid Herpesvirus 1 or SHV-1), also known as Pseudorabies Virus (PrV), is a species of the genus Varicellovirus in the subfamily Alphaherpesvirinae of the family Herpesviridae. It is a double-stranded DNA virus that primarily infects members of the Suidae family, including domestic pigs and wild boars. The virus can cause a range of symptoms known as Aujeszky's disease in these animals, which may include respiratory distress, neurological issues, and reproductive failures.

SHV-1 is highly contagious and can be transmitted through direct contact with infected animals or their secretions, as well as through aerosol transmission. Although it does not typically infect humans, there have been rare cases of human infection, usually resulting from exposure to infected pigs or their tissues. In these instances, the virus may cause mild flu-like symptoms or more severe neurological issues.

SHV-1 is an important pathogen in the swine industry and has significant economic implications due to its impact on animal health and production. Vaccination programs are widely used to control the spread of the virus and protect susceptible pig populations.

Ubiquitin-protein ligases, also known as E3 ubiquitin ligases, are a group of enzymes that play a crucial role in the ubiquitination process. Ubiquitination is a post-translational modification where ubiquitin molecules are attached to specific target proteins, marking them for degradation by the proteasome or for other regulatory functions.

Ubiquitin-protein ligases catalyze the final step in this process by binding to both the ubiquitin protein and the target protein, facilitating the transfer of ubiquitin from an E2 ubiquitin-conjugating enzyme to the target protein. There are several different types of ubiquitin-protein ligases, each with their own specificity for particular target proteins and regulatory functions.

Ubiquitin-protein ligases have been implicated in various cellular processes such as protein degradation, DNA repair, signal transduction, and regulation of the cell cycle. Dysregulation of ubiquitination has been associated with several diseases, including cancer, neurodegenerative disorders, and inflammatory responses. Therefore, understanding the function and regulation of ubiquitin-protein ligases is an important area of research in biology and medicine.

"Cells, cultured" is a medical term that refers to cells that have been removed from an organism and grown in controlled laboratory conditions outside of the body. This process is called cell culture and it allows scientists to study cells in a more controlled and accessible environment than they would have inside the body. Cultured cells can be derived from a variety of sources, including tissues, organs, or fluids from humans, animals, or cell lines that have been previously established in the laboratory.

Cell culture involves several steps, including isolation of the cells from the tissue, purification and characterization of the cells, and maintenance of the cells in appropriate growth conditions. The cells are typically grown in specialized media that contain nutrients, growth factors, and other components necessary for their survival and proliferation. Cultured cells can be used for a variety of purposes, including basic research, drug development and testing, and production of biological products such as vaccines and gene therapies.

It is important to note that cultured cells may behave differently than they do in the body, and results obtained from cell culture studies may not always translate directly to human physiology or disease. Therefore, it is essential to validate findings from cell culture experiments using additional models and ultimately in clinical trials involving human subjects.

Immunization is defined medically as the process where an individual is made immune or resistant to an infectious disease, typically through the administration of a vaccine. The vaccine stimulates the body's own immune system to recognize and fight off the specific disease-causing organism, thereby preventing or reducing the severity of future infections with that organism.

Immunization can be achieved actively, where the person is given a vaccine to trigger an immune response, or passively, where antibodies are transferred to the person through immunoglobulin therapy. Immunizations are an important part of preventive healthcare and have been successful in controlling and eliminating many infectious diseases worldwide.

I believe there may be some confusion in your question. "Rabbits" is a common name used to refer to the Lagomorpha species, particularly members of the family Leporidae. They are small mammals known for their long ears, strong legs, and quick reproduction.

However, if you're referring to "rabbits" in a medical context, there is a term called "rabbit syndrome," which is a rare movement disorder characterized by repetitive, involuntary movements of the fingers, resembling those of a rabbit chewing. It is also known as "finger-chewing chorea." This condition is usually associated with certain medications, particularly antipsychotics, and typically resolves when the medication is stopped or adjusted.

Hemagglutination inhibition (HI) tests are a type of serological assay used in medical laboratories to detect and measure the amount of antibodies present in a patient's serum. These tests are commonly used to diagnose viral infections, such as influenza or HIV, by identifying the presence of antibodies that bind to specific viral antigens and prevent hemagglutination (the agglutination or clumping together of red blood cells).

In an HI test, a small amount of the patient's serum is mixed with a known quantity of the viral antigen, which has been treated to attach to red blood cells. If the patient's serum contains antibodies that bind to the viral antigen, they will prevent the antigen from attaching to the red blood cells and inhibit hemagglutination. The degree of hemagglutination inhibition can be measured and used to estimate the amount of antibody present in the patient's serum.

HI tests are relatively simple and inexpensive to perform, but they have some limitations. For example, they may not detect early-stage infections before the body has had a chance to produce antibodies, and they may not be able to distinguish between different strains of the same virus. Nonetheless, HI tests remain an important tool for diagnosing viral infections and monitoring immune responses to vaccination or infection.

Respiratory Syncytial Virus (RSV) vaccines are immunizations designed to protect against the RSV infection, which is a major cause of respiratory tract illnesses in infants and young children worldwide. The virus can also cause serious illness in older adults and people with weakened immune systems.

There are currently no approved RSV vaccines available on the market, although several candidates are in various stages of development and clinical trials. Most of the vaccine candidates are aimed at preventing severe lower respiratory tract disease caused by RSV infection in infants and young children.

RSV vaccines typically work by stimulating the immune system to produce antibodies against the virus, which can help prevent infection or reduce the severity of symptoms if infection occurs. Some vaccine candidates use live-attenuated viruses, while others use inactivated viruses or viral proteins to induce an immune response.

While RSV vaccines have shown promise in clinical trials, developing a safe and effective vaccine has proven challenging due to the risk of vaccine-associated enhanced respiratory disease (VAERD), a rare but serious complication that can occur when certain types of RSV vaccines are given to people who have previously been infected with the virus. Therefore, ongoing research is focused on developing vaccines that can safely and effectively protect against RSV infection while minimizing the risk of VAERD.

Viral diseases are illnesses caused by the infection and replication of viruses in host organisms. These infectious agents are obligate parasites, meaning they rely on the cells of other living organisms to survive and reproduce. Viruses can infect various types of hosts, including animals, plants, and microorganisms, causing a wide range of diseases with varying symptoms and severity.

Once a virus enters a host cell, it takes over the cell's machinery to produce new viral particles, often leading to cell damage or death. The immune system recognizes the viral components as foreign and mounts an immune response to eliminate the infection. This response can result in inflammation, fever, and other symptoms associated with viral diseases.

Examples of well-known viral diseases include:

1. Influenza (flu) - caused by influenza A, B, or C viruses
2. Common cold - usually caused by rhinoviruses or coronaviruses
3. HIV/AIDS - caused by human immunodeficiency virus (HIV)
4. Measles - caused by measles morbillivirus
5. Hepatitis B and C - caused by hepatitis B virus (HBV) and hepatitis C virus (HCV), respectively
6. Herpes simplex - caused by herpes simplex virus type 1 (HSV-1) or type 2 (HSV-2)
7. Chickenpox and shingles - both caused by varicella-zoster virus (VZV)
8. Rabies - caused by rabies lyssavirus
9. Ebola - caused by ebolaviruses
10. COVID-19 - caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)

Prevention and treatment strategies for viral diseases may include vaccination, antiviral medications, and supportive care to manage symptoms while the immune system fights off the infection.

Tumor necrosis factor receptor superfamily member 14 (TNFRSF14), also known as HVEM (herpesvirus entry mediator), is a type of cell surface receptor that belongs to the tumor necrosis factor receptor superfamily. It is involved in various immune responses and can be found on the surface of different types of cells, including T cells, B cells, and myeloid cells.

TNFRSF14 has been shown to interact with several ligands, including LIGHT (TNFSF14) and BTLA (B- and T-lymphocyte attenuator), which can either activate or inhibit immune responses. The interaction between TNFRSF14 and its ligands plays a crucial role in regulating the activation, proliferation, and effector functions of immune cells.

In the context of tumors, TNFRSF14 has been found to be expressed on some tumor cells, where it can contribute to tumor growth and progression by promoting immune evasion and resistance to therapies. Additionally, genetic variations in TNFRSF14 have been associated with susceptibility to certain autoimmune diseases, such as rheumatoid arthritis and systemic lupus erythematosus.

Overall, TNFRSF14 is a critical regulator of immune responses and has important implications for the development of cancer and autoimmune diseases.

DNA-directed DNA polymerase is a type of enzyme that synthesizes new strands of DNA by adding nucleotides to an existing DNA template in a 5' to 3' direction. These enzymes are essential for DNA replication, repair, and recombination. They require a single-stranded DNA template, a primer with a free 3' hydroxyl group, and the four deoxyribonucleoside triphosphates (dNTPs) as substrates to carry out the polymerization reaction.

DNA polymerases also have proofreading activity, which allows them to correct errors that occur during DNA replication by removing mismatched nucleotides and replacing them with the correct ones. This helps ensure the fidelity of the genetic information passed from one generation to the next.

There are several different types of DNA polymerases, each with specific functions and characteristics. For example, DNA polymerase I is involved in both DNA replication and repair, while DNA polymerase III is the primary enzyme responsible for DNA replication in bacteria. In eukaryotic cells, DNA polymerase alpha, beta, gamma, delta, and epsilon have distinct roles in DNA replication, repair, and maintenance.

Transfection is a term used in molecular biology that refers to the process of deliberately introducing foreign genetic material (DNA, RNA or artificial gene constructs) into cells. This is typically done using chemical or physical methods, such as lipofection or electroporation. Transfection is widely used in research and medical settings for various purposes, including studying gene function, producing proteins, developing gene therapies, and creating genetically modified organisms. It's important to note that transfection is different from transduction, which is the process of introducing genetic material into cells using viruses as vectors.

Conjugate vaccines are a type of vaccine that combines a part of a bacterium with a protein or other substance to boost the body's immune response to the bacteria. The bacterial component is usually a polysaccharide, which is a long chain of sugars that makes up part of the bacterial cell wall.

By itself, a polysaccharide is not very immunogenic, meaning it does not stimulate a strong immune response. However, when it is conjugated or linked to a protein or other carrier molecule, it becomes much more immunogenic and can elicit a stronger and longer-lasting immune response.

Conjugate vaccines are particularly effective in protecting against bacterial infections that affect young children, such as Haemophilus influenzae type b (Hib) and pneumococcal disease. These vaccines have been instrumental in reducing the incidence of these diseases and their associated complications, such as meningitis and pneumonia.

Overall, conjugate vaccines work by mimicking a natural infection and stimulating the immune system to produce antibodies that can protect against future infections with the same bacterium. By combining a weakly immunogenic polysaccharide with a protein carrier, these vaccines can elicit a stronger and more effective immune response, providing long-lasting protection against bacterial infections.

HeLa cells are a type of immortalized cell line used in scientific research. They are derived from a cancer that developed in the cervical tissue of Henrietta Lacks, an African-American woman, in 1951. After her death, cells taken from her tumor were found to be capable of continuous division and growth in a laboratory setting, making them an invaluable resource for medical research.

HeLa cells have been used in a wide range of scientific studies, including research on cancer, viruses, genetics, and drug development. They were the first human cell line to be successfully cloned and are able to grow rapidly in culture, doubling their population every 20-24 hours. This has made them an essential tool for many areas of biomedical research.

It is important to note that while HeLa cells have been instrumental in numerous scientific breakthroughs, the story of their origin raises ethical questions about informed consent and the use of human tissue in research.

Genetic transcription is the process by which the information in a strand of DNA is used to create a complementary RNA molecule. This process is the first step in gene expression, where the genetic code in DNA is converted into a form that can be used to produce proteins or functional RNAs.

During transcription, an enzyme called RNA polymerase binds to the DNA template strand and reads the sequence of nucleotide bases. As it moves along the template, it adds complementary RNA nucleotides to the growing RNA chain, creating a single-stranded RNA molecule that is complementary to the DNA template strand. Once transcription is complete, the RNA molecule may undergo further processing before it can be translated into protein or perform its functional role in the cell.

Transcription can be either "constitutive" or "regulated." Constitutive transcription occurs at a relatively constant rate and produces essential proteins that are required for basic cellular functions. Regulated transcription, on the other hand, is subject to control by various intracellular and extracellular signals, allowing cells to respond to changing environmental conditions or developmental cues.

Genetic recombination is the process by which genetic material is exchanged between two similar or identical molecules of DNA during meiosis, resulting in new combinations of genes on each chromosome. This exchange occurs during crossover, where segments of DNA are swapped between non-sister homologous chromatids, creating genetic diversity among the offspring. It is a crucial mechanism for generating genetic variability and facilitating evolutionary change within populations. Additionally, recombination also plays an essential role in DNA repair processes through mechanisms such as homologous recombinational repair (HRR) and non-homologous end joining (NHEJ).

The trigeminal nerve, also known as the fifth cranial nerve or CNV, is a paired nerve that carries both sensory and motor information. It has three major branches: ophthalmic (V1), maxillary (V2), and mandibular (V3). The ophthalmic branch provides sensation to the forehead, eyes, and upper portion of the nose; the maxillary branch supplies sensation to the lower eyelid, cheek, nasal cavity, and upper lip; and the mandibular branch is responsible for sensation in the lower lip, chin, and parts of the oral cavity, as well as motor function to the muscles involved in chewing. The trigeminal nerve plays a crucial role in sensations of touch, pain, temperature, and pressure in the face and mouth, and it also contributes to biting, chewing, and swallowing functions.

Genetic therapy, also known as gene therapy, is a medical intervention that involves the use of genetic material, such as DNA or RNA, to treat or prevent diseases. It works by introducing functional genes into cells to replace missing or faulty ones caused by genetic disorders or mutations. The introduced gene is incorporated into the recipient's genome, allowing for the production of a therapeutic protein that can help manage the disease symptoms or even cure the condition.

There are several approaches to genetic therapy, including:

1. Replacing a faulty gene with a healthy one
2. Inactivating or "silencing" a dysfunctional gene causing a disease
3. Introducing a new gene into the body to help fight off a disease, such as cancer

Genetic therapy holds great promise for treating various genetic disorders, including cystic fibrosis, muscular dystrophy, hemophilia, and certain types of cancer. However, it is still an evolving field with many challenges, such as efficient gene delivery, potential immune responses, and ensuring the safety and long-term effectiveness of the therapy.

DNA replication is the biological process by which DNA makes an identical copy of itself during cell division. It is a fundamental mechanism that allows genetic information to be passed down from one generation of cells to the next. During DNA replication, each strand of the double helix serves as a template for the synthesis of a new complementary strand. This results in the creation of two identical DNA molecules. The enzymes responsible for DNA replication include helicase, which unwinds the double helix, and polymerase, which adds nucleotides to the growing strands.

'Influenza A Virus, H1N1 Subtype' is a specific subtype of the influenza A virus that causes flu in humans and animals. It contains certain proteins called hemagglutinin (H) and neuraminidase (N) on its surface, with this subtype specifically having H1 and N1 antigens. The H1N1 strain is well-known for causing the 2009 swine flu pandemic, which was a global outbreak of flu that resulted in significant morbidity and mortality. This subtype can also cause seasonal flu, although the severity and symptoms may vary. It is important to note that influenza viruses are constantly changing, and new strains or subtypes can emerge over time, requiring regular updates to vaccines to protect against them.

Rabies vaccines are medical products that contain antigens of the rabies virus, which stimulate an immune response in individuals who receive them. The purpose of rabies vaccines is to prevent the development of rabies, a viral disease that is almost always fatal once symptoms appear.

There are two primary types of rabies vaccines available:

1. Pre-exposure prophylaxis (PrEP) vaccines: These vaccines are given to individuals who are at high risk of coming into contact with the rabies virus, such as veterinarians, animal handlers, and travelers visiting areas where rabies is common. The vaccine series typically consists of three doses given over a period of 28 days.
2. Post-exposure prophylaxis (PEP) vaccines: These vaccines are administered to individuals who have already been exposed to the rabies virus, usually through a bite or scratch from an infected animal. The vaccine series typically consists of four doses given over a period of 14 days, along with a dose of rabies immune globulin (RIG) to provide immediate protection while the immune system responds to the vaccine.

Both types of rabies vaccines are highly effective at preventing the disease, but it is essential to receive them as soon as possible after exposure or before potential exposure, as the virus can be fatal if left untreated.

Capsid proteins are the structural proteins that make up the capsid, which is the protective shell of a virus. The capsid encloses the viral genome and helps to protect it from degradation and detection by the host's immune system. Capsid proteins are typically arranged in a symmetrical pattern and can self-assemble into the capsid structure when exposed to the viral genome.

The specific arrangement and composition of capsid proteins vary between different types of viruses, and they play important roles in the virus's life cycle, including recognition and binding to host cells, entry into the cell, and release of the viral genome into the host cytoplasm. Capsid proteins can also serve as targets for antiviral therapies and vaccines.

Cytomegalovirus (CMV) is a type of herpesvirus that can cause infection in humans. It is characterized by the enlargement of infected cells (cytomegaly) and is typically transmitted through close contact with an infected person, such as through saliva, urine, breast milk, or sexual contact.

CMV infection can also be acquired through organ transplantation, blood transfusions, or during pregnancy from mother to fetus. While many people infected with CMV experience no symptoms, it can cause serious complications in individuals with weakened immune systems, such as those undergoing cancer treatment or those who have HIV/AIDS.

In newborns, congenital CMV infection can lead to hearing loss, vision problems, and developmental delays. Pregnant women who become infected with CMV for the first time during pregnancy are at higher risk of transmitting the virus to their unborn child. There is no cure for CMV, but antiviral medications can help manage symptoms and reduce the risk of complications in severe cases.

'Alphaherpesvirinae' is a subfamily of viruses within the family Herpesviridae. These viruses are characterized by their ability to establish latency in neurons and undergo rapid replication. The subfamily includes several human pathogens, such as:

1. Human herpesvirus 1 (HHV-1, or HSV-1): also known as herpes simplex virus type 1, it primarily causes oral herpes (cold sores) but can also cause genital herpes.
2. Human herpesvirus 2 (HHV-2, or HSV-2): also known as herpes simplex virus type 2, it mainly causes genital herpes, although it can also cause oral herpes.
3. Varicella-zoster virus (VZV, or HHV-3): responsible for causing both chickenpox (varicella) and shingles (zoster) infections.

After the initial infection, these viruses can remain dormant in the nervous system and reactivate later, leading to recurrent symptoms.

An Enzyme-Linked Immunosorbent Assay (ELISA) is a type of analytical biochemistry assay used to detect and quantify the presence of a substance, typically a protein or peptide, in a liquid sample. It takes its name from the enzyme-linked antibodies used in the assay.

In an ELISA, the sample is added to a well containing a surface that has been treated to capture the target substance. If the target substance is present in the sample, it will bind to the surface. Next, an enzyme-linked antibody specific to the target substance is added. This antibody will bind to the captured target substance if it is present. After washing away any unbound material, a substrate for the enzyme is added. If the enzyme is present due to its linkage to the antibody, it will catalyze a reaction that produces a detectable signal, such as a color change or fluorescence. The intensity of this signal is proportional to the amount of target substance present in the sample, allowing for quantification.

ELISAs are widely used in research and clinical settings to detect and measure various substances, including hormones, viruses, and bacteria. They offer high sensitivity, specificity, and reproducibility, making them a reliable choice for many applications.

Encephalitis is defined as inflammation of the brain parenchyma, which is often caused by viral infections but can also be due to bacterial, fungal, or parasitic infections, autoimmune disorders, or exposure to toxins. The infection or inflammation can cause various symptoms such as headache, fever, confusion, seizures, and altered consciousness, ranging from mild symptoms to severe cases that can lead to brain damage, long-term disabilities, or even death.

The diagnosis of encephalitis typically involves a combination of clinical evaluation, imaging studies (such as MRI or CT scans), and laboratory tests (such as cerebrospinal fluid analysis). Treatment may include antiviral medications, corticosteroids, immunoglobulins, and supportive care to manage symptoms and prevent complications.

Ribonucleotide Reductases (RNRs) are enzymes that play a crucial role in DNA synthesis and repair. They catalyze the conversion of ribonucleotides to deoxyribonucleotides, which are the building blocks of DNA. This process involves the reduction of the 2'-hydroxyl group of the ribose sugar to a hydrogen, resulting in the formation of deoxyribose.

RNRs are highly regulated and exist in various forms across different species. They are divided into three classes (I, II, and III) based on their structure, mechanism, and cofactor requirements. Class I RNRs are further divided into two subclasses (Ia and Ib), which differ in their active site architecture and regulation.

Class Ia RNRs, found in eukaryotes and some bacteria, contain a stable tyrosyl radical that acts as the catalytic center for hydrogen abstraction. Class Ib RNRs, found in many bacteria, use a pair of iron centers to perform the same function. Class II RNRs are present in some bacteria and archaea and utilize adenosine triphosphate (ATP) as a cofactor for reduction. Class III RNRs, found in anaerobic bacteria and archaea, use a unique mechanism involving a radical S-adenosylmethionine (SAM) cofactor to facilitate the reduction reaction.

RNRs are essential for DNA replication and repair, and their dysregulation has been linked to various diseases, including cancer and neurodegenerative disorders. Therefore, understanding the structure, function, and regulation of RNRs is of great interest in biochemistry, molecular biology, and medicine.

Immunologic adjuvants are substances that are added to a vaccine to enhance the body's immune response to the antigens contained in the vaccine. They work by stimulating the immune system and promoting the production of antibodies and activating immune cells, such as T-cells and macrophages, which help to provide a stronger and more sustained immune response to the vaccine.

Immunologic adjuvants can be derived from various sources, including bacteria, viruses, and chemicals. Some common examples include aluminum salts (alum), oil-in-water emulsions (such as MF59), and bacterial components (such as lipopolysaccharide or LPS).

The use of immunologic adjuvants in vaccines can help to improve the efficacy of the vaccine, particularly for vaccines that contain weak or poorly immunogenic antigens. They can also help to reduce the amount of antigen needed in a vaccine, which can be beneficial for vaccines that are difficult or expensive to produce.

It's important to note that while adjuvants can enhance the immune response to a vaccine, they can also increase the risk of adverse reactions, such as inflammation and pain at the injection site. Therefore, the use of immunologic adjuvants must be carefully balanced against their potential benefits and risks.

A measles vaccine is a biological preparation that induces immunity against the measles virus. It contains an attenuated (weakened) strain of the measles virus, which stimulates the immune system to produce antibodies that protect against future infection with the wild-type (disease-causing) virus. Measles vaccines are typically administered in combination with vaccines against mumps and rubella (German measles), forming the MMR vaccine.

The measles vaccine is highly effective, with one or two doses providing immunity in over 95% of people who receive it. It is usually given to children as part of routine childhood immunization programs, with the first dose administered at 12-15 months of age and the second dose at 4-6 years of age.

Measles vaccination has led to a dramatic reduction in the incidence of measles worldwide and is considered one of the greatest public health achievements of the past century. However, despite widespread availability of the vaccine, measles remains a significant cause of morbidity and mortality in some parts of the world, particularly in areas with low vaccination coverage or where access to healthcare is limited.

The Fluorescent Antibody Technique (FAT) is a type of immunofluorescence assay used in laboratory medicine and pathology for the detection and localization of specific antigens or antibodies in tissues, cells, or microorganisms. In this technique, a fluorescein-labeled antibody is used to selectively bind to the target antigen or antibody, forming an immune complex. When excited by light of a specific wavelength, the fluorescein label emits light at a longer wavelength, typically visualized as green fluorescence under a fluorescence microscope.

The FAT is widely used in diagnostic microbiology for the identification and characterization of various bacteria, viruses, fungi, and parasites. It has also been applied in the diagnosis of autoimmune diseases and certain cancers by detecting specific antibodies or antigens in patient samples. The main advantage of FAT is its high sensitivity and specificity, allowing for accurate detection and differentiation of various pathogens and disease markers. However, it requires specialized equipment and trained personnel to perform and interpret the results.

A viral genome is the genetic material (DNA or RNA) that is present in a virus. It contains all the genetic information that a virus needs to replicate itself and infect its host. The size and complexity of viral genomes can vary greatly, ranging from a few thousand bases to hundreds of thousands of bases. Some viruses have linear genomes, while others have circular genomes. The genome of a virus also contains the information necessary for the virus to hijack the host cell's machinery and use it to produce new copies of the virus. Understanding the genetic makeup of viruses is important for developing vaccines and antiviral treatments.

Polymerase Chain Reaction (PCR) is a laboratory technique used to amplify specific regions of DNA. It enables the production of thousands to millions of copies of a particular DNA sequence in a rapid and efficient manner, making it an essential tool in various fields such as molecular biology, medical diagnostics, forensic science, and research.

The PCR process involves repeated cycles of heating and cooling to separate the DNA strands, allow primers (short sequences of single-stranded DNA) to attach to the target regions, and extend these primers using an enzyme called Taq polymerase, resulting in the exponential amplification of the desired DNA segment.

In a medical context, PCR is often used for detecting and quantifying specific pathogens (viruses, bacteria, fungi, or parasites) in clinical samples, identifying genetic mutations or polymorphisms associated with diseases, monitoring disease progression, and evaluating treatment effectiveness.

Virulence, in the context of medicine and microbiology, refers to the degree or severity of damage or harm that a pathogen (like a bacterium, virus, fungus, or parasite) can cause to its host. It is often associated with the ability of the pathogen to invade and damage host tissues, evade or suppress the host's immune response, replicate within the host, and spread between hosts.

Virulence factors are the specific components or mechanisms that contribute to a pathogen's virulence, such as toxins, enzymes, adhesins, and capsules. These factors enable the pathogen to establish an infection, cause tissue damage, and facilitate its transmission between hosts. The overall virulence of a pathogen can be influenced by various factors, including host susceptibility, environmental conditions, and the specific strain or species of the pathogen.

Immunoglobulin G (IgG) is a type of antibody, which is a protective protein produced by the immune system in response to foreign substances like bacteria or viruses. IgG is the most abundant type of antibody in human blood, making up about 75-80% of all antibodies. It is found in all body fluids and plays a crucial role in fighting infections caused by bacteria, viruses, and toxins.

IgG has several important functions:

1. Neutralization: IgG can bind to the surface of bacteria or viruses, preventing them from attaching to and infecting human cells.
2. Opsonization: IgG coats the surface of pathogens, making them more recognizable and easier for immune cells like neutrophils and macrophages to phagocytose (engulf and destroy) them.
3. Complement activation: IgG can activate the complement system, a group of proteins that work together to help eliminate pathogens from the body. Activation of the complement system leads to the formation of the membrane attack complex, which creates holes in the cell membranes of bacteria, leading to their lysis (destruction).
4. Antibody-dependent cellular cytotoxicity (ADCC): IgG can bind to immune cells like natural killer (NK) cells and trigger them to release substances that cause target cells (such as virus-infected or cancerous cells) to undergo apoptosis (programmed cell death).
5. Immune complex formation: IgG can form immune complexes with antigens, which can then be removed from the body through various mechanisms, such as phagocytosis by immune cells or excretion in urine.

IgG is a critical component of adaptive immunity and provides long-lasting protection against reinfection with many pathogens. It has four subclasses (IgG1, IgG2, IgG3, and IgG4) that differ in their structure, function, and distribution in the body.

In the field of medicine, "time factors" refer to the duration of symptoms or time elapsed since the onset of a medical condition, which can have significant implications for diagnosis and treatment. Understanding time factors is crucial in determining the progression of a disease, evaluating the effectiveness of treatments, and making critical decisions regarding patient care.

For example, in stroke management, "time is brain," meaning that rapid intervention within a specific time frame (usually within 4.5 hours) is essential to administering tissue plasminogen activator (tPA), a clot-busting drug that can minimize brain damage and improve patient outcomes. Similarly, in trauma care, the "golden hour" concept emphasizes the importance of providing definitive care within the first 60 minutes after injury to increase survival rates and reduce morbidity.

Time factors also play a role in monitoring the progression of chronic conditions like diabetes or heart disease, where regular follow-ups and assessments help determine appropriate treatment adjustments and prevent complications. In infectious diseases, time factors are crucial for initiating antibiotic therapy and identifying potential outbreaks to control their spread.

Overall, "time factors" encompass the significance of recognizing and acting promptly in various medical scenarios to optimize patient outcomes and provide effective care.

Cell transformation, viral refers to the process by which a virus causes normal cells to become cancerous or tumorigenic. This occurs when the genetic material of the virus integrates into the DNA of the host cell and alters its regulation, leading to uncontrolled cell growth and division. Some viruses known to cause cell transformation include human papillomavirus (HPV), hepatitis B virus (HBV), and certain types of herpesviruses.

Influenza, also known as the flu, is a highly contagious viral infection that attacks the respiratory system of humans. It is caused by influenza viruses A, B, or C and is characterized by the sudden onset of fever, chills, headache, muscle pain, sore throat, cough, runny nose, and fatigue. Influenza can lead to complications such as pneumonia, bronchitis, and ear infections, and can be particularly dangerous for young children, older adults, pregnant women, and people with weakened immune systems or chronic medical conditions. The virus is spread through respiratory droplets produced when an infected person coughs, sneezes, or talks, and can also survive on surfaces for a period of time. Influenza viruses are constantly changing, which makes it necessary to get vaccinated annually to protect against the most recent and prevalent strains.

Immediate-early genes (IEGs) are a class of genes that respond rapidly to various extracellular signals and stimuli, including growth factors, hormones, neurotransmitters, and environmental stressors. In the context of genetics and molecular biology, IEGs do not directly code for proteins but instead encode regulatory transcription factors that control the expression of downstream genes involved in specific cellular processes such as proliferation, differentiation, survival, and apoptosis.

In the case of genes related to genetic material, 'Immediate-early' refers to a group of genes that are activated early in response to a stimulus, often within minutes, and before the activation of other genes known as delayed-early or late-response genes. These IEGs play crucial roles in initiating and coordinating complex cellular responses, including those related to development, learning, memory, and various disease states such as cancer and neurological disorders.

Examples of IEGs include the c-fos, c-jun, and egr-1 genes, which are widely studied in molecular biology and neuroscience research due to their rapid and transient response to stimuli and their involvement in various cellular processes.

DNA restriction enzymes, also known as restriction endonucleases, are a type of enzyme that cut double-stranded DNA at specific recognition sites. These enzymes are produced by bacteria and archaea as a defense mechanism against foreign DNA, such as that found in bacteriophages (viruses that infect bacteria).

Restriction enzymes recognize specific sequences of nucleotides (the building blocks of DNA) and cleave the phosphodiester bonds between them. The recognition sites for these enzymes are usually palindromic, meaning that the sequence reads the same in both directions when facing the opposite strands of DNA.

Restriction enzymes are widely used in molecular biology research for various applications such as genetic engineering, genome mapping, and DNA fingerprinting. They allow scientists to cut DNA at specific sites, creating precise fragments that can be manipulated and analyzed. The use of restriction enzymes has been instrumental in the development of recombinant DNA technology and the Human Genome Project.

The Mumps Vaccine is a biological preparation intended to induce immunity against mumps, a contagious viral infection that primarily affects the salivary glands. The vaccine contains live attenuated (weakened) mumps virus, which stimulates the immune system to develop a protective response without causing the disease.

There are two types of mumps vaccines available:

1. The Jeryl Lynn strain is used in the United States and is part of the Measles, Mumps, and Rubella (MMR) vaccine and the Measles, Mumps, Rubella, and Varicella (MMRV) vaccine. This strain is derived from a clinical isolate obtained from the throat washings of a child with mumps in 1963.
2. The Urabe AM9 strain was used in some countries but has been discontinued in many places due to an increased risk of meningitis as a rare complication.

The MMR vaccine is typically given to children at 12-15 months of age and again at 4-6 years of age, providing long-lasting immunity against mumps in most individuals. The vaccine has significantly reduced the incidence of mumps and its complications worldwide.

Measles virus is a single-stranded, negative-sense RNA virus belonging to the genus Morbillivirus in the family Paramyxoviridae. It is the causative agent of measles, a highly contagious infectious disease characterized by fever, cough, runny nose, and a red, blotchy rash. The virus primarily infects the respiratory tract and then spreads throughout the body via the bloodstream.

The genome of the measles virus is approximately 16 kilobases in length and encodes for eight proteins: nucleocapsid (N), phosphoprotein (P), matrix protein (M), fusion protein (F), hemagglutinin (H), large protein (L), and two non-structural proteins, V and C. The H protein is responsible for binding to the host cell receptor CD150 (SLAM) and mediating viral entry, while the F protein facilitates fusion of the viral and host cell membranes.

Measles virus is transmitted through respiratory droplets and direct contact with infected individuals. The virus can remain airborne for up to two hours in a closed space, making it highly contagious. Measles is preventable through vaccination, which has led to significant reductions in the incidence of the disease worldwide.

Foscarnet is an antiviral medication used to treat infections caused by viruses, particularly herpes simplex virus (HSV) and varicella-zoster virus (VZV). It is a pyrophosphate analog that inhibits viral DNA polymerase, preventing the replication of viral DNA.

Foscarnet is indicated for the treatment of severe HSV infections, such as mucocutaneous HSV in immunocompromised patients, and acyclovir-resistant HSV infections. It is also used to treat VZV infections, including shingles and varicella zoster virus (VZV) infection in immunocompromised patients.

Foscarnet is administered intravenously and its use requires careful monitoring of renal function and electrolyte levels due to the potential for nephrotoxicity and electrolyte imbalances. Common side effects include nausea, vomiting, diarrhea, and headache.

Herpesviridae infections refer to diseases caused by the Herpesviridae family of double-stranded DNA viruses, which include herpes simplex virus type 1 (HSV-1), herpes simplex virus type 2 (HSV-2), varicella-zoster virus (VZV), cytomegalovirus (CMV), human herpesvirus 6 (HHV-6), human herpesvirus 7 (HHV-7), and human herpesvirus 8 (HHV-8). These viruses can cause a variety of clinical manifestations, ranging from mild skin lesions to severe systemic diseases.

After the initial infection, these viruses typically become latent in various tissues and may reactivate later in life, causing recurrent symptoms. The clinical presentation of Herpesviridae infections depends on the specific virus and the immune status of the host. Common manifestations include oral or genital ulcers (HSV-1 and HSV-2), chickenpox and shingles (VZV), mononucleosis (CMV), roseola (HHV-6), and Kaposi's sarcoma (HHV-8).

Preventive measures include avoiding close contact with infected individuals during the active phase of the infection, practicing safe sex, and avoiding sharing personal items that may come into contact with infectious lesions. Antiviral medications are available to treat Herpesviridae infections and reduce the severity and duration of symptoms.

"Influenza A Virus, H3N2 Subtype" is a specific subtype of the influenza A virus that causes respiratory illness and is known to circulate in humans and animals, including birds and pigs. The "H3N2" refers to the two proteins on the surface of the virus: hemagglutinin (H) and neuraminidase (N). In this subtype, the H protein is of the H3 variety and the N protein is of the N2 variety. This subtype has been responsible for several influenza epidemics and pandemics in humans, including the 1968 Hong Kong flu pandemic. It is one of the influenza viruses that are monitored closely by public health authorities due to its potential to cause significant illness and death, particularly in high-risk populations such as older adults, young children, and people with certain underlying medical conditions.

Recombinant DNA is a term used in molecular biology to describe DNA that has been created by combining genetic material from more than one source. This is typically done through the use of laboratory techniques such as molecular cloning, in which fragments of DNA are inserted into vectors (such as plasmids or viruses) and then introduced into a host organism where they can replicate and produce many copies of the recombinant DNA molecule.

Recombinant DNA technology has numerous applications in research, medicine, and industry, including the production of recombinant proteins for use as therapeutics, the creation of genetically modified organisms (GMOs) for agricultural or industrial purposes, and the development of new tools for genetic analysis and manipulation.

It's important to note that while recombinant DNA technology has many potential benefits, it also raises ethical and safety concerns, and its use is subject to regulation and oversight in many countries.

Malaria vaccines are biological preparations that induce immunity against malaria parasites, thereby preventing or reducing the severity of malaria disease. They typically contain antigens (proteins or other molecules derived from the parasite) that stimulate an immune response in the recipient, enabling their body to recognize and neutralize the pathogen upon exposure.

The most advanced malaria vaccine candidate is RTS,S/AS01 (Mosquirix), which targets the Plasmodium falciparum parasite's circumsporozoite protein (CSP). This vaccine has shown partial protection in clinical trials, reducing the risk of severe malaria and hospitalization in young children by about 30% over four years. However, it does not provide complete immunity, and additional research is ongoing to develop more effective vaccines against malaria.

Rabies is a viral disease that affects the nervous system of mammals, including humans. It's caused by the rabies virus (RV), which belongs to the family Rhabdoviridae and genus Lyssavirus. The virus has a bullet-shaped appearance under an electron microscope and is encased in a lipid envelope.

The rabies virus primarily spreads through the saliva of infected animals, usually via bites. Once inside the body, it travels along nerve fibers to the brain, where it multiplies rapidly and causes inflammation (encephalitis). The infection can lead to symptoms such as anxiety, confusion, hallucinations, seizures, paralysis, coma, and ultimately death if left untreated.

Rabies is almost always fatal once symptoms appear, but prompt post-exposure prophylaxis (PEP), which includes vaccination and sometimes rabies immunoglobulin, can prevent the disease from developing when administered after an exposure to a potentially rabid animal. Pre-exposure vaccination is also recommended for individuals at high risk of exposure, such as veterinarians and travelers visiting rabies-endemic areas.

Viral regulatory and accessory proteins are a type of viral protein that play a role in the regulation of viral replication, gene expression, and host immune response. These proteins are not directly involved in the structural components of the virus but instead help to modulate the environment inside the host cell to facilitate viral replication and evade the host's immune system.

Regulatory proteins control various stages of the viral life cycle, such as transcription, translation, and genome replication. They may also interact with host cell regulatory proteins to alter their function and promote viral replication. Accessory proteins, on the other hand, are non-essential for viral replication but can enhance viral pathogenesis or modulate the host's immune response.

The specific functions of viral regulatory and accessory proteins vary widely among different viruses. For example, in human immunodeficiency virus (HIV), the Tat protein is a regulatory protein that activates transcription of the viral genome, while the Vpu protein is an accessory protein that downregulates the expression of CD4 receptors on host cells to prevent superinfection.

Understanding the functions of viral regulatory and accessory proteins is important for developing antiviral therapies and vaccines, as these proteins can be potential targets for inhibiting viral replication or modulating the host's immune response.

"Hepatitis B vaccines are vaccines that prevent infection caused by the hepatitis B virus. They work by introducing a small and harmless piece of the virus to your body, which triggers your immune system to produce antibodies to fight off the infection. These antibodies remain in your body and provide protection if you are exposed to the real hepatitis B virus in the future.

The hepatitis B vaccine is typically given as a series of three shots over a six-month period. It is recommended for all infants, children and adolescents who have not previously been vaccinated, as well as for adults who are at increased risk of infection, such as healthcare workers, people who inject drugs, and those with certain medical conditions.

It's important to note that hepatitis B vaccine does not provide protection against other types of viral hepatitis, such as hepatitis A or C."

"Influenza A Virus, H5N1 Subtype" is a specific subtype of the Influenza A virus that is often found in avian species (birds) and can occasionally infect humans. The "H5N1" refers to the specific proteins (hemagglutinin and neuraminidase) found on the surface of the virus. This subtype has caused serious infections in humans, with high mortality rates, especially in cases where people have had close contact with infected birds. It does not commonly spread from person to person, but there is concern that it could mutate and adapt to efficiently transmit between humans, which would potentially cause a pandemic.

Viral encephalitis is a medical condition characterized by inflammation of the brain caused by a viral infection. The infection can be caused by various types of viruses, such as herpes simplex virus, enteroviruses, arboviruses (transmitted through insect bites), or HIV.

The symptoms of viral encephalitis may include fever, headache, stiff neck, confusion, seizures, and altered level of consciousness. In severe cases, it can lead to brain damage, coma, or even death. The diagnosis is usually made based on clinical presentation, laboratory tests, and imaging studies such as MRI or CT scan. Treatment typically involves antiviral medications, supportive care, and management of complications.

Papillomavirus vaccines are vaccines that have been developed to prevent infection by human papillomaviruses (HPV). HPV is a DNA virus that is capable of infecting the skin and mucous membranes. Certain types of HPV are known to cause cervical cancer, as well as other types of cancer such as anal, penile, vulvar, and oropharyngeal cancers. Other types of HPV can cause genital warts.

There are currently two papillomavirus vaccines that have been approved for use in the United States: Gardasil and Cervarix. Both vaccines protect against the two most common cancer-causing types of HPV (types 16 and 18), which together cause about 70% of cervical cancers. Gardasil also protects against the two most common types of HPV that cause genital warts (types 6 and 11).

Papillomavirus vaccines are given as a series of three shots over a period of six months. They are most effective when given to people before they become sexually active, as this reduces the risk of exposure to HPV. The Centers for Disease Control and Prevention (CDC) recommends that all boys and girls get vaccinated against HPV at age 11 or 12, but the vaccine can be given to people as young as age 9 and as old as age 26.

It is important to note that papillomavirus vaccines do not protect against all types of HPV, and they do not treat existing HPV infections or cervical cancer. They are intended to prevent new HPV infections and the cancers and other diseases that can be caused by HPV.

The cell nucleus is a membrane-bound organelle found in the eukaryotic cells (cells with a true nucleus). It contains most of the cell's genetic material, organized as DNA molecules in complex with proteins, RNA molecules, and histones to form chromosomes.

The primary function of the cell nucleus is to regulate and control the activities of the cell, including growth, metabolism, protein synthesis, and reproduction. It also plays a crucial role in the process of mitosis (cell division) by separating and protecting the genetic material during this process. The nuclear membrane, or nuclear envelope, surrounding the nucleus is composed of two lipid bilayers with numerous pores that allow for the selective transport of molecules between the nucleoplasm (nucleus interior) and the cytoplasm (cell exterior).

The cell nucleus is a vital structure in eukaryotic cells, and its dysfunction can lead to various diseases, including cancer and genetic disorders.

The vagina is the canal that joins the cervix (the lower part of the uterus) to the outside of the body. It also is known as the birth canal because babies pass through it during childbirth. The vagina is where sexual intercourse occurs and where menstrual blood exits the body. It has a flexible wall that can expand and retract. During sexual arousal, the vaginal walls swell with blood to become more elastic in order to accommodate penetration.

It's important to note that sometimes people use the term "vagina" to refer to the entire female genital area, including the external structures like the labia and clitoris. But technically, these are considered part of the vulva, not the vagina.

Glycoproteins are complex proteins that contain oligosaccharide chains (glycans) covalently attached to their polypeptide backbone. These glycans are linked to the protein through asparagine residues (N-linked) or serine/threonine residues (O-linked). Glycoproteins play crucial roles in various biological processes, including cell recognition, cell-cell interactions, cell adhesion, and signal transduction. They are widely distributed in nature and can be found on the outer surface of cell membranes, in extracellular fluids, and as components of the extracellular matrix. The structure and composition of glycoproteins can vary significantly depending on their function and location within an organism.

The cornea is the clear, dome-shaped surface at the front of the eye. It plays a crucial role in focusing vision. The cornea protects the eye from harmful particles and microorganisms, and it also serves as a barrier against UV light. Its transparency allows light to pass through and get focused onto the retina. The cornea does not contain blood vessels, so it relies on tears and the fluid inside the eye (aqueous humor) for nutrition and oxygen. Any damage or disease that affects its clarity and shape can significantly impact vision and potentially lead to blindness if left untreated.

Simian Virus 40 (SV40) is a polyomavirus that is found in both monkeys and humans. It is a DNA virus that has been extensively studied in laboratory settings due to its ability to transform cells and cause tumors in animals. In fact, SV40 was discovered as a contaminant of poliovirus vaccines that were prepared using rhesus monkey kidney cells in the 1950s and 1960s.

SV40 is not typically associated with human disease, but there has been some concern that exposure to the virus through contaminated vaccines or other means could increase the risk of certain types of cancer, such as mesothelioma and brain tumors. However, most studies have failed to find a consistent link between SV40 infection and cancer in humans.

The medical community generally agrees that SV40 is not a significant public health threat, but researchers continue to study the virus to better understand its biology and potential impact on human health.

Orthomyxoviridae is a family of viruses that includes influenza A, B, and C viruses, which can cause respiratory infections in humans. Orthomyxoviridae infections are typically characterized by symptoms such as fever, cough, sore throat, runny or stuffy nose, muscle or body aches, headaches, and fatigue.

Influenza A and B viruses can cause seasonal epidemics of respiratory illness that occur mainly during the winter months in temperate climates. Influenza A viruses can also cause pandemics, which are global outbreaks of disease that occur when a new strain of the virus emerges to which there is little or no immunity in the human population.

Influenza C viruses are less common and typically cause milder illness than influenza A and B viruses. They do not cause epidemics and are not usually included in seasonal flu vaccines.

Orthomyxoviridae infections can be prevented through vaccination, good respiratory hygiene (such as covering the mouth and nose when coughing or sneezing), hand washing, and avoiding close contact with sick individuals. Antiviral medications may be prescribed to treat influenza A and B infections, particularly for people at high risk of complications, such as older adults, young children, pregnant women, and people with certain underlying medical conditions.

Restriction mapping is a technique used in molecular biology to identify the location and arrangement of specific restriction endonuclease recognition sites within a DNA molecule. Restriction endonucleases are enzymes that cut double-stranded DNA at specific sequences, producing fragments of various lengths. By digesting the DNA with different combinations of these enzymes and analyzing the resulting fragment sizes through techniques such as agarose gel electrophoresis, researchers can generate a restriction map - a visual representation of the locations and distances between recognition sites on the DNA molecule. This information is crucial for various applications, including cloning, genome analysis, and genetic engineering.

Secondary immunization, also known as "anamnestic response" or "booster," refers to the enhanced immune response that occurs upon re-exposure to an antigen, having previously been immunized or infected with the same pathogen. This response is characterized by a more rapid and robust production of antibodies and memory cells compared to the primary immune response. The secondary immunization aims to maintain long-term immunity against infectious diseases and improve vaccine effectiveness. It usually involves administering additional doses of a vaccine or booster shots after the initial series of immunizations, which helps reinforce the immune system's ability to recognize and combat specific pathogens.

Promoter regions in genetics refer to specific DNA sequences located near the transcription start site of a gene. They serve as binding sites for RNA polymerase and various transcription factors that regulate the initiation of gene transcription. These regulatory elements help control the rate of transcription and, therefore, the level of gene expression. Promoter regions can be composed of different types of sequences, such as the TATA box and CAAT box, and their organization and composition can vary between different genes and species.

Intranasal administration refers to the delivery of medication or other substances through the nasal passages and into the nasal cavity. This route of administration can be used for systemic absorption of drugs or for localized effects in the nasal area.

When a medication is administered intranasally, it is typically sprayed or dropped into the nostril, where it is absorbed by the mucous membranes lining the nasal cavity. The medication can then pass into the bloodstream and be distributed throughout the body for systemic effects. Intranasal administration can also result in direct absorption of the medication into the local tissues of the nasal cavity, which can be useful for treating conditions such as allergies, migraines, or pain in the nasal area.

Intranasal administration has several advantages over other routes of administration. It is non-invasive and does not require needles or injections, making it a more comfortable option for many people. Additionally, intranasal administration can result in faster onset of action than oral administration, as the medication bypasses the digestive system and is absorbed directly into the bloodstream. However, there are also some limitations to this route of administration, including potential issues with dosing accuracy and patient tolerance.

Idoxuridine is an antiviral medication used primarily for the treatment of herpes simplex virus (HSV) infections of the eye, such as keratitis or dendritic ulcers. It works by interfering with the DNA replication of the virus, thereby inhibiting its ability to multiply and spread.

Idoxuridine is available as an ophthalmic solution (eye drops) and is typically applied directly to the affected eye every 1-2 hours while awake, for up to 2 weeks. Common side effects include local irritation, stinging, or burning upon application. Prolonged use of idoxuridine may lead to bacterial resistance or corneal toxicity, so it is important to follow your healthcare provider's instructions carefully when using this medication.

It is essential to note that idoxuridine is not commonly used today due to the development of more effective and less toxic antiviral agents for HSV infections.

Virus internalization, also known as viral entry, is the process by which a virus enters a host cell to infect it and replicate its genetic material. This process typically involves several steps:

1. Attachment: The viral envelope proteins bind to specific receptors on the surface of the host cell.
2. Entry: The virus then enters the host cell through endocytosis or membrane fusion, depending on the type of virus.
3. Uncoating: Once inside the host cell, the viral capsid is removed, releasing the viral genome into the cytoplasm.
4. Replication: The viral genome then uses the host cell's machinery to replicate itself and produce new viral particles.

It's important to note that the specific mechanisms of virus internalization can vary widely between different types of viruses, and are an active area of research in virology and infectious disease.

DNA-binding proteins are a type of protein that have the ability to bind to DNA (deoxyribonucleic acid), the genetic material of organisms. These proteins play crucial roles in various biological processes, such as regulation of gene expression, DNA replication, repair and recombination.

The binding of DNA-binding proteins to specific DNA sequences is mediated by non-covalent interactions, including electrostatic, hydrogen bonding, and van der Waals forces. The specificity of binding is determined by the recognition of particular nucleotide sequences or structural features of the DNA molecule.

DNA-binding proteins can be classified into several categories based on their structure and function, such as transcription factors, histones, and restriction enzymes. Transcription factors are a major class of DNA-binding proteins that regulate gene expression by binding to specific DNA sequences in the promoter region of genes and recruiting other proteins to modulate transcription. Histones are DNA-binding proteins that package DNA into nucleosomes, the basic unit of chromatin structure. Restriction enzymes are DNA-binding proteins that recognize and cleave specific DNA sequences, and are widely used in molecular biology research and biotechnology applications.

Monoclonal antibodies are a type of antibody that are identical because they are produced by a single clone of cells. They are laboratory-produced molecules that act like human antibodies in the immune system. They can be designed to attach to specific proteins found on the surface of cancer cells, making them useful for targeting and treating cancer. Monoclonal antibodies can also be used as a therapy for other diseases, such as autoimmune disorders and inflammatory conditions.

Monoclonal antibodies are produced by fusing a single type of immune cell, called a B cell, with a tumor cell to create a hybrid cell, or hybridoma. This hybrid cell is then able to replicate indefinitely, producing a large number of identical copies of the original antibody. These antibodies can be further modified and engineered to enhance their ability to bind to specific targets, increase their stability, and improve their effectiveness as therapeutic agents.

Monoclonal antibodies have several mechanisms of action in cancer therapy. They can directly kill cancer cells by binding to them and triggering an immune response. They can also block the signals that promote cancer growth and survival. Additionally, monoclonal antibodies can be used to deliver drugs or radiation directly to cancer cells, increasing the effectiveness of these treatments while minimizing their side effects on healthy tissues.

Monoclonal antibodies have become an important tool in modern medicine, with several approved for use in cancer therapy and other diseases. They are continuing to be studied and developed as a promising approach to treating a wide range of medical conditions.

Orthomyxoviridae is a family of viruses that includes influenza A, B, and C viruses, which are the causative agents of flu in humans and animals. These viruses are enveloped, meaning they have a lipid membrane derived from the host cell, and have a single-stranded, negative-sense RNA genome. The genome is segmented, meaning it consists of several separate pieces of RNA, which allows for genetic reassortment or "shuffling" when two different strains infect the same cell, leading to the emergence of new strains.

The viral envelope contains two major glycoproteins: hemagglutinin (HA) and neuraminidase (NA). The HA protein is responsible for binding to host cells and facilitating entry into the cell, while NA helps release newly formed virus particles from infected cells by cleaving sialic acid residues on the host cell surface.

Orthomyxoviruses are known to cause respiratory infections in humans and animals, with influenza A viruses being the most virulent and capable of causing pandemics. Influenza B viruses typically cause less severe illness and are primarily found in humans, while influenza C viruses generally cause mild upper respiratory symptoms and are also mainly restricted to humans.

DNA viruses are a type of virus that contain DNA (deoxyribonucleic acid) as their genetic material. These viruses replicate by using the host cell's machinery to synthesize new viral components, which are then assembled into new viruses and released from the host cell.

DNA viruses can be further classified based on the structure of their genomes and the way they replicate. For example, double-stranded DNA (dsDNA) viruses have a genome made up of two strands of DNA, while single-stranded DNA (ssDNA) viruses have a genome made up of a single strand of DNA.

Examples of DNA viruses include herpes simplex virus, varicella-zoster virus, human papillomavirus, and adenoviruses. Some DNA viruses are associated with specific diseases, such as cancer (e.g., human papillomavirus) or neurological disorders (e.g., herpes simplex virus).

It's important to note that while DNA viruses contain DNA as their genetic material, RNA viruses contain RNA (ribonucleic acid) as their genetic material. Both DNA and RNA viruses can cause a wide range of diseases in humans, animals, and plants.

Neutralizing antibodies are a type of antibody that defends against pathogens such as viruses or bacteria by neutralizing their ability to infect cells. They do this by binding to specific regions on the surface proteins of the pathogen, preventing it from attaching to and entering host cells. This renders the pathogen ineffective and helps to prevent or reduce the severity of infection. Neutralizing antibodies can be produced naturally in response to an infection or vaccination, or they can be generated artificially for therapeutic purposes.

Oncolytic virotherapy is a type of cancer treatment that uses genetically modified viruses to selectively infect and destroy cancer cells, while leaving healthy cells unharmed. The virus used in oncolytic virotherapy can replicate inside cancer cells, causing them to rupture and release new viruses that can then infect nearby cancer cells.

The process continues in a cascading manner, leading to the destruction of many cancer cells in the treated area. Additionally, some oncolytic viruses can also stimulate an immune response against cancer cells, further enhancing their therapeutic effect. Oncolytic virotherapy is still an experimental treatment approach and is being studied in clinical trials for various types of cancer.

Antibody formation, also known as humoral immune response, is the process by which the immune system produces proteins called antibodies in response to the presence of a foreign substance (antigen) in the body. This process involves several steps:

1. Recognition: The antigen is recognized and bound by a type of white blood cell called a B lymphocyte or B cell, which then becomes activated.
2. Differentiation: The activated B cell undergoes differentiation to become a plasma cell, which is a type of cell that produces and secretes large amounts of antibodies.
3. Antibody production: The plasma cells produce and release antibodies, which are proteins made up of four polypeptide chains (two heavy chains and two light chains) arranged in a Y-shape. Each antibody has two binding sites that can recognize and bind to specific regions on the antigen called epitopes.
4. Neutralization or elimination: The antibodies bind to the antigens, neutralizing them or marking them for destruction by other immune cells. This helps to prevent the spread of infection and protect the body from harmful substances.

Antibody formation is an important part of the adaptive immune response, which allows the body to specifically recognize and respond to a wide variety of pathogens and foreign substances.

Haplorhini is a term used in the field of primatology and physical anthropology to refer to a parvorder of simian primates, which includes humans, apes (both great and small), and Old World monkeys. The name "Haplorhini" comes from the Greek words "haploos," meaning single or simple, and "rhinos," meaning nose.

The defining characteristic of Haplorhini is the presence of a simple, dry nose, as opposed to the wet, fleshy noses found in other primates, such as New World monkeys and strepsirrhines (which include lemurs and lorises). The nostrils of haplorhines are located close together at the tip of the snout, and they lack the rhinarium or "wet nose" that is present in other primates.

Haplorhini is further divided into two infraorders: Simiiformes (which includes apes and Old World monkeys) and Tarsioidea (which includes tarsiers). These groups are distinguished by various anatomical and behavioral differences, such as the presence or absence of a tail, the structure of the hand and foot, and the degree of sociality.

Overall, Haplorhini is a group of primates that share a number of distinctive features related to their sensory systems, locomotion, and social behavior. Understanding the evolutionary history and diversity of this group is an important area of research in anthropology, biology, and psychology.

Gene deletion is a type of mutation where a segment of DNA, containing one or more genes, is permanently lost or removed from a chromosome. This can occur due to various genetic mechanisms such as homologous recombination, non-homologous end joining, or other types of genomic rearrangements.

The deletion of a gene can have varying effects on the organism, depending on the function of the deleted gene and its importance for normal physiological processes. If the deleted gene is essential for survival, the deletion may result in embryonic lethality or developmental abnormalities. However, if the gene is non-essential or has redundant functions, the deletion may not have any noticeable effects on the organism's phenotype.

Gene deletions can also be used as a tool in genetic research to study the function of specific genes and their role in various biological processes. For example, researchers may use gene deletion techniques to create genetically modified animal models to investigate the impact of gene deletion on disease progression or development.

An open reading frame (ORF) is a continuous stretch of DNA or RNA sequence that has the potential to be translated into a protein. It begins with a start codon (usually "ATG" in DNA, which corresponds to "AUG" in RNA) and ends with a stop codon ("TAA", "TAG", or "TGA" in DNA; "UAA", "UAG", or "UGA" in RNA). The sequence between these two points is called a coding sequence (CDS), which, when transcribed into mRNA and translated into amino acids, forms a polypeptide chain.

In eukaryotic cells, ORFs can be located in either protein-coding genes or non-coding regions of the genome. In prokaryotic cells, multiple ORFs may be present on a single strand of DNA, often organized into operons that are transcribed together as a single mRNA molecule.

It's important to note that not all ORFs necessarily represent functional proteins; some may be pseudogenes or result from errors in genome annotation. Therefore, additional experimental evidence is typically required to confirm the expression and functionality of a given ORF.

Blepharitis is a common inflammatory condition that affects the eyelids, specifically the eyelash follicles and the edges of the eyelids (called the "eyelid margins"). It can cause symptoms such as redness, swelling, itching, burning, and a crusty or flaky buildup on the lashes. Blepharitis can be caused by a variety of factors, including bacterial infection, skin disorders like seborrheic dermatitis or rosacea, and meibomian gland dysfunction. It is often a chronic condition that requires ongoing treatment to manage symptoms and prevent recurrence.

The chickenpox vaccine, also known as varicella vaccine, is a preventive measure against the highly contagious viral infection caused by the varicella-zoster virus. The vaccine contains a live but weakened form of the virus, which stimulates the immune system to produce a response without causing the disease itself.

The chickenpox vaccine is typically given in two doses, with the first dose administered between 12 and 15 months of age and the second dose between 4 and 6 years of age. In some cases, the vaccine may be given to older children, adolescents, or adults who have not previously been vaccinated or who have never had chickenpox.

The chickenpox vaccine is highly effective at preventing severe cases of the disease and reducing the risk of complications such as bacterial infections, pneumonia, and encephalitis. It is also effective at preventing transmission of the virus to others.

Like any vaccine, the chickenpox vaccine can cause mild side effects such as soreness at the injection site, fever, or a mild rash. However, these side effects are generally mild and short-lived. Serious side effects are rare but may include allergic reactions or severe immune responses.

Overall, the chickenpox vaccine is a safe and effective way to prevent this common childhood disease and its potential complications.

Recombinant fusion proteins are artificially created biomolecules that combine the functional domains or properties of two or more different proteins into a single protein entity. They are generated through recombinant DNA technology, where the genes encoding the desired protein domains are linked together and expressed as a single, chimeric gene in a host organism, such as bacteria, yeast, or mammalian cells.

The resulting fusion protein retains the functional properties of its individual constituent proteins, allowing for novel applications in research, diagnostics, and therapeutics. For instance, recombinant fusion proteins can be designed to enhance protein stability, solubility, or immunogenicity, making them valuable tools for studying protein-protein interactions, developing targeted therapies, or generating vaccines against infectious diseases or cancer.

Examples of recombinant fusion proteins include:

1. Etaglunatide (ABT-523): A soluble Fc fusion protein that combines the heavy chain fragment crystallizable region (Fc) of an immunoglobulin with the extracellular domain of the human interleukin-6 receptor (IL-6R). This fusion protein functions as a decoy receptor, neutralizing IL-6 and its downstream signaling pathways in rheumatoid arthritis.
2. Etanercept (Enbrel): A soluble TNF receptor p75 Fc fusion protein that binds to tumor necrosis factor-alpha (TNF-α) and inhibits its proinflammatory activity, making it a valuable therapeutic option for treating autoimmune diseases like rheumatoid arthritis, ankylosing spondylitis, and psoriasis.
3. Abatacept (Orencia): A fusion protein consisting of the extracellular domain of cytotoxic T-lymphocyte antigen 4 (CTLA-4) linked to the Fc region of an immunoglobulin, which downregulates T-cell activation and proliferation in autoimmune diseases like rheumatoid arthritis.
4. Belimumab (Benlysta): A monoclonal antibody that targets B-lymphocyte stimulator (BLyS) protein, preventing its interaction with the B-cell surface receptor and inhibiting B-cell activation in systemic lupus erythematosus (SLE).
5. Romiplostim (Nplate): A fusion protein consisting of a thrombopoietin receptor agonist peptide linked to an immunoglobulin Fc region, which stimulates platelet production in patients with chronic immune thrombocytopenia (ITP).
6. Darbepoetin alfa (Aranesp): A hyperglycosylated erythropoiesis-stimulating protein that functions as a longer-acting form of recombinant human erythropoietin, used to treat anemia in patients with chronic kidney disease or cancer.
7. Palivizumab (Synagis): A monoclonal antibody directed against the F protein of respiratory syncytial virus (RSV), which prevents RSV infection and is administered prophylactically to high-risk infants during the RSV season.
8. Ranibizumab (Lucentis): A recombinant humanized monoclonal antibody fragment that binds and inhibits vascular endothelial growth factor A (VEGF-A), used in the treatment of age-related macular degeneration, diabetic retinopathy, and other ocular disorders.
9. Cetuximab (Erbitux): A chimeric monoclonal antibody that binds to epidermal growth factor receptor (EGFR), used in the treatment of colorectal cancer and head and neck squamous cell carcinoma.
10. Adalimumab (Humira): A fully humanized monoclonal antibody that targets tumor necrosis factor-alpha (TNF-α), used in the treatment of various inflammatory diseases, including rheumatoid arthritis, psoriasis, and Crohn's disease.
11. Bevacizumab (Avastin): A recombinant humanized monoclonal antibody that binds to VEGF-A, used in the treatment of various cancers, including colorectal, lung, breast, and kidney cancer.
12. Trastuzumab (Herceptin): A humanized monoclonal antibody that targets HER2/neu receptor, used in the treatment of breast cancer.
13. Rituximab (Rituxan): A chimeric monoclonal antibody that binds to CD20 antigen on B cells, used in the treatment of non-Hodgkin's lymphoma and rheumatoid arthritis.
14. Palivizumab (Synagis): A humanized monoclonal antibody that binds to the F protein of respiratory syncytial virus, used in the prevention of respiratory syncytial virus infection in high-risk infants.
15. Infliximab (Remicade): A chimeric monoclonal antibody that targets TNF-α, used in the treatment of various inflammatory diseases, including Crohn's disease, ulcerative colitis, rheumatoid arthritis, and ankylosing spondylitis.
16. Natalizumab (Tysabri): A humanized monoclonal antibody that binds to α4β1 integrin, used in the treatment of multiple sclerosis and Crohn's disease.
17. Adalimumab (Humira): A fully human monoclonal antibody that targets TNF-α, used in the treatment of various inflammatory diseases, including rheumatoid arthritis, psoriatic arthritis, ankylosing spondylitis, Crohn's disease, and ulcerative colitis.
18. Golimumab (Simponi): A fully human monoclonal antibody that targets TNF-α, used in the treatment of rheumatoid arthritis, psoriatic arthritis, ankylosing spondylitis, and ulcerative colitis.
19. Certolizumab pegol (Cimzia): A PEGylated Fab' fragment of a humanized monoclonal antibody that targets TNF-α, used in the treatment of rheumatoid arthritis, psoriatic arthritis, ankylosing spondylitis, and Crohn's disease.
20. Ustekinumab (Stelara): A fully human monoclonal antibody that targets IL-12 and IL-23, used in the treatment of psoriasis, psoriatic arthritis, and Crohn's disease.
21. Secukinumab (Cosentyx): A fully human monoclonal antibody that targets IL-17A, used in the treatment of psoriasis, psoriatic arthritis, and ankylosing spondylitis.
22. Ixekizumab (Taltz): A fully human monoclonal antibody that targets IL-17A, used in the treatment of psoriasis and psoriatic arthritis.
23. Brodalumab (Siliq): A fully human monoclonal antibody that targets IL-17 receptor A, used in the treatment of psoriasis.
24. Sarilumab (Kevzara): A fully human monoclonal antibody that targets the IL-6 receptor, used in the treatment of rheumatoid arthritis.
25. Tocilizumab (Actemra): A humanized monoclonal antibody that targets the IL-6 receptor, used in the treatment of rheumatoid arthritis, systemic juvenile idiopathic arthritis, polyarticular juvenile idiopathic arthritis, giant cell arteritis, and chimeric antigen receptor T-cell-induced cytokine release syndrome.
26. Siltuximab (Sylvant): A chimeric monoclonal antibody that targets IL-6, used in the treatment of multicentric Castleman disease.
27. Satralizumab (Enspryng): A humanized monoclonal antibody that targets IL-6 receptor alpha, used in the treatment of neuromyelitis optica spectrum disorder.
28. Sirukumab (Plivensia): A human monoclonal antibody that targets IL-6, used in the treatment

Nucleic acid hybridization is a process in molecular biology where two single-stranded nucleic acids (DNA, RNA) with complementary sequences pair together to form a double-stranded molecule through hydrogen bonding. The strands can be from the same type of nucleic acid or different types (i.e., DNA-RNA or DNA-cDNA). This process is commonly used in various laboratory techniques, such as Southern blotting, Northern blotting, polymerase chain reaction (PCR), and microarray analysis, to detect, isolate, and analyze specific nucleic acid sequences. The hybridization temperature and conditions are critical to ensure the specificity of the interaction between the two strands.

Messenger RNA (mRNA) is a type of RNA (ribonucleic acid) that carries genetic information copied from DNA in the form of a series of three-base code "words," each of which specifies a particular amino acid. This information is used by the cell's machinery to construct proteins, a process known as translation. After being transcribed from DNA, mRNA travels out of the nucleus to the ribosomes in the cytoplasm where protein synthesis occurs. Once the protein has been synthesized, the mRNA may be degraded and recycled. Post-transcriptional modifications can also occur to mRNA, such as alternative splicing and addition of a 5' cap and a poly(A) tail, which can affect its stability, localization, and translation efficiency.

Animal disease models are specialized animals, typically rodents such as mice or rats, that have been genetically engineered or exposed to certain conditions to develop symptoms and physiological changes similar to those seen in human diseases. These models are used in medical research to study the pathophysiology of diseases, identify potential therapeutic targets, test drug efficacy and safety, and understand disease mechanisms.

The genetic modifications can include knockout or knock-in mutations, transgenic expression of specific genes, or RNA interference techniques. The animals may also be exposed to environmental factors such as chemicals, radiation, or infectious agents to induce the disease state.

Examples of animal disease models include:

1. Mouse models of cancer: Genetically engineered mice that develop various types of tumors, allowing researchers to study cancer initiation, progression, and metastasis.
2. Alzheimer's disease models: Transgenic mice expressing mutant human genes associated with Alzheimer's disease, which exhibit amyloid plaque formation and cognitive decline.
3. Diabetes models: Obese and diabetic mouse strains like the NOD (non-obese diabetic) or db/db mice, used to study the development of type 1 and type 2 diabetes, respectively.
4. Cardiovascular disease models: Atherosclerosis-prone mice, such as ApoE-deficient or LDLR-deficient mice, that develop plaque buildup in their arteries when fed a high-fat diet.
5. Inflammatory bowel disease models: Mice with genetic mutations affecting intestinal barrier function and immune response, such as IL-10 knockout or SAMP1/YitFc mice, which develop colitis.

Animal disease models are essential tools in preclinical research, but it is important to recognize their limitations. Differences between species can affect the translatability of results from animal studies to human patients. Therefore, researchers must carefully consider the choice of model and interpret findings cautiously when applying them to human diseases.

Recombinant proteins are artificially created proteins produced through the use of recombinant DNA technology. This process involves combining DNA molecules from different sources to create a new set of genes that encode for a specific protein. The resulting recombinant protein can then be expressed, purified, and used for various applications in research, medicine, and industry.

Recombinant proteins are widely used in biomedical research to study protein function, structure, and interactions. They are also used in the development of diagnostic tests, vaccines, and therapeutic drugs. For example, recombinant insulin is a common treatment for diabetes, while recombinant human growth hormone is used to treat growth disorders.

The production of recombinant proteins typically involves the use of host cells, such as bacteria, yeast, or mammalian cells, which are engineered to express the desired protein. The host cells are transformed with a plasmid vector containing the gene of interest, along with regulatory elements that control its expression. Once the host cells are cultured and the protein is expressed, it can be purified using various chromatography techniques.

Overall, recombinant proteins have revolutionized many areas of biology and medicine, enabling researchers to study and manipulate proteins in ways that were previously impossible.

Virus inactivation is the process of reducing or eliminating the infectivity of a virus, making it no longer capable of replicating and causing infection. This can be achieved through various physical or chemical methods such as heat, radiation, chemicals (like disinfectants), or enzymes that damage the viral genome or disrupt the viral particle's structure.

It is important to note that virus inactivation does not necessarily mean complete destruction of the viral particles; it only implies that they are no longer infectious. The effectiveness of virus inactivation depends on factors such as the type and concentration of the virus, the inactivation method used, and the duration of exposure to the inactivating agent.

Virus inactivation is crucial in various settings, including healthcare, laboratory research, water treatment, food processing, and waste disposal, to prevent the spread of viral infections and ensure safety.

Oncolytic viruses are a type of viruses that preferentially infect and kill cancer cells, while leaving normal cells relatively unharmed. These viruses can replicate inside the cancer cells, causing them to rupture and ultimately leading to their death. The release of new virus particles from the dead cancer cells allows the infection to spread to nearby cancer cells, resulting in a potential therapeutic effect.

Oncolytic viruses can be genetically modified to enhance their ability to target specific types of cancer cells and to increase their safety and efficacy. They may also be used in combination with other cancer therapies, such as chemotherapy or radiation therapy, to improve treatment outcomes. Oncolytic virus therapy is a promising area of cancer research, with several clinical trials underway to evaluate its potential benefits for patients with various types of cancer.

Trifluridine is an antiviral medication that is primarily used to treat herpetic keratitis, which is a viral infection of the eye caused by the herpes simplex virus. It works by interfering with the replication of the virus's DNA, thereby preventing it from multiplying and causing further damage to the eye.

Trifluridine is available as an ophthalmic solution (eye drops) and is typically applied directly to the affected eye every 2 hours while awake, for a total of 9 doses per day. The treatment period usually lasts for up to 14 days or until the symptoms have resolved.

It's important to note that trifluridine is not used to treat other forms of herpes simplex infections, such as cold sores or genital herpes, and should only be used under the supervision of a healthcare professional.

Hemagglutinin (HA) glycoproteins are surface proteins found on influenza viruses. They play a crucial role in the virus's ability to infect and spread within host organisms.

The HAs are responsible for binding to sialic acid receptors on the host cell's surface, allowing the virus to attach and enter the cell. After endocytosis, the viral and endosomal membranes fuse, releasing the viral genome into the host cell's cytoplasm.

There are several subtypes of hemagglutinin (H1-H18) identified so far, with H1, H2, and H3 being common in human infections. The significant antigenic differences among these subtypes make them important targets for the development of influenza vaccines. However, due to their high mutation rate, new vaccine formulations are often required to match the circulating virus strains.

In summary, hemagglutinin glycoproteins on influenza viruses are essential for host cell recognition and entry, making them important targets for diagnosis, prevention, and treatment of influenza infections.

Respiratory Syncytial Viruses (RSV) are a common type of virus that cause respiratory infections, particularly in young children and older adults. They are responsible for inflammation and narrowing of the small airways in the lungs, leading to breathing difficulties and other symptoms associated with bronchiolitis and pneumonia.

The term "syncytial" refers to the ability of these viruses to cause infected cells to merge and form large multinucleated cells called syncytia, which is a characteristic feature of RSV infections. The virus spreads through respiratory droplets when an infected person coughs or sneezes, and it can also survive on surfaces for several hours, making transmission easy.

RSV infections are most common during the winter months and can cause mild to severe symptoms depending on factors such as age, overall health, and underlying medical conditions. While RSV is typically associated with respiratory illnesses in children, it can also cause significant disease in older adults and immunocompromised individuals. Currently, there is no vaccine available for RSV, but antiviral medications and supportive care are used to manage severe infections.

Meningococcal vaccines are vaccines that protect against Neisseria meningitidis, a type of bacteria that can cause serious infections such as meningitis (inflammation of the lining of the brain and spinal cord) and septicemia (bloodstream infection). There are several types of meningococcal vaccines available, including conjugate vaccines and polysaccharide vaccines. These vaccines work by stimulating the immune system to produce antibodies that can protect against the different serogroups of N. meningitidis, including A, B, C, Y, and W-135. The specific type of vaccine used and the number of doses required may depend on a person's age, health status, and other factors. Meningococcal vaccines are recommended for certain high-risk populations, such as infants, young children, adolescents, and people with certain medical conditions, as well as for travelers to areas where meningococcal disease is common.

Bovine Herpesvirus 1 (BoHV-1) is a species-specific virus that belongs to the family Herpesviridae, subfamily Alphaherpesvirinae, and genus Varicellovirus. This virus is the causative agent of Infectious Bovine Rhinotracheitis (IBR), which is a significant respiratory disease in cattle. The infection can also lead to reproductive issues, including abortions, stillbirths, and inflammation of the genital tract (infectious pustular vulvovaginitis) in cows and infertility in bulls.

The virus is primarily transmitted through direct contact with infected animals, their respiratory secretions, or contaminated objects. Once an animal is infected, BoHV-1 establishes a lifelong latency in the nervous system, from where it can periodically reactivate and shed the virus, even without showing any clinical signs. This makes eradication of the virus challenging in cattle populations.

Vaccines are available to control IBR, but they may not prevent infection or shedding entirely. Therefore, ongoing management practices, such as biosecurity measures and surveillance programs, are essential to minimize the impact of this disease on cattle health and productivity.

A ganglion is a cluster of neuron cell bodies in the peripheral nervous system. Ganglia are typically associated with nerves and serve as sites for sensory processing, integration, and relay of information between the periphery and the central nervous system (CNS). The two main types of ganglia are sensory ganglia, which contain pseudounipolar neurons that transmit sensory information to the CNS, and autonomic ganglia, which contain multipolar neurons that control involuntary physiological functions.

Examples of sensory ganglia include dorsal root ganglia (DRG), which are associated with spinal nerves, and cranial nerve ganglia, such as the trigeminal ganglion. Autonomic ganglia can be further divided into sympathetic and parasympathetic ganglia, which regulate different aspects of the autonomic nervous system.

It's worth noting that in anatomy, "ganglion" refers to a group of nerve cell bodies, while in clinical contexts, "ganglion" is often used to describe a specific type of cystic structure that forms near joints or tendons, typically in the wrist or foot. These ganglia are not related to the peripheral nervous system's ganglia but rather are fluid-filled sacs that may cause discomfort or pain due to their size or location.

Temperature, in a medical context, is a measure of the degree of hotness or coldness of a body or environment. It is usually measured using a thermometer and reported in degrees Celsius (°C), degrees Fahrenheit (°F), or kelvin (K). In the human body, normal core temperature ranges from about 36.5-37.5°C (97.7-99.5°F) when measured rectally, and can vary slightly depending on factors such as time of day, physical activity, and menstrual cycle. Elevated body temperature is a common sign of infection or inflammation, while abnormally low body temperature can indicate hypothermia or other medical conditions.

Herpesvirus 1, Cercopithecine is a species of the genus *Cercopithec herpesvirus* within the subfamily *Betaherpesvirinae*, family *Herpesviridae*. This virus is also known as Herpesvirus simiae or B-virus. It is closely related to human cytomegalovirus and human herpesvirus 6 and 7.

The primary host of this virus is the Asian macaque monkey, including rhesus macaques, pig-tailed macaques, and Formosan rock macaques. The virus can cause a spectrum of diseases in these monkeys, ranging from mild skin lesions to severe systemic illness with neurological involvement.

In humans, infection with Cercopithecine herpesvirus 1 is rare but can occur through contact with infected macaque monkeys or their saliva and other bodily fluids. Infection in humans can lead to serious complications, including encephalitis, meningitis, and myelitis, which can be fatal if not treated promptly. Therefore, it is essential to take strict precautions when handling macaque monkeys or their tissues to prevent transmission of this virus to humans.

Host Cell Factor C1 (HCF-1) is a large cellular protein that plays a crucial role in the regulation of gene expression and chromatin dynamics within the host cell. It acts as a scaffold or docking platform, interacting with various transcription factors, coactivators, and histone modifying enzymes to form complex regulatory networks involved in different cellular processes such as development, differentiation, and metabolism. HCF-1 is particularly important for the regulation of viral gene expression during infection by certain DNA viruses, including Herpes simplex virus (HSV) and Human cytomegalovirus (HCMV). Mutations in the HCF-1 gene have been associated with neurodevelopmental disorders, highlighting its essential role in normal cellular functioning.

C57BL/6 (C57 Black 6) is an inbred strain of laboratory mouse that is widely used in biomedical research. The term "inbred" refers to a strain of animals where matings have been carried out between siblings or other closely related individuals for many generations, resulting in a population that is highly homozygous at most genetic loci.

The C57BL/6 strain was established in 1920 by crossing a female mouse from the dilute brown (DBA) strain with a male mouse from the black strain. The resulting offspring were then interbred for many generations to create the inbred C57BL/6 strain.

C57BL/6 mice are known for their robust health, longevity, and ease of handling, making them a popular choice for researchers. They have been used in a wide range of biomedical research areas, including studies of cancer, immunology, neuroscience, cardiovascular disease, and metabolism.

One of the most notable features of the C57BL/6 strain is its sensitivity to certain genetic modifications, such as the introduction of mutations that lead to obesity or impaired glucose tolerance. This has made it a valuable tool for studying the genetic basis of complex diseases and traits.

Overall, the C57BL/6 inbred mouse strain is an important model organism in biomedical research, providing a valuable resource for understanding the genetic and molecular mechanisms underlying human health and disease.

"Intramuscular injections" refer to a medical procedure where a medication or vaccine is administered directly into the muscle tissue. This is typically done using a hypodermic needle and syringe, and the injection is usually given into one of the large muscles in the body, such as the deltoid (shoulder), vastus lateralis (thigh), or ventrogluteal (buttock) muscles.

Intramuscular injections are used for a variety of reasons, including to deliver medications that need to be absorbed slowly over time, to bypass stomach acid and improve absorption, or to ensure that the medication reaches the bloodstream quickly and directly. Common examples of medications delivered via intramuscular injection include certain vaccines, antibiotics, and pain relievers.

It is important to follow proper technique when administering intramuscular injections to minimize pain and reduce the risk of complications such as infection or injury to surrounding tissues. Proper site selection, needle length and gauge, and injection technique are all critical factors in ensuring a safe and effective intramuscular injection.

Hepatitis A vaccines are inactivated or live attenuated viral vaccines that are administered to prevent infection and illness caused by the hepatitis A virus. The vaccine contains antigens that stimulate an immune response in the body, leading to the production of antibodies that protect against future infection with the virus.

The inactivated hepatitis A vaccine is made from viruses that have been chemically treated to destroy their ability to cause disease while preserving their ability to stimulate an immune response. This type of vaccine is typically given in two doses, six months apart, and provides long-term protection against the virus.

The live attenuated hepatitis A vaccine contains a weakened form of the virus that is unable to cause illness but can still stimulate an immune response. This type of vaccine is given as a single dose and provides protection against the virus for at least 20 years.

Hepatitis A vaccines are recommended for people who are at increased risk of infection, including travelers to areas where hepatitis A is common, men who have sex with men, people who use injection drugs, and people with chronic liver disease or clotting factor disorders. The vaccine is also recommended for children in certain states and communities where hepatitis A is endemic.

Culture techniques are methods used in microbiology to grow and multiply microorganisms, such as bacteria, fungi, or viruses, in a controlled laboratory environment. These techniques allow for the isolation, identification, and study of specific microorganisms, which is essential for diagnostic purposes, research, and development of medical treatments.

The most common culture technique involves inoculating a sterile growth medium with a sample suspected to contain microorganisms. The growth medium can be solid or liquid and contains nutrients that support the growth of the microorganisms. Common solid growth media include agar plates, while liquid growth media are used for broth cultures.

Once inoculated, the growth medium is incubated at a temperature that favors the growth of the microorganisms being studied. During incubation, the microorganisms multiply and form visible colonies on the solid growth medium or turbid growth in the liquid growth medium. The size, shape, color, and other characteristics of the colonies can provide important clues about the identity of the microorganism.

Other culture techniques include selective and differential media, which are designed to inhibit the growth of certain types of microorganisms while promoting the growth of others, allowing for the isolation and identification of specific pathogens. Enrichment cultures involve adding specific nutrients or factors to a sample to promote the growth of a particular type of microorganism.

Overall, culture techniques are essential tools in microbiology and play a critical role in medical diagnostics, research, and public health.

In the context of medicine and pharmacology, "kinetics" refers to the study of how a drug moves throughout the body, including its absorption, distribution, metabolism, and excretion (often abbreviated as ADME). This field is called "pharmacokinetics."

1. Absorption: This is the process of a drug moving from its site of administration into the bloodstream. Factors such as the route of administration (e.g., oral, intravenous, etc.), formulation, and individual physiological differences can affect absorption.

2. Distribution: Once a drug is in the bloodstream, it gets distributed throughout the body to various tissues and organs. This process is influenced by factors like blood flow, protein binding, and lipid solubility of the drug.

3. Metabolism: Drugs are often chemically modified in the body, typically in the liver, through processes known as metabolism. These changes can lead to the formation of active or inactive metabolites, which may then be further distributed, excreted, or undergo additional metabolic transformations.

4. Excretion: This is the process by which drugs and their metabolites are eliminated from the body, primarily through the kidneys (urine) and the liver (bile).

Understanding the kinetics of a drug is crucial for determining its optimal dosing regimen, potential interactions with other medications or foods, and any necessary adjustments for special populations like pediatric or geriatric patients, or those with impaired renal or hepatic function.

A genetic complementation test is a laboratory procedure used in molecular genetics to determine whether two mutated genes can complement each other's function, indicating that they are located at different loci and represent separate alleles. This test involves introducing a normal or wild-type copy of one gene into a cell containing a mutant version of the same gene, and then observing whether the presence of the normal gene restores the normal function of the mutated gene. If the introduction of the normal gene results in the restoration of the normal phenotype, it suggests that the two genes are located at different loci and can complement each other's function. However, if the introduction of the normal gene does not restore the normal phenotype, it suggests that the two genes are located at the same locus and represent different alleles of the same gene. This test is commonly used to map genes and identify genetic interactions in a variety of organisms, including bacteria, yeast, and animals.

Influenza A virus is defined as a negative-sense, single-stranded, segmented RNA virus belonging to the family Orthomyxoviridae. It is responsible for causing epidemic and pandemic influenza in humans and is also known to infect various animal species, such as birds, pigs, horses, and seals. The viral surface proteins, hemagglutinin (HA) and neuraminidase (NA), are the primary targets for antiviral drugs and vaccines. There are 18 different HA subtypes and 11 known NA subtypes, which contribute to the diversity and antigenic drift of Influenza A viruses. The zoonotic nature of this virus allows for genetic reassortment between human and animal strains, leading to the emergence of novel variants with pandemic potential.

The Smallpox vaccine is not a live virus vaccine but is instead made from a vaccinia virus, which is a virus related to the variola virus (the virus that causes smallpox). The vaccinia virus used in the vaccine does not cause smallpox, but it does cause a milder illness with symptoms such as a fever and a rash of pustules or blisters at the site of inoculation.

The smallpox vaccine was first developed by Edward Jenner in 1796 and is one of the oldest vaccines still in use today. It has been highly effective in preventing smallpox, which was once a major cause of death and disability worldwide. In fact, smallpox was declared eradicated by the World Health Organization (WHO) in 1980, thanks in large part to the widespread use of the smallpox vaccine.

Despite the eradication of smallpox, the smallpox vaccine is still used today in certain circumstances. For example, it may be given to laboratory workers who handle the virus or to military personnel who may be at risk of exposure to the virus. The vaccine may also be used as an emergency measure in the event of a bioterrorism attack involving smallpox.

It is important to note that the smallpox vaccine is not without risks and can cause serious side effects, including a severe allergic reaction (anaphylaxis), encephalitis (inflammation of the brain), and myocarditis (inflammation of the heart muscle). As a result, it is only given to people who are at high risk of exposure to the virus and who have been determined to be good candidates for vaccination by a healthcare professional.

Deoxyribonuclease BamHI is a type of enzyme that belongs to the class of restriction endonucleases. These enzymes are capable of cutting double-stranded DNA molecules at specific recognition sites, and BamHI recognizes the sequence 5'-G|GATCC-3'. The vertical line indicates the point of cleavage, where the phosphodiester bond is broken, resulting in sticky ends that can reattach to other complementary sticky ends.

BamHI restriction endonuclease is derived from the bacterium Bacillus amyloliquefaciens H and is widely used in molecular biology research for various applications such as DNA fragmentation, cloning, and genetic engineering. It is essential to note that the activity of this enzyme can be affected by several factors, including temperature, pH, and the presence of inhibitors or activators.

Molecular cloning is a laboratory technique used to create multiple copies of a specific DNA sequence. This process involves several steps:

1. Isolation: The first step in molecular cloning is to isolate the DNA sequence of interest from the rest of the genomic DNA. This can be done using various methods such as PCR (polymerase chain reaction), restriction enzymes, or hybridization.
2. Vector construction: Once the DNA sequence of interest has been isolated, it must be inserted into a vector, which is a small circular DNA molecule that can replicate independently in a host cell. Common vectors used in molecular cloning include plasmids and phages.
3. Transformation: The constructed vector is then introduced into a host cell, usually a bacterial or yeast cell, through a process called transformation. This can be done using various methods such as electroporation or chemical transformation.
4. Selection: After transformation, the host cells are grown in selective media that allow only those cells containing the vector to grow. This ensures that the DNA sequence of interest has been successfully cloned into the vector.
5. Amplification: Once the host cells have been selected, they can be grown in large quantities to amplify the number of copies of the cloned DNA sequence.

Molecular cloning is a powerful tool in molecular biology and has numerous applications, including the production of recombinant proteins, gene therapy, functional analysis of genes, and genetic engineering.

Adenoviridae is a family of viruses that includes many species that can cause various types of illnesses in humans and animals. These viruses are non-enveloped, meaning they do not have a lipid membrane, and have an icosahedral symmetry with a diameter of approximately 70-90 nanometers.

The genome of Adenoviridae is composed of double-stranded DNA, which contains linear chromosomes ranging from 26 to 45 kilobases in length. The family is divided into five genera: Mastadenovirus, Aviadenovirus, Atadenovirus, Siadenovirus, and Ichtadenovirus.

Human adenoviruses are classified under the genus Mastadenovirus and can cause a wide range of illnesses, including respiratory infections, conjunctivitis, gastroenteritis, and upper respiratory tract infections. Some serotypes have also been associated with more severe diseases such as hemorrhagic cystitis, hepatitis, and meningoencephalitis.

Adenoviruses are highly contagious and can be transmitted through respiratory droplets, fecal-oral route, or by contact with contaminated surfaces. They can also be spread through contaminated water sources. Infections caused by adenoviruses are usually self-limiting, but severe cases may require hospitalization and supportive care.

Exodeoxyribonucleases are a type of enzyme that cleave (break) nucleotides from the ends of DNA molecules. They are further classified into 5' exodeoxyribonucleases and 3' exodeoxyribonucleases based on the end of the DNA molecule they act upon.

5' Exodeoxyribonucleases remove nucleotides from the 5' end (phosphate group) of a DNA strand, while 3' exodeoxyribonucleases remove nucleotides from the 3' end (hydroxyl group) of a DNA strand.

These enzymes play important roles in various biological processes such as DNA replication, repair, and degradation. They are also used in molecular biology research for various applications such as DNA sequencing, cloning, and genetic engineering.

The Mumps virus is a single-stranded, negative-sense RNA virus that belongs to the Paramyxoviridae family and Rubulavirus genus. It is the causative agent of mumps, an acute infectious disease characterized by painful swelling of the salivary glands, particularly the parotid glands.

The Mumps virus has a spherical or pleomorphic shape with a diameter of approximately 150-250 nanometers. It is surrounded by a lipid bilayer membrane derived from the host cell, which contains viral glycoproteins that facilitate attachment and entry into host cells.

The M protein, located beneath the envelope, plays a crucial role in virus assembly and budding. The genome of the Mumps virus consists of eight genes encoding nine proteins, including two major structural proteins (nucleocapsid protein and matrix protein) and several non-structural proteins involved in viral replication and pathogenesis.

Transmission of the Mumps virus occurs through respiratory droplets or direct contact with infected saliva. After infection, the incubation period ranges from 12 to 25 days, followed by a prodromal phase characterized by fever, headache, malaise, and muscle pain. The characteristic swelling of the parotid glands usually appears 1-3 days after the onset of symptoms.

Complications of mumps can include meningitis, encephalitis, orchitis, oophoritis, pancreatitis, and deafness. Prevention relies on vaccination with the measles-mumps-rubella (MMR) vaccine, which is highly effective in preventing mumps and its complications.

Cell fusion is the process by which two or more cells combine to form a single cell with a single nucleus, containing the genetic material from all of the original cells. This can occur naturally in certain biological processes, such as fertilization (when a sperm and egg cell fuse to form a zygote), muscle development (where multiple muscle precursor cells fuse together to create multinucleated muscle fibers), and during the formation of bone (where osteoclasts, the cells responsible for breaking down bone tissue, are multinucleated).

Cell fusion can also be induced artificially in laboratory settings through various methods, including chemical treatments, electrical stimulation, or viral vectors. Induced cell fusion is often used in research to create hybrid cells with unique properties, such as cybrid cells (cytoplasmic hybrids) and heterokaryons (nuclear hybrids). These hybrid cells can help scientists study various aspects of cell biology, genetics, and disease mechanisms.

In summary, cell fusion is the merging of two or more cells into one, resulting in a single cell with combined genetic material. This process occurs naturally during certain biological processes and can be induced artificially for research purposes.

Sindbis virus is an alphavirus that belongs to the Togaviridae family. It's named after the location where it was first isolated, in Sindbis, Egypt, in 1952. This virus is primarily transmitted by mosquitoes and can infect a wide range of animals, including birds and humans. In humans, Sindbis virus infection often causes a mild flu-like illness characterized by fever, rash, and joint pain. However, some people may develop more severe symptoms, such as neurological disorders, although this is relatively rare. There is no specific treatment for Sindbis virus infection, and management typically involves supportive care to alleviate symptoms.

Cellular immunity, also known as cell-mediated immunity, is a type of immune response that involves the activation of immune cells, such as T lymphocytes (T cells), to protect the body against infected or damaged cells. This form of immunity is important for fighting off infections caused by viruses and intracellular bacteria, as well as for recognizing and destroying cancer cells.

Cellular immunity involves a complex series of interactions between various immune cells and molecules. When a pathogen infects a cell, the infected cell displays pieces of the pathogen on its surface in a process called antigen presentation. This attracts T cells, which recognize the antigens and become activated. Activated T cells then release cytokines, chemicals that help coordinate the immune response, and can directly attack and kill infected cells or help activate other immune cells to do so.

Cellular immunity is an important component of the adaptive immune system, which is able to learn and remember specific pathogens in order to mount a faster and more effective response upon subsequent exposure. This form of immunity is also critical for the rejection of transplanted organs, as the immune system recognizes the transplanted tissue as foreign and attacks it.

Dengue vaccines are designed to protect against dengue fever, a mosquito-borne viral disease that can cause severe flu-like symptoms and potentially life-threatening complications. Dengue is caused by four distinct serotypes of the virus (DENV-1, DENV-2, DENV-3, and DENV-4), and infection with one serotype does not provide immunity against the others.

The first licensed dengue vaccine, Dengvaxia (CYD-TDV), is a chimeric yellow fever-dengue tetravalent vaccine developed by Sanofi Pasteur. It is approved for use in several countries and has demonstrated efficacy against dengue fever caused by all four serotypes in clinical trials. However, the vaccine has raised concerns about the risk of severe disease in individuals who have not been previously exposed to dengue. As a result, it is recommended primarily for people with a documented past dengue infection or living in areas with high dengue prevalence and where the benefits outweigh the risks.

Another dengue vaccine candidate, Takeda's TAK-003 (also known as TDV), is a live attenuated tetravalent dengue vaccine that has shown efficacy against all four serotypes in clinical trials. It was granted approval by the European Medicines Agency (EMA) and several other countries for use in individuals aged 4-16 years old, living in endemic areas.

Research and development of additional dengue vaccine candidates are ongoing to address concerns about safety, efficacy, and accessibility, particularly for at-risk populations in low- and middle-income countries where dengue is most prevalent.

2-Aminopurine is a fluorescent purine analog, which means it is a compound that is similar in structure to the naturally occurring molecule called purines, which are building blocks of DNA and RNA. 2-Aminopurine is used in research to study the structure and function of nucleic acids (DNA and RNA) due to its fluorescent properties. It can be incorporated into oligonucleotides (short stretches of nucleic acids) to allow for the monitoring of interactions between nucleic acids, such as during DNA replication or transcription. The fluorescence of 2-Aminopurine changes upon excitation with light and can be used to detect structural changes in nucleic acids or to measure the distance between two fluorophores.

Protein binding, in the context of medical and biological sciences, refers to the interaction between a protein and another molecule (known as the ligand) that results in a stable complex. This process is often reversible and can be influenced by various factors such as pH, temperature, and concentration of the involved molecules.

In clinical chemistry, protein binding is particularly important when it comes to drugs, as many of them bind to proteins (especially albumin) in the bloodstream. The degree of protein binding can affect a drug's distribution, metabolism, and excretion, which in turn influence its therapeutic effectiveness and potential side effects.

Protein-bound drugs may be less available for interaction with their target tissues, as only the unbound or "free" fraction of the drug is active. Therefore, understanding protein binding can help optimize dosing regimens and minimize adverse reactions.

Cross reactions, in the context of medical diagnostics and immunology, refer to a situation where an antibody or a immune response directed against one antigen also reacts with a different antigen due to similarities in their molecular structure. This can occur in allergy testing, where a person who is allergic to a particular substance may have a positive test result for a different but related substance because of cross-reactivity between them. For example, some individuals who are allergic to birch pollen may also have symptoms when eating certain fruits, such as apples, due to cross-reactive proteins present in both.

HIV (Human Immunodeficiency Virus) infection is a viral illness that progressively attacks and weakens the immune system, making individuals more susceptible to other infections and diseases. The virus primarily infects CD4+ T cells, a type of white blood cell essential for fighting off infections. Over time, as the number of these immune cells declines, the body becomes increasingly vulnerable to opportunistic infections and cancers.

HIV infection has three stages:

1. Acute HIV infection: This is the initial stage that occurs within 2-4 weeks after exposure to the virus. During this period, individuals may experience flu-like symptoms such as fever, fatigue, rash, swollen glands, and muscle aches. The virus replicates rapidly, and the viral load in the body is very high.
2. Chronic HIV infection (Clinical latency): This stage follows the acute infection and can last several years if left untreated. Although individuals may not show any symptoms during this phase, the virus continues to replicate at low levels, and the immune system gradually weakens. The viral load remains relatively stable, but the number of CD4+ T cells declines over time.
3. AIDS (Acquired Immunodeficiency Syndrome): This is the most advanced stage of HIV infection, characterized by a severely damaged immune system and numerous opportunistic infections or cancers. At this stage, the CD4+ T cell count drops below 200 cells/mm3 of blood.

It's important to note that with proper antiretroviral therapy (ART), individuals with HIV infection can effectively manage the virus, maintain a healthy immune system, and significantly reduce the risk of transmission to others. Early diagnosis and treatment are crucial for improving long-term health outcomes and reducing the spread of HIV.

T-lymphocytes, also known as T-cells, are a type of white blood cell that plays a key role in the adaptive immune system's response to infection. They are produced in the bone marrow and mature in the thymus gland. There are several different types of T-cells, including CD4+ helper T-cells, CD8+ cytotoxic T-cells, and regulatory T-cells (Tregs).

CD4+ helper T-cells assist in activating other immune cells, such as B-lymphocytes and macrophages. They also produce cytokines, which are signaling molecules that help coordinate the immune response. CD8+ cytotoxic T-cells directly kill infected cells by releasing toxic substances. Regulatory T-cells help maintain immune tolerance and prevent autoimmune diseases by suppressing the activity of other immune cells.

T-lymphocytes are important in the immune response to viral infections, cancer, and other diseases. Dysfunction or depletion of T-cells can lead to immunodeficiency and increased susceptibility to infections. On the other hand, an overactive T-cell response can contribute to autoimmune diseases and chronic inflammation.

DNA primers are short single-stranded DNA molecules that serve as a starting point for DNA synthesis. They are typically used in laboratory techniques such as the polymerase chain reaction (PCR) and DNA sequencing. The primer binds to a complementary sequence on the DNA template through base pairing, providing a free 3'-hydroxyl group for the DNA polymerase enzyme to add nucleotides and synthesize a new strand of DNA. This allows for specific and targeted amplification or analysis of a particular region of interest within a larger DNA molecule.

CD8-positive T-lymphocytes, also known as CD8+ T cells or cytotoxic T cells, are a type of white blood cell that plays a crucial role in the adaptive immune system. They are named after the CD8 molecule found on their surface, which is a protein involved in cell signaling and recognition.

CD8+ T cells are primarily responsible for identifying and destroying virus-infected cells or cancerous cells. When activated, they release cytotoxic granules that contain enzymes capable of inducing apoptosis (programmed cell death) in the target cells. They also produce cytokines such as interferon-gamma, which can help coordinate the immune response and activate other immune cells.

CD8+ T cells are generated in the thymus gland and are a type of T cell, which is a lymphocyte that matures in the thymus and plays a central role in cell-mediated immunity. They recognize and respond to specific antigens presented on the surface of infected or cancerous cells in conjunction with major histocompatibility complex (MHC) class I molecules.

Overall, CD8+ T cells are an essential component of the immune system's defense against viral infections and cancer.

Ribonucleases (RNases) are a group of enzymes that catalyze the degradation of ribonucleic acid (RNA) molecules by hydrolyzing the phosphodiester bonds. These enzymes play crucial roles in various biological processes, such as RNA processing, turnover, and quality control. They can be classified into several types based on their specificities, mechanisms, and cellular localizations.

Some common classes of ribonucleases include:

1. Endoribonucleases: These enzymes cleave RNA internally, at specific sequences or structural motifs. Examples include RNase A, which targets single-stranded RNA; RNase III, which cuts double-stranded RNA at specific stem-loop structures; and RNase T1, which recognizes and cuts unpaired guanosine residues in RNA molecules.
2. Exoribonucleases: These enzymes remove nucleotides from the ends of RNA molecules. They can be further divided into 5'-3' exoribonucleases, which degrade RNA starting from the 5' end, and 3'-5' exoribonucleases, which start at the 3' end. Examples include Xrn1, a 5'-3' exoribonuclease involved in mRNA decay; and Dis3/RRP6, a 3'-5' exoribonuclease that participates in ribosomal RNA processing and degradation.
3. Specific ribonucleases: These enzymes target specific RNA molecules or regions with high precision. For example, RNase P is responsible for cleaving the 5' leader sequence of precursor tRNAs (pre-tRNAs) during their maturation; and RNase MRP is involved in the processing of ribosomal RNA and mitochondrial RNA molecules.

Dysregulation or mutations in ribonucleases have been implicated in various human diseases, such as neurological disorders, cancer, and viral infections. Therefore, understanding their functions and mechanisms is crucial for developing novel therapeutic strategies.

Electron microscopy (EM) is a type of microscopy that uses a beam of electrons to create an image of the sample being examined, resulting in much higher magnification and resolution than light microscopy. There are several types of electron microscopy, including transmission electron microscopy (TEM), scanning electron microscopy (SEM), and reflection electron microscopy (REM).

In TEM, a beam of electrons is transmitted through a thin slice of the sample, and the electrons that pass through the sample are focused to form an image. This technique can provide detailed information about the internal structure of cells, viruses, and other biological specimens, as well as the composition and structure of materials at the atomic level.

In SEM, a beam of electrons is scanned across the surface of the sample, and the electrons that are scattered back from the surface are detected to create an image. This technique can provide information about the topography and composition of surfaces, as well as the structure of materials at the microscopic level.

REM is a variation of SEM in which the beam of electrons is reflected off the surface of the sample, rather than scattered back from it. This technique can provide information about the surface chemistry and composition of materials.

Electron microscopy has a wide range of applications in biology, medicine, and materials science, including the study of cellular structure and function, disease diagnosis, and the development of new materials and technologies.

A sequence deletion in a genetic context refers to the removal or absence of one or more nucleotides (the building blocks of DNA or RNA) from a specific region in a DNA or RNA molecule. This type of mutation can lead to the loss of genetic information, potentially resulting in changes in the function or expression of a gene. If the deletion involves a critical portion of the gene, it can cause diseases, depending on the role of that gene in the body. The size of the deleted sequence can vary, ranging from a single nucleotide to a large segment of DNA.

Rubella vaccine is a preventive measure used to immunize individuals against rubella, also known as German measles. It contains inactivated or weakened forms of the rubella virus that stimulate an immune response when introduced into the body. The two types of rubella vaccines available are:

1. Live Attenuated Rubella Vaccine (RAV): This vaccine contains a weakened form of the rubella virus, which triggers an immune response without causing the disease. It is the most commonly used rubella vaccine and is often combined with measles and mumps vaccines to create the Measles-Mumps-Rubella (MMR) or Measles-Mumps-Rubella-Varicella (MMRV) vaccines.

2. Inactivated Rubella Vaccine: This vaccine contains a killed rubella virus, which is less commonly used but can still provide immunity against the disease.

The Centers for Disease Control and Prevention (CDC) recommends that children receive one dose of MMR vaccine at 12-15 months of age and another dose at 4-6 years of age. This schedule ensures optimal protection against rubella and other diseases included in the vaccines.

It is important to note that pregnant women should not receive the rubella vaccine, as it can potentially harm the developing fetus. Women who are planning to become pregnant should ensure they have had their rubella immunization before conceiving.

Seroepidemiologic studies are a type of epidemiological study that measures the presence and levels of antibodies in a population's blood serum to investigate the prevalence, distribution, and transmission of infectious diseases. These studies help to identify patterns of infection and immunity within a population, which can inform public health policies and interventions.

Seroepidemiologic studies typically involve collecting blood samples from a representative sample of individuals in a population and testing them for the presence of antibodies against specific pathogens. The results are then analyzed to estimate the prevalence of infection and immunity within the population, as well as any factors associated with increased or decreased risk of infection.

These studies can provide valuable insights into the spread of infectious diseases, including emerging and re-emerging infections, and help to monitor the effectiveness of vaccination programs. Additionally, seroepidemiologic studies can also be used to investigate the transmission dynamics of infectious agents, such as identifying sources of infection or tracking the spread of antibiotic resistance.

DNA primase is a type of enzyme that plays a crucial role in the process of DNA replication. Its primary function is to synthesize short RNA segments, known as primers, that are required for the initiation of DNA synthesis.

In more detail, during DNA replication, an enzyme called helicase unwinds the double-stranded DNA molecule and creates a replication fork, where the two strands are separated. However, before DNA polymerase can add nucleotides to the new strand, it requires a free 3'-OH group to which it can add the next nucleotide. This free 3'-OH group is provided by the RNA primer synthesized by DNA primase.

DNA primase recognizes and binds to single-stranded DNA (ssDNA) at the replication fork, where it initiates the synthesis of an RNA primer. The primer consists of a short stretch of RNA nucleotides, typically around 10 bases long, that are added to the ssDNA template in a specific sequence. Once the RNA primer is in place, DNA polymerase can begin adding DNA nucleotides to the new strand, starting from the 3'-end of the RNA primer.

After DNA replication is complete, another enzyme called DNA polymerase I removes the RNA primers and replaces them with DNA nucleotides. The resulting gaps are then sealed by DNA ligase, which forms a phosphodiester bond between the adjacent nucleotides to create a continuous strand of DNA.

Overall, DNA primase is an essential enzyme that plays a critical role in the initiation and completion of DNA replication, ensuring the accurate duplication of genetic information from one generation to the next.

A plant virus is not defined in medical terms, as viruses are typically considered within the context of living organisms and plants are not classified as such. However, I can provide a general virology definition for you:

Plant viruses are small infectious agents that consist of nucleic acid (DNA or RNA) enclosed in a protein coat. They infect various plant species, causing a wide range of symptoms and diseases, which can result in significant economic losses in agriculture and horticulture. Plant viruses lack the ability to replicate outside a host cell, and they rely on the host's metabolic machinery for their reproduction. They can be transmitted through various means, such as insect vectors, seeds, or mechanical contact.

Passive immunization is a type of temporary immunity that is transferred to an individual through the injection of antibodies produced outside of the body, rather than through the active production of antibodies in the body in response to vaccination or infection. This can be done through the administration of preformed antibodies, such as immune globulins, which contain a mixture of antibodies that provide immediate protection against specific diseases.

Passive immunization is often used in situations where individuals have been exposed to a disease and do not have time to develop their own active immune response, or in cases where individuals are unable to produce an adequate immune response due to certain medical conditions. It can also be used as a short-term measure to provide protection until an individual can receive a vaccination that will confer long-term immunity.

Passive immunization provides immediate protection against disease, but the protection is typically short-lived, lasting only a few weeks or months. This is because the transferred antibodies are gradually broken down and eliminated by the body over time. In contrast, active immunization confers long-term immunity through the production of memory cells that can mount a rapid and effective immune response upon re-exposure to the same pathogen in the future.

In the context of medical and biological sciences, a "binding site" refers to a specific location on a protein, molecule, or cell where another molecule can attach or bind. This binding interaction can lead to various functional changes in the original protein or molecule. The other molecule that binds to the binding site is often referred to as a ligand, which can be a small molecule, ion, or even another protein.

The binding between a ligand and its target binding site can be specific and selective, meaning that only certain ligands can bind to particular binding sites with high affinity. This specificity plays a crucial role in various biological processes, such as signal transduction, enzyme catalysis, or drug action.

In the case of drug development, understanding the location and properties of binding sites on target proteins is essential for designing drugs that can selectively bind to these sites and modulate protein function. This knowledge can help create more effective and safer therapeutic options for various diseases.

Host-pathogen interactions refer to the complex and dynamic relationship between a living organism (the host) and a disease-causing agent (the pathogen). This interaction can involve various molecular, cellular, and physiological processes that occur between the two entities. The outcome of this interaction can determine whether the host will develop an infection or not, as well as the severity and duration of the illness.

During host-pathogen interactions, the pathogen may release virulence factors that allow it to evade the host's immune system, colonize tissues, and obtain nutrients for its survival and replication. The host, in turn, may mount an immune response to recognize and eliminate the pathogen, which can involve various mechanisms such as inflammation, phagocytosis, and the production of antimicrobial agents.

Understanding the intricacies of host-pathogen interactions is crucial for developing effective strategies to prevent and treat infectious diseases. This knowledge can help identify new targets for therapeutic interventions, inform vaccine design, and guide public health policies to control the spread of infectious agents.

Vesicular stomatitis Indiana virus (VSIV) is a single-stranded, negative-sense RNA virus that belongs to the family Rhabdoviridae and genus Vesiculovirus. It is the causative agent of vesicular stomatitis (VS), a viral disease that primarily affects horses and cattle, but can also infect other species including swine, sheep, goats, and humans.

The virus is transmitted through direct contact with infected animals or their saliva, as well as through insect vectors such as black flies and sandflies. The incubation period for VS ranges from 2 to 8 days, after which infected animals develop fever, lethargy, and vesicular lesions in the mouth, nose, and feet. These lesions can be painful and may cause difficulty eating or walking.

In humans, VSIV infection is typically asymptomatic or causes mild flu-like symptoms such as fever, muscle aches, and headache. Occasionally, individuals may develop vesicular lesions on their skin or mucous membranes, particularly if they have had contact with infected animals.

Diagnosis of VSIV infection is typically made through virus isolation from lesion exudates or blood, as well as through serological testing. Treatment is generally supportive and aimed at relieving symptoms, as there are no specific antiviral therapies available for VS. Prevention measures include vaccination of susceptible animals, vector control, and biosecurity measures to prevent the spread of infection between animals.

Arabinofuranosyluracil (AraU) is a nucleoside analogue, which means it is a synthetic compound similar to the building blocks of DNA and RNA. AraU is formed by combining the sugar arabinose with the nucleobase uracil. Nucleoside analogues like AraU are often used in cancer chemotherapy and antiviral therapy because they can interfere with the replication of DNA and RNA, disrupting the growth or replication of cancer cells or viruses.

In the context of medical research and treatment, AraU has been studied for its potential use as an anticancer and antiviral agent. However, it is not currently approved for use as a medication in humans. Like many nucleoside analogues, AraU can have toxic effects on normal cells as well as cancerous or virus-infected cells, which limits its usefulness as a therapeutic agent.

A kidney, in medical terms, is one of two bean-shaped organs located in the lower back region of the body. They are essential for maintaining homeostasis within the body by performing several crucial functions such as:

1. Regulation of water and electrolyte balance: Kidneys help regulate the amount of water and various electrolytes like sodium, potassium, and calcium in the bloodstream to maintain a stable internal environment.

2. Excretion of waste products: They filter waste products from the blood, including urea (a byproduct of protein metabolism), creatinine (a breakdown product of muscle tissue), and other harmful substances that result from normal cellular functions or external sources like medications and toxins.

3. Endocrine function: Kidneys produce several hormones with important roles in the body, such as erythropoietin (stimulates red blood cell production), renin (regulates blood pressure), and calcitriol (activated form of vitamin D that helps regulate calcium homeostasis).

4. pH balance regulation: Kidneys maintain the proper acid-base balance in the body by excreting either hydrogen ions or bicarbonate ions, depending on whether the blood is too acidic or too alkaline.

5. Blood pressure control: The kidneys play a significant role in regulating blood pressure through the renin-angiotensin-aldosterone system (RAAS), which constricts blood vessels and promotes sodium and water retention to increase blood volume and, consequently, blood pressure.

Anatomically, each kidney is approximately 10-12 cm long, 5-7 cm wide, and 3 cm thick, with a weight of about 120-170 grams. They are surrounded by a protective layer of fat and connected to the urinary system through the renal pelvis, ureters, bladder, and urethra.

A viral attachment, in the context of virology, refers to the initial step in the infection process of a host cell by a virus. This involves the binding or adsorption of the viral particle to specific receptors on the surface of the host cell. The viral attachment proteins, often located on the viral envelope or capsid, recognize and interact with these receptors, leading to a close association between the virus and the host cell. This interaction is highly specific, as different viruses may target various cell types based on their unique receptor-binding preferences. Following attachment, the virus can enter the host cell and initiate the replication cycle, ultimately leading to the production of new viral particles and potential disease manifestations.

An epitope is a specific region on the surface of an antigen (a molecule that can trigger an immune response) that is recognized by an antibody, B-cell receptor, or T-cell receptor. It is also commonly referred to as an antigenic determinant. Epitopes are typically composed of linear amino acid sequences or conformational structures made up of discontinuous amino acids in the antigen. They play a crucial role in the immune system's ability to differentiate between self and non-self molecules, leading to the targeted destruction of foreign substances like viruses and bacteria. Understanding epitopes is essential for developing vaccines, diagnostic tests, and immunotherapies.

'Tumor cells, cultured' refers to the process of removing cancerous cells from a tumor and growing them in controlled laboratory conditions. This is typically done by isolating the tumor cells from a patient's tissue sample, then placing them in a nutrient-rich environment that promotes their growth and multiplication.

The resulting cultured tumor cells can be used for various research purposes, including the study of cancer biology, drug development, and toxicity testing. They provide a valuable tool for researchers to better understand the behavior and characteristics of cancer cells outside of the human body, which can lead to the development of more effective cancer treatments.

It is important to note that cultured tumor cells may not always behave exactly the same way as they do in the human body, so findings from cell culture studies must be validated through further research, such as animal models or clinical trials.

Deoxyuridine is a chemical compound that is a component of DNA. It is a nucleoside, which means it consists of a sugar (deoxyribose) linked to a nitrogenous base (uracil). In the case of deoxyuridine, the uracil is not methylated, which differentiates it from thymidine.

Deoxyuridine can be converted into deoxyuridine monophosphate (dUMP) by the enzyme thymidine kinase. The dUMP can then be converted into deoxythymidine triphosphate (dTTP), which is a building block of DNA, through a series of reactions involving other enzymes.

Deoxyuridine has been used in research and medicine as a marker for DNA synthesis and repair. It can also be used to inhibit the growth of certain types of cells, such as cancer cells, by disrupting their DNA synthesis.

Species specificity is a term used in the field of biology, including medicine, to refer to the characteristic of a biological entity (such as a virus, bacterium, or other microorganism) that allows it to interact exclusively or preferentially with a particular species. This means that the biological entity has a strong affinity for, or is only able to infect, a specific host species.

For example, HIV is specifically adapted to infect human cells and does not typically infect other animal species. Similarly, some bacterial toxins are species-specific and can only affect certain types of animals or humans. This concept is important in understanding the transmission dynamics and host range of various pathogens, as well as in developing targeted therapies and vaccines.

Viral interference is a phenomenon where the replication of one virus is inhibited or blocked by the presence of another virus. This can occur when two different viruses infect the same cell and compete for the cell's resources, such as nucleotides, energy, and replication machinery. As a result, the replication of one virus may be suppressed, allowing the other virus to predominate.

This phenomenon has been observed in both in vitro (laboratory) studies and in vivo (in the body) studies. It has been suggested that viral interference may play a role in the outcome of viral coinfections, where an individual is infected with more than one virus at the same time. Viral interference can also be exploited as a potential strategy for antiviral therapy, where one virus is used to inhibit the replication of another virus.

It's important to note that not all viruses interfere with each other, and the outcome of viral coinfections can depend on various factors such as the specific viruses involved, the timing and sequence of infection, and the host's immune response.

A Pertussis vaccine is a type of immunization used to protect against pertussis, also known as whooping cough. It contains components that stimulate the immune system to produce antibodies against the bacteria that cause pertussis, Bordetella pertussis. There are two main types of pertussis vaccines: whole-cell pertussis (wP) vaccines and acellular pertussis (aP) vaccines. wP vaccines contain killed whole cells of B. pertussis, while aP vaccines contain specific components of the bacteria, such as pertussis toxin and other antigens. Pertussis vaccines are often combined with diphtheria and tetanus to form combination vaccines, such as DTaP (diphtheria, tetanus, and acellular pertussis) and TdaP (tetanus, diphtheria, and acellular pertussis). These vaccines are typically given to young children as part of their routine immunization schedule.

Interferon-gamma (IFN-γ) is a soluble cytokine that is primarily produced by the activation of natural killer (NK) cells and T lymphocytes, especially CD4+ Th1 cells and CD8+ cytotoxic T cells. It plays a crucial role in the regulation of the immune response against viral and intracellular bacterial infections, as well as tumor cells. IFN-γ has several functions, including activating macrophages to enhance their microbicidal activity, increasing the presentation of major histocompatibility complex (MHC) class I and II molecules on antigen-presenting cells, stimulating the proliferation and differentiation of T cells and NK cells, and inducing the production of other cytokines and chemokines. Additionally, IFN-γ has direct antiproliferative effects on certain types of tumor cells and can enhance the cytotoxic activity of immune cells against infected or malignant cells.

Cytotoxic T-lymphocytes, also known as CD8+ T cells, are a type of white blood cell that plays a central role in the cell-mediated immune system. They are responsible for identifying and destroying virus-infected cells and cancer cells. When a cytotoxic T-lymphocyte recognizes a specific antigen presented on the surface of an infected or malignant cell, it becomes activated and releases toxic substances such as perforins and granzymes, which can create pores in the target cell's membrane and induce apoptosis (programmed cell death). This process helps to eliminate the infected or malignant cells and prevent the spread of infection or cancer.

Antibody specificity refers to the ability of an antibody to bind to a specific epitope or antigenic determinant on an antigen. Each antibody has a unique structure that allows it to recognize and bind to a specific region of an antigen, typically a small portion of the antigen's surface made up of amino acids or sugar residues. This highly specific binding is mediated by the variable regions of the antibody's heavy and light chains, which form a pocket that recognizes and binds to the epitope.

The specificity of an antibody is determined by its unique complementarity-determining regions (CDRs), which are loops of amino acids located in the variable domains of both the heavy and light chains. The CDRs form a binding site that recognizes and interacts with the epitope on the antigen. The precise fit between the antibody's binding site and the epitope is critical for specificity, as even small changes in the structure of either can prevent binding.

Antibody specificity is important in immune responses because it allows the immune system to distinguish between self and non-self antigens. This helps to prevent autoimmune reactions where the immune system attacks the body's own cells and tissues. Antibody specificity also plays a crucial role in diagnostic tests, such as ELISA assays, where antibodies are used to detect the presence of specific antigens in biological samples.

Viral hepatitis vaccines are vaccines that prevent infection caused by various hepatitis viruses, including hepatitis A and B. These vaccines contain antigens that stimulate the immune system to produce antibodies that protect against infection with the corresponding virus. The vaccines are typically administered through injection and may require multiple doses for full protection.

The hepatitis A vaccine is made from inactivated hepatitis A virus, while the hepatitis B vaccine is made from recombinant hepatitis B surface antigen. Both vaccines have been shown to be highly effective in preventing infection and reducing the risk of complications associated with viral hepatitis, such as liver disease and liver cancer.

It's important to note that there are no vaccines available for other types of viral hepatitis, such as hepatitis C, D, or E. Prevention strategies for these types of viral hepatitis typically involve measures to reduce exposure to the virus, such as safe injection practices and avoiding high-risk behaviors like sharing needles or having unprotected sex with infected individuals.

An immunization schedule is a series of planned dates when a person, usually a child, should receive specific vaccines in order to be fully protected against certain preventable diseases. The schedule is developed based on scientific research and recommendations from health organizations such as the World Health Organization (WHO) and the Centers for Disease Control and Prevention (CDC).

The immunization schedule outlines which vaccines are recommended, the number of doses required, the age at which each dose should be given, and the minimum amount of time that must pass between doses. The schedule may vary depending on factors such as the individual's age, health status, and travel plans.

Immunization schedules are important for ensuring that individuals receive timely protection against vaccine-preventable diseases, and for maintaining high levels of immunity in populations, which helps to prevent the spread of disease. It is important to follow the recommended immunization schedule as closely as possible to ensure optimal protection.

Poliovirus Vaccine, Inactivated (IPV) is a vaccine used to prevent poliomyelitis (polio), a highly infectious disease caused by the poliovirus. IPV contains inactivated (killed) polioviruses of all three poliovirus types. It works by stimulating an immune response in the body, but because the viruses are inactivated, they cannot cause polio. After vaccination, the immune system recognizes and responds to the inactivated viruses, producing antibodies that protect against future infection with wild, or naturally occurring, polioviruses. IPV is typically given as an injection in the leg or arm, and a series of doses are required for full protection. It is a safe and effective way to prevent polio and its complications.

Protein biosynthesis is the process by which cells generate new proteins. It involves two major steps: transcription and translation. Transcription is the process of creating a complementary RNA copy of a sequence of DNA. This RNA copy, or messenger RNA (mRNA), carries the genetic information to the site of protein synthesis, the ribosome. During translation, the mRNA is read by transfer RNA (tRNA) molecules, which bring specific amino acids to the ribosome based on the sequence of nucleotides in the mRNA. The ribosome then links these amino acids together in the correct order to form a polypeptide chain, which may then fold into a functional protein. Protein biosynthesis is essential for the growth and maintenance of all living organisms.

"Spodoptera" is not a medical term, but a genus name in the insect family Noctuidae. It includes several species of moths commonly known as armyworms or cutworms due to their habit of consuming leaves and roots of various plants, causing significant damage to crops.

Some well-known species in this genus are Spodoptera frugiperda (fall armyworm), Spodoptera litura (tobacco cutworm), and Spodoptera exigua (beet armyworm). These pests can be a concern for medical entomology when they transmit pathogens or cause allergic reactions. For instance, their frass (feces) and shed skins may trigger asthma symptoms in susceptible individuals. However, the insects themselves are not typically considered medical issues unless they directly affect human health.

Cytoplasm is the material within a eukaryotic cell (a cell with a true nucleus) that lies between the nuclear membrane and the cell membrane. It is composed of an aqueous solution called cytosol, in which various organelles such as mitochondria, ribosomes, endoplasmic reticulum, Golgi apparatus, lysosomes, and vacuoles are suspended. Cytoplasm also contains a variety of dissolved nutrients, metabolites, ions, and enzymes that are involved in various cellular processes such as metabolism, signaling, and transport. It is where most of the cell's metabolic activities take place, and it plays a crucial role in maintaining the structure and function of the cell.

Spinal ganglia, also known as dorsal root ganglia, are clusters of nerve cell bodies located in the peripheral nervous system. They are situated along the length of the spinal cord and are responsible for transmitting sensory information from the body to the brain. Each spinal ganglion contains numerous neurons, or nerve cells, with long processes called axons that extend into the periphery and innervate various tissues and organs. The cell bodies within the spinal ganglia receive sensory input from these axons and transmit this information to the central nervous system via the dorsal roots of the spinal nerves. This allows the brain to interpret and respond to a wide range of sensory stimuli, including touch, temperature, pain, and proprioception (the sense of the position and movement of one's body).

Recurrence, in a medical context, refers to the return of symptoms or signs of a disease after a period of improvement or remission. It indicates that the condition has not been fully eradicated and may require further treatment. Recurrence is often used to describe situations where a disease such as cancer comes back after initial treatment, but it can also apply to other medical conditions. The likelihood of recurrence varies depending on the type of disease and individual patient factors.

Haemophilus vaccines are vaccines that are designed to protect against Haemophilus influenzae type b (Hib), a bacterium that can cause serious infections such as meningitis, pneumonia, and epiglottitis. There are two main types of Hib vaccines:

1. Polysaccharide vaccine: This type of vaccine is made from the sugar coating (polysaccharide) of the bacterial cells. It is not effective in children under 2 years of age because their immune systems are not yet mature enough to respond effectively to this type of vaccine.
2. Conjugate vaccine: This type of vaccine combines the polysaccharide with a protein carrier, which helps to stimulate a stronger and more sustained immune response. It is effective in infants as young as 6 weeks old.

Hib vaccines are usually given as part of routine childhood immunizations starting at 2 months of age. They are administered through an injection into the muscle. The vaccine is safe and effective, with few side effects. Vaccination against Hib has led to a significant reduction in the incidence of Hib infections worldwide.

Herpesvirus 1, Equid (EHV-1) is a DNA virus belonging to the family Herpesviridae and subfamily Alphaherpesvirinae. It is a species-specific virus that primarily infects horses, donkeys, and mules. The virus is also known as equine abortion virus, equine rhinitis virus type A, and equine herpesvirus 1.

EHV-1 can cause a range of clinical signs in infected animals, including respiratory disease, abortion in pregnant mares, and neurological disorders. The virus is primarily spread through direct contact with infected animals or their respiratory secretions, and it can also be spread through contaminated objects such as tack and feed buckets.

Once an animal is infected with EHV-1, the virus becomes latent in the nervous system and may reactivate later, causing recurrent disease. There is no cure for EHV-1 infection, but vaccines are available to help reduce the severity of clinical signs and prevent the spread of the virus.

BCG (Bacillus Calmette-Guérin) vaccine is a type of immunization used primarily to prevent tuberculosis (TB). It contains a live but weakened strain of Mycobacterium bovis, which is related to the bacterium that causes TB in humans (Mycobacterium tuberculosis).

The BCG vaccine works by stimulating an immune response in the body, enabling it to better resist infection with TB bacteria if exposed in the future. It is often given to infants and children in countries where TB is common, and its use varies depending on the national immunization policies. The protection offered by the BCG vaccine is moderate and may not last for a very long time.

In addition to its use against TB, the BCG vaccine has also been investigated for its potential therapeutic role in treating bladder cancer and some other types of cancer. The mechanism of action in these cases is thought to be related to the vaccine's ability to stimulate an immune response against abnormal cells.

Repetitive sequences in nucleic acid refer to repeated stretches of DNA or RNA nucleotide bases that are present in a genome. These sequences can vary in length and can be arranged in different patterns such as direct repeats, inverted repeats, or tandem repeats. In some cases, these repetitive sequences do not code for proteins and are often found in non-coding regions of the genome. They can play a role in genetic instability, regulation of gene expression, and evolutionary processes. However, certain types of repeat expansions have been associated with various neurodegenerative disorders and other human diseases.

Baculoviridae is a family of large, double-stranded DNA viruses that infect arthropods, particularly insects. The virions (virus particles) are enclosed in a rod-shaped or occlusion body called a polyhedron, which provides protection and stability in the environment. Baculoviruses have a wide host range within the order Lepidoptera (moths and butterflies), Hymenoptera (sawflies, bees, wasps, and ants), and Diptera (flies). They are important pathogens in agriculture and forestry, causing significant damage to insect pests.

The Baculoviridae family is divided into four genera: Alphabaculovirus, Betabaculovirus, Gammabaculovirus, and Deltabaculovirus. The two most well-studied and economically important genera are Alphabaculovirus (nuclear polyhedrosis viruses or NPVs) and Betabaculovirus (granulosis viruses or GVs).

Baculoviruses have a biphasic replication cycle, consisting of a budded phase and an occluded phase. During the budded phase, the virus infects host cells and produces enveloped virions that can spread to other cells within the insect. In the occluded phase, large numbers of non-enveloped virions are produced and encapsidated in a protein matrix called a polyhedron. These polyhedra accumulate in the infected insect's tissues, providing protection from environmental degradation and facilitating transmission to new hosts through oral ingestion or other means.

Baculoviruses have been extensively studied as models for understanding viral replication, gene expression, and host-pathogen interactions. They also have potential applications in biotechnology and pest control, including the production of recombinant proteins, gene therapy vectors, and environmentally friendly insecticides.

Thymidine is a pyrimidine nucleoside that consists of a thymine base linked to a deoxyribose sugar by a β-N1-glycosidic bond. It plays a crucial role in DNA replication and repair processes as one of the four nucleosides in DNA, along with adenosine, guanosine, and cytidine. Thymidine is also used in research and clinical settings for various purposes, such as studying DNA synthesis or as a component of antiviral and anticancer therapies.

Gene transfer techniques, also known as gene therapy, refer to medical procedures where genetic material is introduced into an individual's cells or tissues to treat or prevent diseases. This can be achieved through various methods:

1. **Viral Vectors**: The most common method uses modified viruses, such as adenoviruses, retroviruses, or lentiviruses, to carry the therapeutic gene into the target cells. The virus infects the cell and inserts the new gene into the cell's DNA.

2. **Non-Viral Vectors**: These include methods like electroporation (using electric fields to create pores in the cell membrane), gene guns (shooting gold particles coated with DNA into cells), or liposomes (tiny fatty bubbles that can enclose DNA).

3. **Direct Injection**: In some cases, the therapeutic gene can be directly injected into a specific tissue or organ.

The goal of gene transfer techniques is to supplement or replace a faulty gene with a healthy one, thereby correcting the genetic disorder. However, these techniques are still largely experimental and have their own set of challenges, including potential immune responses, issues with accurate targeting, and risks of mutations or cancer development.

Infectious skin diseases are conditions characterized by an infection or infestation of the skin caused by various microorganisms such as bacteria, viruses, fungi, or parasites. These organisms invade the skin, causing inflammation, redness, itching, pain, and other symptoms. Examples of infectious skin diseases include:

1. Bacterial infections: Cellulitis, impetigo, folliculitis, and MRSA (methicillin-resistant Staphylococcus aureus) infections are examples of bacterial skin infections.
2. Viral infections: Herpes simplex virus (HSV), varicella-zoster virus (VZV), human papillomavirus (HPV), and molluscum contagiosum are common viruses that can cause skin infections.
3. Fungal infections: Tinea pedis (athlete's foot), tinea corporis (ringworm), candidiasis (yeast infection), and pityriasis versicolor are examples of fungal skin infections.
4. Parasitic infestations: Scabies, lice, and bed bugs are examples of parasites that can cause infectious skin diseases.

Treatment for infectious skin diseases depends on the underlying cause and may include topical or oral antibiotics, antiviral medications, antifungal treatments, or insecticides to eliminate parasitic infestations. Proper hygiene, wound care, and avoiding contact with infected individuals can help prevent the spread of infectious skin diseases.

Sensory ganglia are clusters of nerve cell bodies located outside the central nervous system (the brain and spinal cord). They are primarily associated with sensory neurons, which are responsible for transmitting sensory information from various parts of the body to the central nervous system.

In humans, there are two main types of sensory ganglia: dorsal root ganglia and cranial nerve ganglia. Dorsal root ganglia are located along the spinal cord and contain the cell bodies of sensory neurons that innervate the skin, muscles, joints, and other tissues of the body. These neurons transmit information about touch, temperature, pain, and proprioception (the sense of the position and movement of the body).

Cranial nerve ganglia are associated with the cranial nerves, which are responsible for transmitting sensory information from the head and neck to the brain. For example, the trigeminal ganglion is a cranial nerve ganglion that contains the cell bodies of neurons that transmit sensory information from the face, mouth, and other structures of the head.

Overall, sensory ganglia play a critical role in our ability to perceive and interact with the world around us by transmitting important sensory information to the brain for processing.

'Immune sera' refers to the serum fraction of blood that contains antibodies produced in response to an antigenic stimulus, such as a vaccine or an infection. These antibodies are proteins known as immunoglobulins, which are secreted by B cells (a type of white blood cell) and can recognize and bind to specific antigens. Immune sera can be collected from an immunized individual and used as a source of passive immunity to protect against infection or disease. It is often used in research and diagnostic settings to identify or measure the presence of specific antigens or antibodies.

Hemagglutinins are glycoprotein spikes found on the surface of influenza viruses. They play a crucial role in the viral infection process by binding to sialic acid receptors on host cells, primarily in the respiratory tract. After attachment, hemagglutinins mediate the fusion of the viral and host cell membranes, allowing the viral genome to enter the host cell and initiate replication.

There are 18 different subtypes of hemagglutinin (H1-H18) identified in influenza A viruses, which naturally infect various animal species, including birds, pigs, and humans. The specificity of hemagglutinins for particular sialic acid receptors can influence host range and tissue tropism, contributing to the zoonotic potential of certain influenza A virus subtypes.

Hemagglutination inhibition (HI) assays are commonly used in virology and epidemiology to measure the antibody response to influenza viruses and determine vaccine effectiveness. In these assays, hemagglutinins bind to red blood cells coated with sialic acid receptors, forming a diffuse mat of cells that can be observed visually. The addition of specific antisera containing antibodies against the hemagglutinin prevents this binding and results in the formation of discrete buttons of red blood cells, indicating a positive HI titer and the presence of neutralizing antibodies.

Simian Immunodeficiency Virus (SIV) is a retrovirus that primarily infects African non-human primates and is the direct ancestor of Human Immunodeficiency Virus type 2 (HIV-2). It is similar to HIV in its structure, replication strategy, and ability to cause an immunodeficiency disease in its host. SIV infection in its natural hosts is typically asymptomatic and non-lethal, but it can cause AIDS-like symptoms in other primate species. Research on SIV in its natural hosts has provided valuable insights into the mechanisms of HIV pathogenesis and potential strategies for prevention and treatment of AIDS.

West Nile Virus (WNV) is an Flavivirus, which is a type of virus that is spread by mosquitoes. It was first discovered in the West Nile district of Uganda in 1937 and has since been found in many countries throughout the world. WNV can cause a mild to severe illness known as West Nile fever.

Most people who become infected with WNV do not develop any symptoms, but some may experience fever, headache, body aches, joint pain, vomiting, diarrhea, or a rash. In rare cases, the virus can cause serious neurological illnesses such as encephalitis (inflammation of the brain) or meningitis (inflammation of the membranes surrounding the brain and spinal cord). These severe forms of the disease can be fatal, especially in older adults and people with weakened immune systems.

WNV is primarily transmitted to humans through the bite of infected mosquitoes, but it can also be spread through blood transfusions, organ transplants, or from mother to baby during pregnancy, delivery, or breastfeeding. There is no specific treatment for WNV, and most people recover on their own with rest and supportive care. However, hospitalization may be necessary in severe cases. Prevention measures include avoiding mosquito bites by using insect repellent, wearing long sleeves and pants, and staying indoors during peak mosquito activity hours.

A gene is a specific sequence of nucleotides in DNA that carries genetic information. Genes are the fundamental units of heredity and are responsible for the development and function of all living organisms. They code for proteins or RNA molecules, which carry out various functions within cells and are essential for the structure, function, and regulation of the body's tissues and organs.

Each gene has a specific location on a chromosome, and each person inherits two copies of every gene, one from each parent. Variations in the sequence of nucleotides in a gene can lead to differences in traits between individuals, including physical characteristics, susceptibility to disease, and responses to environmental factors.

Medical genetics is the study of genes and their role in health and disease. It involves understanding how genes contribute to the development and progression of various medical conditions, as well as identifying genetic risk factors and developing strategies for prevention, diagnosis, and treatment.

Chickenpox is a highly contagious viral infection caused by the varicella-zoster virus. It is characterized by an itchy, blister-like rash that typically covers the body and can also affect the mouth, eyes, and scalp. The rash progresses through various stages, from red bumps to fluid-filled blisters to scabs, before ultimately healing.

Chickenpox is usually a mild disease in children but can be more severe in adults, pregnant women, and individuals with weakened immune systems. Common symptoms include fever, fatigue, headache, and loss of appetite, which often precede the onset of the rash. The infection typically lasts about 1-2 weeks, and once a person has had chickenpox, they usually develop immunity to future infections.

A vaccine is available to prevent chickenpox, and it is routinely administered to children as part of their childhood vaccination schedule. In some cases, the vaccine may be recommended for adults who have not had chickenpox or been vaccinated previously.

Mucosal immunity refers to the immune system's defense mechanisms that are specifically adapted to protect the mucous membranes, which line various body openings such as the respiratory, gastrointestinal, and urogenital tracts. These membranes are constantly exposed to foreign substances, including potential pathogens, and therefore require a specialized immune response to maintain homeostasis and prevent infection.

Mucosal immunity is primarily mediated by secretory IgA (SIgA) antibodies, which are produced by B cells in the mucosa-associated lymphoid tissue (MALT). These antibodies can neutralize pathogens and prevent them from adhering to and invading the epithelial cells that line the mucous membranes.

In addition to SIgA, other components of the mucosal immune system include innate immune cells such as macrophages, dendritic cells, and neutrophils, which can recognize and respond to pathogens through pattern recognition receptors (PRRs). T cells also play a role in mucosal immunity, particularly in the induction of cell-mediated immunity against viruses and other intracellular pathogens.

Overall, mucosal immunity is an essential component of the body's defense system, providing protection against a wide range of potential pathogens while maintaining tolerance to harmless antigens present in the environment.

A medical definition of an ulcer is:

A lesion on the skin or mucous membrane characterized by disintegration of surface epithelium, inflammation, and is associated with the loss of substance below the normal lining. Gastric ulcers and duodenal ulcers are types of peptic ulcers that occur in the gastrointestinal tract.

Another type of ulcer is a venous ulcer, which occurs when there is reduced blood flow from vein insufficiency, usually in the lower leg. This can cause skin damage and lead to an open sore or ulcer.

There are other types of ulcers as well, including decubitus ulcers (also known as pressure sores or bedsores), which are caused by prolonged pressure on the skin.

The Yellow Fever Vaccine is a vaccine that protects against the yellow fever virus, which is transmitted to humans through the bites of infected mosquitoes. The vaccine contains live, weakened yellow fever virus, and it works by stimulating the immune system to produce an immune response that provides protection against the disease.

The yellow fever vaccine is recommended for people who are traveling to areas where yellow fever is common, including parts of Africa and South America. It is also required for entry into some countries in these regions. The vaccine is generally safe and effective, but it can cause mild side effects such as headache, muscle pain, and fever in some people. Serious side effects are rare, but may include allergic reactions or infection with the weakened virus used in the vaccine.

It's important to note that yellow fever vaccine may not be recommended for certain individuals, including infants younger than 6 months, pregnant women, people with weakened immune systems, and those with a history of severe allergic reaction to a previous dose of the vaccine or any component of the vaccine. It is always best to consult with a healthcare provider before receiving any vaccination.

Interferons (IFNs) are a group of signaling proteins made and released by host cells in response to the presence of pathogens such as viruses, bacteria, parasites, or tumor cells. They belong to the larger family of cytokines and are crucial for the innate immune system's defense against infections. Interferons exist in multiple forms, classified into three types: type I (alpha and beta), type II (gamma), and type III (lambda). These proteins play a significant role in modulating the immune response, inhibiting viral replication, regulating cell growth, and promoting apoptosis of infected cells. Interferons are used as therapeutic agents for various medical conditions, including certain viral infections, cancers, and autoimmune diseases.

Virosomes are artificially constructed spherical vesicles composed of lipids and viral envelope proteins. They are used as a delivery system for vaccines and other therapeutic agents. In the context of vaccines, virosomes can be used to present viral antigens to the immune system in a way that mimics a natural infection, thereby inducing a strong immune response.

Virosome-based vaccines have several advantages over traditional vaccines. For example, they are non-infectious, meaning they do not contain live or attenuated viruses, which makes them safer for certain populations such as immunocompromised individuals. Additionally, virosomes can be engineered to target specific cells in the body, leading to more efficient uptake and presentation of antigens to the immune system.

Virosome-based vaccines have been developed for a variety of diseases, including influenza, hepatitis A, and HIV. While they are not yet widely used, they show promise as a safe and effective alternative to traditional vaccine approaches.

Rotavirus vaccines are preventive measures used to protect against rotavirus infections, which are the leading cause of severe diarrhea and dehydration among infants and young children worldwide. These vaccines contain weakened or inactivated forms of the rotavirus, a pathogen that infects and causes symptoms by multiplying inside cells lining the small intestine.

The weakened or inactivated virus in the vaccine stimulates an immune response in the body, enabling it to recognize and fight off future rotavirus infections more effectively. The vaccines are usually administered orally, as a liquid droplet or on a sugar cube, to mimic natural infection through the gastrointestinal tract.

There are currently two licensed rotavirus vaccines available globally:

1. Rotarix (GlaxoSmithKline): This vaccine contains an attenuated (weakened) strain of human rotavirus and is given in a two-dose series, typically at 2 and 4 months of age.
2. RotaTeq (Merck): This vaccine contains five reassortant viruses, combining human and animal strains to provide broader protection. It is administered in a three-dose series, usually at 2, 4, and 6 months of age.

Rotavirus vaccines have been shown to significantly reduce the incidence of severe rotavirus gastroenteritis and related hospitalizations among infants and young children. The World Health Organization (WHO) recommends the inclusion of rotavirus vaccination in national immunization programs, particularly in countries with high child mortality rates due to diarrheal diseases.

Genetic engineering, also known as genetic modification, is a scientific process where the DNA or genetic material of an organism is manipulated to bring about a change in its characteristics. This is typically done by inserting specific genes into the organism's genome using various molecular biology techniques. These new genes may come from the same species (cisgenesis) or a different species (transgenesis). The goal is to produce a desired trait, such as resistance to pests, improved nutritional content, or increased productivity. It's widely used in research, medicine, and agriculture. However, it's important to note that the use of genetically engineered organisms can raise ethical, environmental, and health concerns.

Viral load refers to the amount or quantity of virus (like HIV, Hepatitis C, SARS-CoV-2) present in an individual's blood or bodily fluids. It is often expressed as the number of virus copies per milliliter of blood or fluid. Monitoring viral load is important in managing and treating certain viral infections, as a higher viral load may indicate increased infectivity, disease progression, or response to treatment.

HIV-1 (Human Immunodeficiency Virus type 1) is a species of the retrovirus genus that causes acquired immunodeficiency syndrome (AIDS). It is primarily transmitted through sexual contact, exposure to infected blood or blood products, and from mother to child during pregnancy, childbirth, or breastfeeding. HIV-1 infects vital cells in the human immune system, such as CD4+ T cells, macrophages, and dendritic cells, leading to a decline in their numbers and weakening of the immune response over time. This results in the individual becoming susceptible to various opportunistic infections and cancers that ultimately cause death if left untreated. HIV-1 is the most prevalent form of HIV worldwide and has been identified as the causative agent of the global AIDS pandemic.

Genital diseases in males refer to various medical conditions that affect the male reproductive and urinary systems, including the penis, testicles, epididymis, vas deferens, seminal vesicles, prostate, and urethra. These conditions can be infectious, inflammatory, degenerative, or neoplastic (cancerous) in nature. Some common examples of male genital diseases include:

1. Balanitis: Inflammation of the foreskin and glans penis, often caused by infection, irritants, or poor hygiene.
2. Prostatitis: Inflammation of the prostate gland, which can be acute or chronic, bacterial or non-bacterial in origin.
3. Epididymitis: Inflammation of the epididymis, a coiled tube at the back of the testicle that stores and carries sperm. It is often caused by infection.
4. Orchitis: Inflammation of the testicle, usually resulting from infection or autoimmune disorders.
5. Testicular torsion: A surgical emergency characterized by twisting of the spermatic cord, leading to reduced blood flow and potential tissue damage in the testicle.
6. Varicocele: Dilated veins in the scrotum that can cause pain, discomfort, or fertility issues.
7. Peyronie's disease: A connective tissue disorder causing scarring and curvature of the penis during erections.
8. Penile cancer: Malignant growths on the penis, often squamous cell carcinomas, which can spread to other parts of the body if left untreated.
9. Benign prostatic hyperplasia (BPH): Non-cancerous enlargement of the prostate gland that can cause lower urinary tract symptoms such as difficulty initiating or maintaining a steady stream of urine.
10. Sexually transmitted infections (STIs): Infectious diseases, like chlamydia, gonorrhea, syphilis, and human papillomavirus (HPV), that can be transmitted through sexual contact and affect the male genital region.

Medical Definition of "Herpesvirus 4, Human" (Epstein-Barr Virus)

"Herpesvirus 4, Human," also known as Epstein-Barr virus (EBV), is a member of the Herpesviridae family and is one of the most common human viruses. It is primarily transmitted through saliva and is often referred to as the "kissing disease."

EBV is the causative agent of infectious mononucleosis (IM), also known as glandular fever, which is characterized by symptoms such as fatigue, sore throat, fever, and swollen lymph nodes. The virus can also cause other diseases, including certain types of cancer, such as Burkitt's lymphoma, Hodgkin's lymphoma, and nasopharyngeal carcinoma.

Once a person becomes infected with EBV, the virus remains in the body for the rest of their life, residing in certain white blood cells called B lymphocytes. In most people, the virus remains dormant and does not cause any further symptoms. However, in some individuals, the virus may reactivate, leading to recurrent or persistent symptoms.

EBV infection is diagnosed through various tests, including blood tests that detect antibodies against the virus or direct detection of the virus itself through polymerase chain reaction (PCR) assays. There is no cure for EBV infection, and treatment is generally supportive, focusing on relieving symptoms and managing complications. Prevention measures include practicing good hygiene, avoiding close contact with infected individuals, and not sharing personal items such as toothbrushes or drinking glasses.

The eye is the organ of sight, primarily responsible for detecting and focusing on visual stimuli. It is a complex structure composed of various parts that work together to enable vision. Here are some of the main components of the eye:

1. Cornea: The clear front part of the eye that refracts light entering the eye and protects the eye from harmful particles and microorganisms.
2. Iris: The colored part of the eye that controls the amount of light reaching the retina by adjusting the size of the pupil.
3. Pupil: The opening in the center of the iris that allows light to enter the eye.
4. Lens: A biconvex structure located behind the iris that further refracts light and focuses it onto the retina.
5. Retina: A layer of light-sensitive cells (rods and cones) at the back of the eye that convert light into electrical signals, which are then transmitted to the brain via the optic nerve.
6. Optic Nerve: The nerve that carries visual information from the retina to the brain.
7. Vitreous: A clear, gel-like substance that fills the space between the lens and the retina, providing structural support to the eye.
8. Conjunctiva: A thin, transparent membrane that covers the front of the eye and the inner surface of the eyelids.
9. Extraocular Muscles: Six muscles that control the movement of the eye, allowing for proper alignment and focus.

The eye is a remarkable organ that allows us to perceive and interact with our surroundings. Various medical specialties, such as ophthalmology and optometry, are dedicated to the diagnosis, treatment, and management of various eye conditions and diseases.

Molecular weight, also known as molecular mass, is the mass of a molecule. It is expressed in units of atomic mass units (amu) or daltons (Da). Molecular weight is calculated by adding up the atomic weights of each atom in a molecule. It is a useful property in chemistry and biology, as it can be used to determine the concentration of a substance in a solution, or to calculate the amount of a substance that will react with another in a chemical reaction.

Cholera vaccines are preventive measures used to protect against the infection caused by the bacterium Vibrio cholerae. There are several types of cholera vaccines available, including:

1. Inactivated oral vaccine (ICCV): This vaccine contains killed whole-cell bacteria and is given in two doses, with each dose administered at least 14 days apart. It provides protection for up to six months and can be given to adults and children over the age of one year.
2. Live attenuated oral vaccine (LCV): This vaccine contains weakened live bacteria that are unable to cause disease but still stimulate an immune response. The most commonly used LCV is called CVD 103-HgR, which is given in a single dose and provides protection for up to three months. It can be given to adults and children over the age of six years.
3. Injectable cholera vaccine: This vaccine contains inactivated bacteria and is given as an injection. It is not widely available and its effectiveness is limited compared to oral vaccines.

Cholera vaccines are recommended for travelers visiting areas with known cholera outbreaks, particularly if they plan to eat food or drink water that may be contaminated. They can also be used in response to outbreaks to help control the spread of the disease. However, it is important to note that vaccination alone is not sufficient to prevent cholera infection and good hygiene practices, such as handwashing and safe food handling, should always be followed.

Virology is the study of viruses, their classification, and their effects on living organisms. It involves the examination of viral genetic material, viral replication, how viruses cause disease, and the development of antiviral drugs and vaccines to treat or prevent virus infections. Virologists study various types of viruses that can infect animals, plants, and microorganisms, as well as understand their evolution and transmission patterns.

I believe there may be a slight confusion in your question. AIDS is a condition caused by the human immunodeficiency virus (HIV) infection, and it weakens the immune system, making people more susceptible to other infections and diseases. There is no vaccine for AIDS itself. However, there are vaccines being developed and tested to prevent HIV infection, which would help prevent AIDS from developing.

SAIDS is not a medical term. If you meant to ask about "HIV vaccines," I can provide a definition:

An HIV vaccine aims to stimulate the immune system to produce an effective response against the human immunodeficiency virus (HIV). An effective HIV vaccine would ideally prevent the initial infection or significantly reduce viral replication and disease progression in infected individuals. Currently, no licensed HIV vaccines are available, but research is ongoing to develop a protective vaccine against HIV infection.

Ebola vaccines are medical products designed to confer immunity against the Ebola virus, a deadly pathogen that causes hemorrhagic fever. Several Ebola vaccine candidates have been developed and tested in clinical trials, with some showing promising results. The most advanced Ebola vaccine is rVSV-ZEBOV, which has been shown to be highly effective in preventing the disease in clinical trials. It uses a weakened version of the vesicular stomatitis virus (VSV) to deliver a protein from the Ebola virus surface, triggering an immune response that protects against infection. Other Ebola vaccine candidates use different approaches, such as delivering Ebola virus genes using a harmless adenovirus vector or using inactivated whole Ebola viruses. These vaccines are still in development and have not yet been approved for widespread use.

Complement fixation tests are a type of laboratory test used in immunology and serology to detect the presence of antibodies in a patient's serum. These tests are based on the principle of complement activation, which is a part of the immune response. The complement system consists of a group of proteins that work together to help eliminate pathogens from the body.

In a complement fixation test, the patient's serum is mixed with a known antigen and complement proteins. If the patient has antibodies against the antigen, they will bind to it and activate the complement system. This results in the consumption or "fixation" of the complement proteins, which are no longer available to participate in a secondary reaction.

A second step involves adding a fresh source of complement proteins and a dye-labeled antibody that recognizes a specific component of the complement system. If complement was fixed during the first step, it will not be available for this secondary reaction, and the dye-labeled antibody will remain unbound. Conversely, if no antibodies were present in the patient's serum, the complement proteins would still be available for the second reaction, leading to the binding of the dye-labeled antibody.

The mixture is then examined under a microscope or using a spectrophotometer to determine whether the dye-labeled antibody has bound. If it has not, this indicates that the patient's serum contains antibodies specific to the antigen used in the test, and a positive result is recorded.

Complement fixation tests have been widely used for the diagnosis of various infectious diseases, such as syphilis, measles, and influenza. However, they have largely been replaced by more modern serological techniques, like enzyme-linked immunosorbent assays (ELISAs) and nucleic acid amplification tests (NAATs), due to their increased sensitivity, specificity, and ease of use.

CD4-positive T-lymphocytes, also known as CD4+ T cells or helper T cells, are a type of white blood cell that plays a crucial role in the immune response. They express the CD4 receptor on their surface and help coordinate the immune system's response to infectious agents such as viruses and bacteria.

CD4+ T cells recognize and bind to specific antigens presented by antigen-presenting cells, such as dendritic cells or macrophages. Once activated, they can differentiate into various subsets of effector cells, including Th1, Th2, Th17, and Treg cells, each with distinct functions in the immune response.

CD4+ T cells are particularly important in the immune response to HIV (human immunodeficiency virus), which targets and destroys these cells, leading to a weakened immune system and increased susceptibility to opportunistic infections. The number of CD4+ T cells is often used as a marker of disease progression in HIV infection, with lower counts indicating more advanced disease.

The Herpes Zoster vaccine, also known as the shingles vaccine, is a preventive measure against the reactivation of the varicella-zoster virus (VZV) in individuals who have previously had chickenpox. The vaccine contains a live but weakened form of VZV that boosts the immune system's ability to recognize and fight off the virus, thereby reducing the risk of developing shingles and its complications. It is typically administered as a single dose for people aged 50 and older, or as a two-dose series for those aged 19 and older who have weakened immune systems.

The Measles-Mumps-Rubella (MMR) vaccine is a combination immunization that protects against three infectious diseases: measles, mumps, and rubella. It contains live attenuated viruses of each disease, which stimulate an immune response in the body similar to that produced by natural infection but do not cause the diseases themselves.

The MMR vaccine is typically given in two doses, the first at 12-15 months of age and the second at 4-6 years of age. It is highly effective in preventing these diseases, with over 90% effectiveness reported after a single dose and near 100% effectiveness after the second dose.

Measles is a highly contagious viral disease that can cause fever, rash, cough, runny nose, and red, watery eyes. It can also lead to serious complications such as pneumonia, encephalitis (inflammation of the brain), and even death.

Mumps is a viral infection that primarily affects the salivary glands, causing swelling and tenderness in the cheeks and jaw. It can also cause fever, headache, muscle aches, and fatigue. Mumps can lead to serious complications such as deafness, meningitis (inflammation of the membranes surrounding the brain and spinal cord), and inflammation of the testicles or ovaries.

Rubella, also known as German measles, is a viral infection that typically causes a mild fever, rash, and swollen lymph nodes. However, if a pregnant woman becomes infected with rubella, it can cause serious birth defects such as hearing impairment, heart defects, and developmental delays in the fetus.

The MMR vaccine is an important tool in preventing these diseases and protecting public health.

Yellow fever virus (YFV) is an single-stranded RNA virus belonging to the Flaviviridae family, genus Flavivirus. It is primarily transmitted to humans through the bite of infected mosquitoes, most commonly Aedes and Haemagogus species. The virus is named for the jaundice that can occur in some patients, giving their skin and eyes a yellowish color.

Yellow fever is endemic in tropical regions of Africa and South America, with outbreaks occurring when large numbers of people are infected. After an incubation period of 3 to 6 days, symptoms typically begin with fever, chills, headache, back pain, and muscle aches. In more severe cases, the infection can progress to cause bleeding, organ failure, and death.

Prevention measures include vaccination, mosquito control, and personal protective measures such as wearing long sleeves and using insect repellent in areas where yellow fever is endemic or outbreaks are occurring.

Electrophoresis, polyacrylamide gel (EPG) is a laboratory technique used to separate and analyze complex mixtures of proteins or nucleic acids (DNA or RNA) based on their size and electrical charge. This technique utilizes a matrix made of cross-linked polyacrylamide, a type of gel, which provides a stable and uniform environment for the separation of molecules.

In this process:

1. The polyacrylamide gel is prepared by mixing acrylamide monomers with a cross-linking agent (bis-acrylamide) and a catalyst (ammonium persulfate) in the presence of a buffer solution.
2. The gel is then poured into a mold and allowed to polymerize, forming a solid matrix with uniform pore sizes that depend on the concentration of acrylamide used. Higher concentrations result in smaller pores, providing better resolution for separating smaller molecules.
3. Once the gel has set, it is placed in an electrophoresis apparatus containing a buffer solution. Samples containing the mixture of proteins or nucleic acids are loaded into wells on the top of the gel.
4. An electric field is applied across the gel, causing the negatively charged molecules to migrate towards the positive electrode (anode) while positively charged molecules move toward the negative electrode (cathode). The rate of migration depends on the size, charge, and shape of the molecules.
5. Smaller molecules move faster through the gel matrix and will migrate farther from the origin compared to larger molecules, resulting in separation based on size. Proteins and nucleic acids can be selectively stained after electrophoresis to visualize the separated bands.

EPG is widely used in various research fields, including molecular biology, genetics, proteomics, and forensic science, for applications such as protein characterization, DNA fragment analysis, cloning, mutation detection, and quality control of nucleic acid or protein samples.

Gene expression is the process by which the information encoded in a gene is used to synthesize a functional gene product, such as a protein or RNA molecule. This process involves several steps: transcription, RNA processing, and translation. During transcription, the genetic information in DNA is copied into a complementary RNA molecule, known as messenger RNA (mRNA). The mRNA then undergoes RNA processing, which includes adding a cap and tail to the mRNA and splicing out non-coding regions called introns. The resulting mature mRNA is then translated into a protein on ribosomes in the cytoplasm through the process of translation.

The regulation of gene expression is a complex and highly controlled process that allows cells to respond to changes in their environment, such as growth factors, hormones, and stress signals. This regulation can occur at various stages of gene expression, including transcriptional activation or repression, RNA processing, mRNA stability, and translation. Dysregulation of gene expression has been implicated in many diseases, including cancer, genetic disorders, and neurological conditions.

DNA Sequence Analysis is the systematic determination of the order of nucleotides in a DNA molecule. It is a critical component of modern molecular biology, genetics, and genetic engineering. The process involves determining the exact order of the four nucleotide bases - adenine (A), guanine (G), cytosine (C), and thymine (T) - in a DNA molecule or fragment. This information is used in various applications such as identifying gene mutations, studying evolutionary relationships, developing molecular markers for breeding, and diagnosing genetic diseases.

The process of DNA Sequence Analysis typically involves several steps, including DNA extraction, PCR amplification (if necessary), purification, sequencing reaction, and electrophoresis. The resulting data is then analyzed using specialized software to determine the exact sequence of nucleotides.

In recent years, high-throughput DNA sequencing technologies have revolutionized the field of genomics, enabling the rapid and cost-effective sequencing of entire genomes. This has led to an explosion of genomic data and new insights into the genetic basis of many diseases and traits.

Mutagenesis is the process by which the genetic material (DNA or RNA) of an organism is changed in a way that can alter its phenotype, or observable traits. These changes, known as mutations, can be caused by various factors such as chemicals, radiation, or viruses. Some mutations may have no effect on the organism, while others can cause harm, including diseases and cancer. Mutagenesis is a crucial area of study in genetics and molecular biology, with implications for understanding evolution, genetic disorders, and the development of new medical treatments.

Fibroblasts are specialized cells that play a critical role in the body's immune response and wound healing process. They are responsible for producing and maintaining the extracellular matrix (ECM), which is the non-cellular component present within all tissues and organs, providing structural support and biochemical signals for surrounding cells.

Fibroblasts produce various ECM proteins such as collagens, elastin, fibronectin, and laminins, forming a complex network of fibers that give tissues their strength and flexibility. They also help in the regulation of tissue homeostasis by controlling the turnover of ECM components through the process of remodeling.

In response to injury or infection, fibroblasts become activated and start to proliferate rapidly, migrating towards the site of damage. Here, they participate in the inflammatory response, releasing cytokines and chemokines that attract immune cells to the area. Additionally, they deposit new ECM components to help repair the damaged tissue and restore its functionality.

Dysregulation of fibroblast activity has been implicated in several pathological conditions, including fibrosis (excessive scarring), cancer (where they can contribute to tumor growth and progression), and autoimmune diseases (such as rheumatoid arthritis).

Viral fusion proteins are specialized surface proteins found on the envelope of enveloped viruses. These proteins play a crucial role in the viral infection process by mediating the fusion of the viral membrane with the target cell membrane, allowing the viral genetic material to enter the host cell and initiate replication.

The fusion protein is often synthesized as an inactive precursor, which undergoes a series of conformational changes upon interaction with specific receptors on the host cell surface. This results in the exposure of hydrophobic fusion peptides or domains that insert into the target cell membrane, bringing the two membranes into close proximity and facilitating their merger.

A well-known example of a viral fusion protein is the gp120/gp41 complex found on the Human Immunodeficiency Virus (HIV). The gp120 subunit binds to CD4 receptors and chemokine coreceptors on the host cell surface, triggering conformational changes in the gp41 subunit that expose the fusion peptide and enable membrane fusion. Understanding the structure and function of viral fusion proteins is important for developing antiviral strategies and vaccines.

A prodrug is a pharmacologically inactive substance that, once administered, is metabolized into a drug that is active. Prodrugs are designed to improve the bioavailability or delivery of a drug, to minimize adverse effects, or to target the drug to specific sites in the body. The conversion of a prodrug to its active form typically occurs through enzymatic reactions in the liver or other tissues.

Prodrugs can offer several advantages over traditional drugs, including:

* Improved absorption: Some drugs have poor bioavailability due to their chemical properties, which make them difficult to absorb from the gastrointestinal tract. Prodrugs can be designed with improved absorption characteristics, allowing for more efficient delivery of the active drug to the body.
* Reduced toxicity: By masking the active drug's chemical structure, prodrugs can reduce its interactions with sensitive tissues and organs, thereby minimizing adverse effects.
* Targeted delivery: Prodrugs can be designed to selectively release the active drug in specific areas of the body, such as tumors or sites of infection, allowing for more precise and effective therapy.

Examples of prodrugs include:

* Aspirin (acetylsalicylic acid), which is metabolized to salicylic acid in the liver.
* Enalapril, an angiotensin-converting enzyme (ACE) inhibitor used to treat hypertension and heart failure, which is metabolized to enalaprilat in the liver.
* Codeine, an opioid analgesic, which is metabolized to morphine in the liver by the enzyme CYP2D6.

It's important to note that not all prodrugs are successful, and some may even have unintended consequences. For example, if a patient has a genetic variation that affects the activity of the enzyme responsible for converting the prodrug to its active form, the drug may not be effective or may produce adverse effects. Therefore, it's essential to consider individual genetic factors when prescribing prodrugs.

Membrane fusion is a fundamental biological process that involves the merging of two initially separate lipid bilayers, such as those surrounding cells or organelles, to form a single continuous membrane. This process plays a crucial role in various physiological events including neurotransmitter release, hormone secretion, fertilization, viral infection, and intracellular trafficking of proteins and lipids. Membrane fusion is tightly regulated and requires the participation of specific proteins called SNAREs (Soluble NSF Attachment Protein REceptors) and other accessory factors that facilitate the recognition, approximation, and merger of the membranes. The energy required to overcome the repulsive forces between the negatively charged lipid headgroups is provided by these proteins, which undergo conformational changes during the fusion process. Membrane fusion is a highly specific and coordinated event, ensuring that the correct membranes fuse at the right time and place within the cell.

Pseudorabies, also known as Aujeszky's disease, is a viral disease that primarily affects animals, particularly pigs, but can occasionally infect other mammals including dogs, cats, and humans. The disease is caused by the Suid herpesvirus 1 (SuHV-1) and is named "pseudorabies" because it can cause symptoms similar to rabies, such as neurological signs and aggression. However, it is not related to rabies and is caused by a different virus.

In pigs, the disease can cause a range of symptoms including respiratory distress, fever, neurological signs, and reproductive failure. In other animals, pseudorabies can cause severe neurological signs such as seizures, disorientation, and aggression.

Humans can become infected with pseudorabies through close contact with infected animals or their tissues, but it is rare and usually only occurs in people who work closely with pigs or other susceptible animals. In humans, the disease typically causes mild flu-like symptoms or a skin rash, but in rare cases, it can cause more severe neurological signs.

There is no specific treatment for pseudorabies, and prevention measures such as vaccination and biosecurity are critical to controlling the spread of the disease in animal populations.

'Gene expression regulation' refers to the processes that control whether, when, and where a particular gene is expressed, meaning the production of a specific protein or functional RNA encoded by that gene. This complex mechanism can be influenced by various factors such as transcription factors, chromatin remodeling, DNA methylation, non-coding RNAs, and post-transcriptional modifications, among others. Proper regulation of gene expression is crucial for normal cellular function, development, and maintaining homeostasis in living organisms. Dysregulation of gene expression can lead to various diseases, including cancer and genetic disorders.

Lymphocyte activation is the process by which B-cells and T-cells (types of lymphocytes) become activated to perform effector functions in an immune response. This process involves the recognition of specific antigens presented on the surface of antigen-presenting cells, such as dendritic cells or macrophages.

The activation of B-cells leads to their differentiation into plasma cells that produce antibodies, while the activation of T-cells results in the production of cytotoxic T-cells (CD8+ T-cells) that can directly kill infected cells or helper T-cells (CD4+ T-cells) that assist other immune cells.

Lymphocyte activation involves a series of intracellular signaling events, including the binding of co-stimulatory molecules and the release of cytokines, which ultimately result in the expression of genes involved in cell proliferation, differentiation, and effector functions. The activation process is tightly regulated to prevent excessive or inappropriate immune responses that can lead to autoimmunity or chronic inflammation.

Hepatitis B virus (HBV) is a DNA virus that belongs to the Hepadnaviridae family and causes the infectious disease known as hepatitis B. This virus primarily targets the liver, where it can lead to inflammation and damage of the liver tissue. The infection can range from acute to chronic, with chronic hepatitis B increasing the risk of developing serious liver complications such as cirrhosis and liver cancer.

The Hepatitis B virus has a complex life cycle, involving both nuclear and cytoplasmic phases. It enters hepatocytes (liver cells) via binding to specific receptors and is taken up by endocytosis. The viral DNA is released into the nucleus, where it is converted into a covalently closed circular DNA (cccDNA) form, which serves as the template for viral transcription.

HBV transcribes several RNAs, including pregenomic RNA (pgRNA), which is used as a template for reverse transcription during virion assembly. The pgRNA is encapsidated into core particles along with the viral polymerase and undergoes reverse transcription to generate new viral DNA. This process occurs within the cytoplasm of the hepatocyte, resulting in the formation of immature virions containing partially double-stranded DNA.

These immature virions are then enveloped by host cell membranes containing HBV envelope proteins (known as surface antigens) to form mature virions that can be secreted from the hepatocyte and infect other cells. The virus can also integrate into the host genome, which may contribute to the development of hepatocellular carcinoma in chronic cases.

Hepatitis B is primarily transmitted through exposure to infected blood or bodily fluids containing the virus, such as through sexual contact, sharing needles, or from mother to child during childbirth. Prevention strategies include vaccination, safe sex practices, and avoiding needle-sharing behaviors. Treatment for hepatitis B typically involves antiviral medications that can help suppress viral replication and reduce the risk of liver damage.

I'm sorry for any confusion, but there seems to be a mistake in the terminology you provided. There is no virus known as "Herpesvirus 2, Gallid." However, I can provide some information on a related topic.

Gallid herpesvirus 2 (GaHV-2), also known as Marek's disease virus (MDV), is a member of the Herpesviridae family and is a significant pathogen in chickens. It causes Marek's disease, a lymphoproliferative disorder that results in various clinical manifestations such as T-cell lymphomas, neurological disorders, and immunosuppression. GaHV-2 is not known to infect or cause disease in humans or other mammalian species.

If you meant to ask about human herpesviruses, please let me know and provide the correct name so I can offer an accurate definition.

Typhoid-Paratyphoid vaccines are immunizations that protect against typhoid fever and paratyphoid fevers, which are caused by the Salmonella enterica serovars Typhi and Paratyphi, respectively. These vaccines contain inactivated or attenuated bacteria or specific antigens that stimulate an individual's immune system to develop immunity against these diseases without causing the illness itself. There are several types of typhoid-paratyphoid vaccines available, including:

1. Ty21a (oral live attenuated vaccine): This is a live but weakened form of the Salmonella Typhi bacteria. It is given orally in capsule form and requires a series of 4 doses taken every other day. The vaccine provides protection for about 5-7 years.
2. Vi polysaccharide (ViPS) typhoid vaccine: This vaccine contains purified Vi antigens from the Salmonella Typhi bacterium's outer capsular layer. It is given as an injection and provides protection for approximately 2-3 years.
3. Combined typhoid-paratyphoid A and B vaccines (Vi-rEPA): This vaccine combines Vi polysaccharide antigens from Salmonella Typhi and Paratyphi A and B. It is given as an injection and provides protection for about 3 years against typhoid fever and paratyphoid fevers A and B.
4. Typhoid conjugate vaccines (TCVs): These vaccines combine the Vi polysaccharide antigen from Salmonella Typhi with a protein carrier to enhance the immune response, particularly in children under 2 years of age. TCVs are given as an injection and provide long-lasting protection against typhoid fever.

It is important to note that none of these vaccines provides 100% protection, but they significantly reduce the risk of contracting typhoid or paratyphoid fevers. Additionally, good hygiene practices, such as handwashing and safe food handling, can further minimize the risk of infection.

Immunoenzyme techniques are a group of laboratory methods used in immunology and clinical chemistry that combine the specificity of antibody-antigen reactions with the sensitivity and amplification capabilities of enzyme reactions. These techniques are primarily used for the detection, quantitation, or identification of various analytes (such as proteins, hormones, drugs, viruses, or bacteria) in biological samples.

In immunoenzyme techniques, an enzyme is linked to an antibody or antigen, creating a conjugate. This conjugate then interacts with the target analyte in the sample, forming an immune complex. The presence and amount of this immune complex can be visualized or measured by detecting the enzymatic activity associated with it.

There are several types of immunoenzyme techniques, including:

1. Enzyme-linked Immunosorbent Assay (ELISA): A widely used method for detecting and quantifying various analytes in a sample. In ELISA, an enzyme is attached to either the capture antibody or the detection antibody. After the immune complex formation, a substrate is added that reacts with the enzyme, producing a colored product that can be measured spectrophotometrically.
2. Immunoblotting (Western blot): A method used for detecting specific proteins in a complex mixture, such as a protein extract from cells or tissues. In this technique, proteins are separated by gel electrophoresis and transferred to a membrane, where they are probed with an enzyme-conjugated antibody directed against the target protein.
3. Immunohistochemistry (IHC): A method used for detecting specific antigens in tissue sections or cells. In IHC, an enzyme-conjugated primary or secondary antibody is applied to the sample, and the presence of the antigen is visualized using a chromogenic substrate that produces a colored product at the site of the antigen-antibody interaction.
4. Immunofluorescence (IF): A method used for detecting specific antigens in cells or tissues by employing fluorophore-conjugated antibodies. The presence of the antigen is visualized using a fluorescence microscope.
5. Enzyme-linked immunosorbent assay (ELISA): A method used for detecting and quantifying specific antigens or antibodies in liquid samples, such as serum or culture supernatants. In ELISA, an enzyme-conjugated detection antibody is added after the immune complex formation, and a substrate is added that reacts with the enzyme to produce a colored product that can be measured spectrophotometrically.

These techniques are widely used in research and diagnostic laboratories for various applications, including protein characterization, disease diagnosis, and monitoring treatment responses.

Microbial drug resistance is a significant medical issue that refers to the ability of microorganisms (such as bacteria, viruses, fungi, or parasites) to withstand or survive exposure to drugs or medications designed to kill them or limit their growth. This phenomenon has become a major global health concern, particularly in the context of bacterial infections, where it is also known as antibiotic resistance.

Drug resistance arises due to genetic changes in microorganisms that enable them to modify or bypass the effects of antimicrobial agents. These genetic alterations can be caused by mutations or the acquisition of resistance genes through horizontal gene transfer. The resistant microbes then replicate and multiply, forming populations that are increasingly difficult to eradicate with conventional treatments.

The consequences of drug-resistant infections include increased morbidity, mortality, healthcare costs, and the potential for widespread outbreaks. Factors contributing to the emergence and spread of microbial drug resistance include the overuse or misuse of antimicrobials, poor infection control practices, and inadequate surveillance systems.

To address this challenge, it is crucial to promote prudent antibiotic use, strengthen infection prevention and control measures, develop new antimicrobial agents, and invest in research to better understand the mechanisms underlying drug resistance.

Erythema multiforme is a skin condition that typically presents as symmetric, red, raised spots or bumps on the skin and mucous membranes. The rash can vary in appearance, but it often has a target-like or irregular shape with central dusky or necrotic areas surrounded by pale rings and red flares. The rash usually begins on the extremities, such as the hands and feet, and then spreads to involve other parts of the body, including the trunk and face.

Erythema multiforme can be caused by various triggers, including infections (most commonly herpes simplex virus), medications, and other medical conditions. The condition is thought to represent a hypersensitivity reaction, where the immune system attacks the skin and mucous membranes.

The severity of erythema multiforme can range from mild to severe, with some cases causing significant pain and discomfort. In more severe cases, the rash may be accompanied by fever, mouth sores, and other systemic symptoms. Treatment typically involves addressing the underlying cause, if known, as well as providing supportive care for the skin lesions. Topical corticosteroids, antihistamines, and pain relievers may be used to help manage symptoms.

Skin diseases of viral origin are conditions that affect the skin caused by viral infections. These infections can lead to various symptoms such as rashes, blisters, papules, and skin lesions. Some common examples of viral skin diseases include:

1. Herpes Simplex Virus (HSV) infection: This causes cold sores or genital herpes, which are characterized by small, painful blisters on the skin.
2. Varicella-zoster virus (VZV) infection: This causes chickenpox and shingles, which are characterized by itchy, fluid-filled blisters on the skin.
3. Human Papillomavirus (HPV) infection: This causes warts, which are small, rough growths on the skin.
4. Molluscum contagiosum: This is a viral infection that causes small, raised, and pearly white bumps on the skin.
5. Measles: This is a highly contagious viral disease characterized by fever, cough, runny nose, and a rash that spreads all over the body.
6. Rubella: Also known as German measles, this viral infection causes a red rash on the face and neck that spreads to the rest of the body.

Viral skin diseases can be spread through direct contact with an infected person or contaminated objects, such as towels or bedding. Some viral skin diseases can be prevented through vaccination, while others can be treated with antiviral medications or other therapies.

Peptides are short chains of amino acid residues linked by covalent bonds, known as peptide bonds. They are formed when two or more amino acids are joined together through a condensation reaction, which results in the elimination of a water molecule and the formation of an amide bond between the carboxyl group of one amino acid and the amino group of another.

Peptides can vary in length from two to about fifty amino acids, and they are often classified based on their size. For example, dipeptides contain two amino acids, tripeptides contain three, and so on. Oligopeptides typically contain up to ten amino acids, while polypeptides can contain dozens or even hundreds of amino acids.

Peptides play many important roles in the body, including serving as hormones, neurotransmitters, enzymes, and antibiotics. They are also used in medical research and therapeutic applications, such as drug delivery and tissue engineering.

A mucous membrane is a type of moist, protective lining that covers various body surfaces inside the body, including the respiratory, gastrointestinal, and urogenital tracts, as well as the inner surface of the eyelids and the nasal cavity. These membranes are composed of epithelial cells that produce mucus, a slippery secretion that helps trap particles, microorganisms, and other foreign substances, preventing them from entering the body or causing damage to tissues. The mucous membrane functions as a barrier against infection and irritation while also facilitating the exchange of gases, nutrients, and waste products between the body and its environment.

Topical administration refers to a route of administering a medication or treatment directly to a specific area of the body, such as the skin, mucous membranes, or eyes. This method allows the drug to be applied directly to the site where it is needed, which can increase its effectiveness and reduce potential side effects compared to systemic administration (taking the medication by mouth or injecting it into a vein or muscle).

Topical medications come in various forms, including creams, ointments, gels, lotions, solutions, sprays, and patches. They may be used to treat localized conditions such as skin infections, rashes, inflammation, or pain, or to deliver medication to the eyes or mucous membranes for local or systemic effects.

When applying topical medications, it is important to follow the instructions carefully to ensure proper absorption and avoid irritation or other adverse reactions. This may include cleaning the area before application, covering the treated area with a dressing, or avoiding exposure to sunlight or water after application, depending on the specific medication and its intended use.

DNA helicases are a group of enzymes that are responsible for separating the two strands of DNA during processes such as replication and transcription. They do this by unwinding the double helix structure of DNA, using energy from ATP to break the hydrogen bonds between the base pairs. This allows other proteins to access the individual strands of DNA and carry out functions such as copying the genetic code or transcribing it into RNA.

During replication, DNA helicases help to create a replication fork, where the two strands of DNA are separated and new complementary strands are synthesized. In transcription, DNA helicases help to unwind the DNA double helix at the promoter region, allowing the RNA polymerase enzyme to bind and begin transcribing the DNA into RNA.

DNA helicases play a crucial role in maintaining the integrity of the genetic code and are essential for the normal functioning of cells. Defects in DNA helicases have been linked to various diseases, including cancer and neurological disorders.

Beta-galactosidase is an enzyme that catalyzes the hydrolysis of beta-galactosides into monosaccharides. It is found in various organisms, including bacteria, yeast, and mammals. In humans, it plays a role in the breakdown and absorption of certain complex carbohydrates, such as lactose, in the small intestine. Deficiency of this enzyme in humans can lead to a disorder called lactose intolerance. In scientific research, beta-galactosidase is often used as a marker for gene expression and protein localization studies.

A tuberculosis vaccine, also known as the BCG (Bacillus Calmette-Guérin) vaccine, is a type of immunization used to prevent tuberculosis (TB), a bacterial infection caused by Mycobacterium tuberculosis. The BCG vaccine contains a weakened strain of the bacteria that causes TB in cattle.

The BCG vaccine works by stimulating an immune response in the body, which helps to protect against severe forms of TB, such as TB meningitis and TB in children. However, it is not very effective at preventing pulmonary TB (TB that affects the lungs) in adults.

The BCG vaccine is not routinely recommended for use in the United States due to the low risk of TB infection in the general population. However, it may be given to people who are at high risk of exposure to TB, such as healthcare workers, laboratory personnel, and people traveling to countries with high rates of TB.

It is important to note that the BCG vaccine does not provide complete protection against TB and that other measures, such as testing and treatment for latent TB infection, are also important for controlling the spread of this disease.

Respiratory Syncytial Virus (RSV) infections refer to the clinical illnesses caused by the Respiratory Syncytial Virus. RSV is a highly contagious virus that spreads through respiratory droplets, contact with infected surfaces, or direct contact with infected people. It primarily infects the respiratory tract, causing inflammation and damage to the cells lining the airways.

RSV infections can lead to a range of respiratory illnesses, from mild, cold-like symptoms to more severe conditions such as bronchiolitis (inflammation of the small airways in the lungs) and pneumonia (infection of the lung tissue). The severity of the infection tends to depend on factors like age, overall health status, and presence of underlying medical conditions.

In infants and young children, RSV is a leading cause of bronchiolitis and pneumonia, often resulting in hospitalization. In older adults, people with weakened immune systems, and those with chronic heart or lung conditions, RSV infections can also be severe and potentially life-threatening.

Symptoms of RSV infection may include runny nose, cough, sneezing, fever, wheezing, and difficulty breathing. Treatment typically focuses on managing symptoms and providing supportive care, although hospitalization and more aggressive interventions may be necessary in severe cases or for high-risk individuals. Preventive measures such as hand hygiene, wearing masks, and avoiding close contact with infected individuals can help reduce the spread of RSV.

Western blotting is a laboratory technique used in molecular biology to detect and quantify specific proteins in a mixture of many different proteins. This technique is commonly used to confirm the expression of a protein of interest, determine its size, and investigate its post-translational modifications. The name "Western" blotting distinguishes this technique from Southern blotting (for DNA) and Northern blotting (for RNA).

The Western blotting procedure involves several steps:

1. Protein extraction: The sample containing the proteins of interest is first extracted, often by breaking open cells or tissues and using a buffer to extract the proteins.
2. Separation of proteins by electrophoresis: The extracted proteins are then separated based on their size by loading them onto a polyacrylamide gel and running an electric current through the gel (a process called sodium dodecyl sulfate-polyacrylamide gel electrophoresis or SDS-PAGE). This separates the proteins according to their molecular weight, with smaller proteins migrating faster than larger ones.
3. Transfer of proteins to a membrane: After separation, the proteins are transferred from the gel onto a nitrocellulose or polyvinylidene fluoride (PVDF) membrane using an electric current in a process called blotting. This creates a replica of the protein pattern on the gel but now immobilized on the membrane for further analysis.
4. Blocking: The membrane is then blocked with a blocking agent, such as non-fat dry milk or bovine serum albumin (BSA), to prevent non-specific binding of antibodies in subsequent steps.
5. Primary antibody incubation: A primary antibody that specifically recognizes the protein of interest is added and allowed to bind to its target protein on the membrane. This step may be performed at room temperature or 4°C overnight, depending on the antibody's properties.
6. Washing: The membrane is washed with a buffer to remove unbound primary antibodies.
7. Secondary antibody incubation: A secondary antibody that recognizes the primary antibody (often coupled to an enzyme or fluorophore) is added and allowed to bind to the primary antibody. This step may involve using a horseradish peroxidase (HRP)-conjugated or alkaline phosphatase (AP)-conjugated secondary antibody, depending on the detection method used later.
8. Washing: The membrane is washed again to remove unbound secondary antibodies.
9. Detection: A detection reagent is added to visualize the protein of interest by detecting the signal generated from the enzyme-conjugated or fluorophore-conjugated secondary antibody. This can be done using chemiluminescent, colorimetric, or fluorescent methods.
10. Analysis: The resulting image is analyzed to determine the presence and quantity of the protein of interest in the sample.

Western blotting is a powerful technique for identifying and quantifying specific proteins within complex mixtures. It can be used to study protein expression, post-translational modifications, protein-protein interactions, and more. However, it requires careful optimization and validation to ensure accurate and reproducible results.

A phenotype is the physical or biochemical expression of an organism's genes, or the observable traits and characteristics resulting from the interaction of its genetic constitution (genotype) with environmental factors. These characteristics can include appearance, development, behavior, and resistance to disease, among others. Phenotypes can vary widely, even among individuals with identical genotypes, due to differences in environmental influences, gene expression, and genetic interactions.

In medical terms, the skin is the largest organ of the human body. It consists of two main layers: the epidermis (outer layer) and dermis (inner layer), as well as accessory structures like hair follicles, sweat glands, and oil glands. The skin plays a crucial role in protecting us from external factors such as bacteria, viruses, and environmental hazards, while also regulating body temperature and enabling the sense of touch.

I must clarify that the term "Guinea Pigs" is not typically used in medical definitions. However, in colloquial or informal language, it may refer to people who are used as the first to try out a new medical treatment or drug. This is known as being a "test subject" or "in a clinical trial."

In the field of scientific research, particularly in studies involving animals, guinea pigs are small rodents that are often used as experimental subjects due to their size, cost-effectiveness, and ease of handling. They are not actually pigs from Guinea, despite their name's origins being unclear. However, they do not exactly fit the description of being used in human medical experiments.

Interferon type I is a class of signaling proteins, also known as cytokines, that are produced and released by cells in response to the presence of pathogens such as viruses, bacteria, and parasites. These interferons play a crucial role in the body's innate immune system and help to establish an antiviral state in surrounding cells to prevent the spread of infection.

Interferon type I includes several subtypes, such as interferon-alpha (IFN-α), interferon-beta (IFN-β), and interferon-omega (IFN-ω). When produced, these interferons bind to specific receptors on the surface of nearby cells, triggering a cascade of intracellular signaling events that lead to the activation of genes involved in the antiviral response.

The activation of these genes results in the production of enzymes that inhibit viral replication and promote the destruction of infected cells. Interferon type I also enhances the adaptive immune response by promoting the activation and proliferation of immune cells such as T-cells and natural killer (NK) cells, which can directly target and eliminate infected cells.

Overall, interferon type I plays a critical role in the body's defense against viral infections and is an important component of the immune response to many different types of pathogens.

Green Fluorescent Protein (GFP) is not a medical term per se, but a scientific term used in the field of molecular biology. GFP is a protein that exhibits bright green fluorescence when exposed to light, particularly blue or ultraviolet light. It was originally discovered in the jellyfish Aequorea victoria.

In medical and biological research, scientists often use recombinant DNA technology to introduce the gene for GFP into other organisms, including bacteria, plants, and animals, including humans. This allows them to track the expression and localization of specific genes or proteins of interest in living cells, tissues, or even whole organisms.

The ability to visualize specific cellular structures or processes in real-time has proven invaluable for a wide range of research areas, from studying the development and function of organs and organ systems to understanding the mechanisms of diseases and the effects of therapeutic interventions.

Southern blotting is a type of membrane-based blotting technique that is used in molecular biology to detect and locate specific DNA sequences within a DNA sample. This technique is named after its inventor, Edward M. Southern.

In Southern blotting, the DNA sample is first digested with one or more restriction enzymes, which cut the DNA at specific recognition sites. The resulting DNA fragments are then separated based on their size by gel electrophoresis. After separation, the DNA fragments are denatured to convert them into single-stranded DNA and transferred onto a nitrocellulose or nylon membrane.

Once the DNA has been transferred to the membrane, it is hybridized with a labeled probe that is complementary to the sequence of interest. The probe can be labeled with radioactive isotopes, fluorescent dyes, or chemiluminescent compounds. After hybridization, the membrane is washed to remove any unbound probe and then exposed to X-ray film (in the case of radioactive probes) or scanned (in the case of non-radioactive probes) to detect the location of the labeled probe on the membrane.

The position of the labeled probe on the membrane corresponds to the location of the specific DNA sequence within the original DNA sample. Southern blotting is a powerful tool for identifying and characterizing specific DNA sequences, such as those associated with genetic diseases or gene regulation.

Influenza B virus is one of the primary types of influenza viruses that cause seasonal flu in humans. It's an enveloped, negative-sense, single-stranded RNA virus belonging to the family Orthomyxoviridae.

Influenza B viruses are typically found only in humans and circulate widely during the annual flu season. They mutate at a slower rate than Influenza A viruses, which means that immunity developed against one strain tends to provide protection against similar strains in subsequent seasons. However, they can still cause significant illness, especially among young children, older adults, and people with certain chronic medical conditions.

Influenza B viruses are divided into two lineages: Victoria and Yamagata. Vaccines are developed each year to target the most likely strains of Influenza A and B viruses that will circulate in the upcoming flu season.

Viral meningitis is a form of meningitis, which is an inflammation of the membranes (meninges) surrounding the brain and spinal cord. It is caused by viral infections, such as enteroviruses, herpesviruses, and HIV. The infection enters the body through the respiratory system or the gastrointestinal tract and then spreads to the central nervous system.

Symptoms of viral meningitis may include fever, headache, stiff neck, photophobia (intolerance to light), and altered mental status. In some cases, patients may also experience vomiting, seizures, or skin rash. However, viral meningitis is generally less severe than bacterial meningitis and has a lower mortality rate.

Most cases of viral meningitis resolve on their own within 7-10 days, and treatment typically involves supportive care such as hydration, pain relief, and fever reduction. Antibiotics are not effective against viruses, so they are not used to treat viral meningitis. In some cases, antiviral medications may be prescribed for certain types of viral meningitis, such as herpes simplex virus (HSV) meningitis.

Preventive measures include practicing good hygiene, such as washing hands frequently and avoiding close contact with people who are sick. There is also a vaccine available to protect against enterovirus D68, which can cause viral meningitis in some cases.

Vaginal diseases refer to various medical conditions that affect the vagina, which is the female reproductive organ that extends from the cervix (the lower part of the uterus) to the external part of the genitalia (vulva). These diseases can cause a range of symptoms, including discharge, itching, burning, pain, and discomfort. Some common vaginal diseases include:

1. Vaginitis: It is an inflammation or infection of the vagina that can cause abnormal discharge, itching, and irritation. The most common causes of vaginitis are bacterial vaginosis, yeast infections, and trichomoniasis.
2. Vulvovaginitis: It is an inflammation or infection of both the vagina and vulva that can cause redness, swelling, itching, and pain. The causes of vulvovaginitis are similar to those of vaginitis and include bacterial infections, yeast infections, and sexually transmitted infections (STIs).
3. Vaginal dryness: It is a common condition that affects many women, especially after menopause. It can cause discomfort during sexual intercourse and lead to other symptoms such as itching and burning.
4. Vaginal cysts: These are fluid-filled sacs that develop in the vagina due to various reasons, including inflammation, injury, or congenital abnormalities.
5. Vaginal cancer: It is a rare type of cancer that affects the vagina. The most common symptoms include abnormal vaginal bleeding, discharge, and pain during sexual intercourse.
6. Sexually transmitted infections (STIs): Several STIs, such as chlamydia, gonorrhea, genital herpes, and human papillomavirus (HPV), can affect the vagina and cause various symptoms, including discharge, pain, and sores.

It is essential to seek medical attention if you experience any symptoms of vaginal diseases to receive proper diagnosis and treatment.

The Diphtheria-Tetanus-Pertussis (DTaP) vaccine is a combination immunization that protects against three bacterial diseases: diphtheria, tetanus (lockjaw), and pertussis (whooping cough).

Diphtheria is an upper respiratory infection that can lead to breathing difficulties, heart failure, paralysis, or even death. Tetanus is a bacterial infection that affects the nervous system and causes muscle stiffness and spasms, leading to "lockjaw." Pertussis is a highly contagious respiratory infection characterized by severe coughing fits, which can make it difficult to breathe and may lead to pneumonia, seizures, or brain damage.

The DTaP vaccine contains inactivated toxins (toxoids) from the bacteria that cause these diseases. It is typically given as a series of five shots, with doses administered at 2 months, 4 months, 6 months, 15-18 months, and 4-6 years of age. The vaccine helps the immune system develop protection against the diseases without causing the actual illness.

It is important to note that there are other combination vaccines available that protect against these same diseases, such as DT (diphtheria and tetanus toxoids) and Tdap (tetanus, diphtheria, and acellular pertussis), which contain higher doses of the diphtheria and pertussis components. These vaccines are recommended for different age groups and may be used as booster shots to maintain immunity throughout adulthood.

Oligodeoxyribonucleotides (ODNs) are relatively short, synthetic single-stranded DNA molecules. They typically contain 15 to 30 nucleotides, but can range from 2 to several hundred nucleotides in length. ODNs are often used as tools in molecular biology research for various applications such as:

1. Nucleic acid detection and quantification (e.g., real-time PCR)
2. Gene regulation (antisense, RNA interference)
3. Gene editing (CRISPR-Cas systems)
4. Vaccine development
5. Diagnostic purposes

Due to their specificity and affinity towards complementary DNA or RNA sequences, ODNs can be designed to target a particular gene or sequence of interest. This makes them valuable tools in understanding gene function, regulation, and interaction with other molecules within the cell.

Cross-protection is a term used in immunology and vaccinology that refers to the ability of a vaccine or natural infection with one strain of a microorganism (such as a virus or bacteria) to provide protection against other, related strains. This occurs because the immune response elicited by the initial exposure also recognizes and targets certain common features present in the related strains.

In the context of vaccines, cross-protection can be an important factor in designing broadly protective vaccines that can cover multiple strains or serotypes of a pathogen, thus reducing the need for individual vaccines against each strain. However, the degree of cross-protection can vary depending on the specific microorganisms and antigens involved.

It's important to note that cross-protection is not always complete or long-lasting, and additional research may be needed to fully understand its mechanisms and limitations.

A ferret is a domesticated mammal that belongs to the weasel family, Mustelidae. The scientific name for the common ferret is Mustela putorius furo. Ferrets are native to Europe and have been kept as pets for thousands of years due to their playful and curious nature. They are small animals, typically measuring between 13-20 inches in length, including their tail, and weighing between 1.5-4 pounds.

Ferrets have a slender body with short legs, a long neck, and a pointed snout. They have a thick coat of fur that can vary in color from white to black, with many different patterns in between. Ferrets are known for their high level of activity and intelligence, and they require regular exercise and mental stimulation to stay healthy and happy.

Ferrets are obligate carnivores, which means that they require a diet that is high in protein and low in carbohydrates. They have a unique digestive system that allows them to absorb nutrients efficiently from their food, but it also means that they are prone to certain health problems if they do not receive proper nutrition.

Ferrets are social animals and typically live in groups. They communicate with each other using a variety of vocalizations, including barks, chirps, and purrs. Ferrets can be trained to use a litter box and can learn to perform simple tricks. With proper care and attention, ferrets can make loving and entertaining pets.

An amino acid substitution is a type of mutation in which one amino acid in a protein is replaced by another. This occurs when there is a change in the DNA sequence that codes for a particular amino acid in a protein. The genetic code is redundant, meaning that most amino acids are encoded by more than one codon (a sequence of three nucleotides). As a result, a single base pair change in the DNA sequence may not necessarily lead to an amino acid substitution. However, if a change does occur, it can have a variety of effects on the protein's structure and function, depending on the nature of the substituted amino acids. Some substitutions may be harmless, while others may alter the protein's activity or stability, leading to disease.

Deoxyribonucleic acid (DNA) is the genetic material present in the cells of organisms where it is responsible for the storage and transmission of hereditary information. DNA is a long molecule that consists of two strands coiled together to form a double helix. Each strand is made up of a series of four nucleotide bases - adenine (A), guanine (G), cytosine (C), and thymine (T) - that are linked together by phosphate and sugar groups. The sequence of these bases along the length of the molecule encodes genetic information, with A always pairing with T and C always pairing with G. This base-pairing allows for the replication and transcription of DNA, which are essential processes in the functioning and reproduction of all living organisms.

Valine is an essential amino acid, meaning it cannot be produced by the human body and must be obtained through diet. It is a hydrophobic amino acid, with a branched side chain, and is necessary for the growth, repair, and maintenance of tissues in the body. Valine is also important for muscle metabolism, and is often used by athletes as a supplement to enhance physical performance. Like other essential amino acids, valine must be obtained through foods such as meat, fish, dairy products, and legumes.

Immunity, in medical terms, refers to the body's ability to resist or fight against harmful foreign substances or organisms such as bacteria, viruses, parasites, and fungi. This resistance is achieved through various mechanisms, including the production of antibodies, the activation of immune cells like T-cells and B-cells, and the release of cytokines and other chemical messengers that help coordinate the immune response.

There are two main types of immunity: innate immunity and adaptive immunity. Innate immunity is the body's first line of defense against infection and involves nonspecific mechanisms such as physical barriers (e.g., skin and mucous membranes), chemical barriers (e.g., stomach acid and enzymes), and inflammatory responses. Adaptive immunity, on the other hand, is specific to particular pathogens and involves the activation of T-cells and B-cells, which recognize and remember specific antigens (foreign substances that trigger an immune response). This allows the body to mount a more rapid and effective response to subsequent exposures to the same pathogen.

Immunity can be acquired through natural means, such as when a person recovers from an infection and develops immunity to that particular pathogen, or artificially, through vaccination. Vaccines contain weakened or inactivated forms of a pathogen or its components, which stimulate the immune system to produce a response without causing the disease. This response provides protection against future infections with that same pathogen.

... herpes zoster) . There is, however, no human vaccine for herpes simplex viruses. As of 2022, there are active pre-clinical and ... "Herpes simplex virus". World Health Organization. 31 January 2017. "Prevalence of Herpes Simplex Virus Type 1 and 2" (PDF). CDC ... Herpes simplex 1 and 2 diverged about 6 million years ago. Similar to other herpesviridae, the herpes simplex viruses establish ... HSV-1 can lead to potentially fatal cases of herpes simplex encephalitis. Herpes simplex viruses have also been studied in the ...
Herpes simplex type 2 (accessed 10 January 2013) Whitley, R. J.; Roizman, B. (2002). "Herpes simplex viruses: Is a vaccine ... "Recent progress in herpes simplex virus immunobiology and vaccine research". Clinical Microbiology Reviews. 16 (1): 96-113. doi ... including herpes simplex virus (HSV) and human cytomegalovirus. These large and complex enveloped DNA viruses commonly infect ... virus; similarly disabled viruses are also termed "single-cycle" viruses. Their work with DISC HSV-2 led to a series of vaccine ...
23 (12): 92-3. (Herpes simplex virus-associated diseases, Diseases and disorders). ... Segal, Alan Z. (2005). "A Vaccine to Prevent Shingles-treating Post-herpetic Neuralgia in a Pre-herpetic State". Neurology ... Nagane, Y; Utsugisawa, K; Yonezawa, H; Tohgi, H (2001). "A case with trigeminal herpes zoster manifesting a long lesion of the ... Pain associated with Shingles can be extremely difficult to treat whereas the source is related to the virus attacking the ...
Amongst these, she has worked on the development of vaccines to protect against HIV and Herpes simplex virus. Her vaccines look ... "Vaccine research gets a shot in the arm". New Scientist. Retrieved 2021-12-11. "Neonatal Herpes Acquired From Mom Can Be Fatal ... works on HIV vaccine". Dartmouth Engineering. Retrieved 2021-12-11. "A Mother Lode of Protection". hms.harvard.edu. 17 April ... She was promoted to Professor in 2019.[citation needed] Her research considers the development of novel vaccines. ...
... herpes simplex virus (HSV) can occasionally produce a rash in such a pattern (zosteriform herpes simplex). When the rash is ... They include a live attenuated virus vaccine, Zostavax, and an adjuvanted subunit vaccine, Shingrix. A review by Cochrane ... a double-stranded DNA virus related to the herpes simplex virus. Most individuals are infected with this virus as children ... Varicella zoster virus is not the same as herpes simplex virus, although they belong to the same family of herpesviruses. ...
... herpes simplex virus, human papillomavirus, respiratory virus infections, influenza infection, T cell immunity, commensal ... coded for by the vaccines because the DNA vaccines work best when injected into the muscle. Iwasaki's research continues to ... Iwasaki and her team study immune responses to influenza in the lungs and herpes simplex virus in the genital tract. Overall, ... While working on her PhD project of how DNA vaccines elicit an immune response, Iwasaki was among the first to show that ...
"Herpes simplex virus 2 ICP0 mutant viruses are avirulent and immunogenic: implications for a genital herpes vaccine". PLOS ONE ... Mindel, A. (2011). Herpes Simplex Virus. London, England: Springer. Brown, P. (1997). Herpes Simplex Virus Protocols (1998th ed ... "Immunization with a replication-defective herpes simplex virus 2 mutant reduces herpes simplex virus 1 infection and prevents ... Herpes Simplex Virus. London: Springer London. ISBN 978-1-4471-1683-7. OCLC 853259110. Herpes simplex virus protocols. S. Moira ...
"Next Generation Herpes Simplex Virus Vaccines"". Vaccine. 32 (14): 1561-1562. doi:10.1016/j.vaccine.2014.01.052. ISSN 0264-410X ... viruses can serve as a genital herpes vaccine and as a vaccine vector-one of these genital herpes vaccines, HSV-529, is the ... Da Costa, X. J.; Jones, C. A.; Knipe, D. M. (1999). "Immunization against genital herpes with a vaccine virus that has defects ... Quinlan, Margaret P.; Chen, Lan Bo; Knipe, David M. (1984). "The intranuclear location of a herpes simplex virus DNA-binding ...
... or Herpes simplex virus 2 (HHV-2 or HSV-2) is a species of virus in the genus Simplexvirus, subfamily ... 2001;285(24):3197 Koelle DM, Corey L (2008). "Herpes simplex: insights on pathogenesis and possible vaccines". Annual Review of ... Effect of Condoms on Reducing the Transmission of Herpes Simplex Virus Type 2 From Men to Women. A Wald, AGM Langenberg, K Link ... Schiffer JT, Mayer BT, Fong Y, Swan DA, Wald A (2014). "Herpes simplex virus-2 transmission probability estimates based on ...
"Crystal Structure of Glycoprotein B from Herpes Simplex Virus 1" "A protein-based smallpox vaccine protects mice from vaccinia ... "Antibody-Induced Conformational Changes in Herpes Simplex Virus Glycoprotein gD Reveal New Targets for Virus Neutralization" " ... "Antibody-induced conformational changes in herpes simplex virus glycoprotein gD reveal new targets for virus neutralization". ... Eisenberg studies how molecular events mediate a virus' entry into a cell. Her research is focused mainly on the herpes simplex ...
Vaccine-Induced Antibodies as an Immune Correlate of Protection Against Herpes Simplex Virus Type 1 Genital Herpes". The ... An example of a virus that uses the lysogenic cycle to its advantage is the Herpes Simplex Virus. After first entering the ... The herpes virus can then exit this dormant stage and re-enter the lytic cycle, causing disease symptoms. Thus, while herpes ... Brown, Jay C. (2017). "Herpes Simplex Virus Latency: The DNA Repair-Centered Pathway". Advances in Virology. 2017: 7028194. doi ...
The effects of herpes simplex virus-2 on HIV-1 acquisition and transmission: a review of two overlapping epidemics. J Acquir ... HIV vaccines: mosaic approach to virus diversity. Nat Med. 2010 Mar;16(3):268-70. Chapuis A, Casper C, Kuntz S, Zhu J, ... Wald A, Zeh J, Selke S, Warren T, Ryncarz AJ, Ashley R, Krieger JN, Corey L. Reactivation of genital herpes simplex virus type ... Reduction of HIV-1 RNA levels with therapy to suppress herpes simplex virus. N Engl J Med 2007;356:790-799. Corey L, Wald A, ...
"Herpes Simplex Virus (HSV) Type 2 Glycoprotein D Subunit Vaccines and Protection against Genital HSV‐1 or HSV‐2 Disease in ... Glycoprotein D Subunit Vaccine on the Development of Primary and Recurrent Ocular Infection with Herpes Simplex Virus Type 1 in ... "Seroprevalence of Herpes Simplex Virus Types 1 and 2 and Cytomegalovirus in Adolescents". Clinical Infectious Diseases. 24 (2 ... "Trump's new coronavirus vaccine czar owns $10 million in stock options in company developing vaccine". Salon. May 18, 2020. ...
A Herpes Simplex Virus vaccine developed at SIU School of Medicine came to be at the center of a 2017 controversy over human ... developing an effective vaccine against herpes simplex and identifying targets for molecular level cancer treatment. The ... Mole, Beth (28 August 2017). "Bucking FDA, Peter Thiel funds "patently unethical" herpes vaccine trial". Ars Technica. ... Olsen, Dean (8 November 2017). "Investigation: SIU scientist's herpes vaccine research violated rules". The State Journal- ...
... including herpes simplex virus (HSV), varicella zoster virus (VZV) and Epstein-Barr virus (EBV). His studies included ... for the Shingles Prevention Study Group (2005), "A Vaccine to Prevent Herpes Zoster and Postherpetic Neuralgia in Older Adults ... He found that people with asymptomatic genital herpes can transmit the virus to their sexual partners. With Lawrence Corey and ... They showed that chickenpox (varicella) and shingles (herpes zoster) are both caused by this virus. Straus also studied the ...
Developing vaccine strategies for Ebola, HIV, Lassa virus, West Nile virus, Japanese encephalitis viruses, and herpes. ... Studying ways of preventing or treating diseases caused by respiratory syncytial virus (RSV), herpes simplex virus, and dengue ... and vaccine development. Developing an animal model to test vaccines to protect people against the Zika virus. On April 14, ... Created methods to diagnose infections with herpes B virus, which is lethal to humans. Identified genes influencing drug ...
It is used as a topical gel in the treatment of skin lesions such as those caused by the herpes simplex virus and cutaneous T ... "Resiquimod and other immune response modifiers as vaccine adjuvants". Expert Review of Vaccines. 6 (5): 835-847. doi:10.1586/ ... Anti-herpes virus drugs, Antineoplastic drugs, Imidazoquinolines, All stub articles, Antiinfective agent stubs, Dermatologic ... Wu JJ, Huang DB, Tyring SK (November 2004). "Resiquimod: a new immune response modifier with potential as a vaccine adjuvant ...
... and a surface protein expressed by the cold sore virus, herpes simplex virus 1 (HSV-1) which serves to degrade the antiviral ... The IVX-411 vaccine is already on a Phase 1 clinical trial run by Icosavax while the same vaccine, licensed to another ... According to the Rosetta@home team, Rosetta volunteers contributed to the development of a nanoparticle vaccine. This vaccine ... home has been used in designing multiple possible vaccines for human immunodeficiency virus (HIV). In research involved with ...
Herpes Simplex Virus HIV-1 Human Hookworm Disease Leishmaniasis Malaria Neisseria gonorrhoeae Nipah virus infection ... Pipeline vaccine refers to vaccines which are under development. The World Health Organization's (WHO) Product Development for ... The WHO updates a list of diseases for which vaccine development is in pipeline. As of July 2021, the pipeline vaccines for the ... Orphaned articles from October 2023, All orphaned articles, Vaccines). ...
Causes of encephalitis include viruses such as herpes simplex virus and rabies virus as well as bacteria, fungi, or parasites. ... "Contraindications and Precautions to Commonly Used Vaccines in Adults". Vaccines. Center for Disease Control. Archived from the ... Rozenberg F, Deback C, Agut H (June 2011). "Herpes simplex encephalitis : from virus to therapy". Infectious Disorders Drug ... lymphocytic choriomeningitis virus), reovirus (Colorado tick virus), and henipavirus infections. The Powassan virus is a rare ...
... such as herpes simplex virus, human papilloma virus, and molluscum contagiosum; bacteria such as Staphylococcus aureus; as well ... Antibody responses to vaccines are frequently poor. Loss of Dock8 protein expression can be demonstrated by diagnostic ... Interferon alpha has been used for control of serious viral infections, such as widespread warts or herpes simplex virus. ... Some but not all lymphomas are associated with poor control of the cancer-causing virus, Epstein-Barr. These cancer risks are ...
M.Identity of zinc finger nucleases with specificity to herpes simplex virus type II genomic DNA: novel HSV-2 vaccine/therapy ... this strategy could offer a genomic vaccine against HIV and other viruses. Similar work is ongoing for high-risk HPVs (with the ... AIDS vaccine- Washington, Seattle 2007, :P05-01. Wayengera, M (2007). "PREX-1979: Modeling the first ever prototype of could be ... Vaccine Congress -Amsterdam, Netherlands 2007, :24OR. Wayengera M: xREPLAB: A recombinant lactobacillus strain producing ...
This approach was used in the drug talimogene laherparepvec, a variant of herpes simplex virus engineered to selectively ... Vaccines that treat existing cancer are known as therapeutic cancer vaccines or tumor antigen vaccines. Some of the vaccines ... Traditional vaccines against those viruses, such as the HPV vaccine and the hepatitis B vaccine, prevent those types of cancer ... A vaccine against a particular virus is relatively easy to create. The virus is foreign to the body, and therefore expresses ...
... sexually transmitted diseases such as syphilis and the herpes simplex virus, serum retinol (Vitamin A), lead exposure, high ... blood pressure, and immunity from vaccine-preventable diseases like measles and tetanus. Traditionally, much of the data ...
... and herpes simplex virus. The ability to rapidly quantify viruses has high impact in: Vaccine research, development, and ... the virus counter provides a measurement of the total number of virus particles/mL. The virus counter has been successfully ... The virus counter is an instrument for rapid quantification of viruses in liquid samples. It is a specialized flow cytometer ... The Virus Analytics department of Sartorius Stedium developed the next generation Virus Counter which is commercially available ...
Herpes Simplex Virus, HPV, Syphilis and Trichomoniasis Tuberculosis Vaccine preventable diseases, including measles, mumps and ... Chikungunya and Zika viruses Coronavirus (COVID-19) Ebola HIV Influenza Rabies Sexually transmitted diseases including ... rubella (MMR vaccines) and diphtheria, tetanus and pertussis (DTP) Viral Hepatitis Informatics is the science of using data, ...
Wald and colleagues studied more than 500 couples who had previously found the Herpes simplex virus vaccine did not work. ... Gray, Leila (September 12, 2013). "Initial positive results reported on vaccine to treat genital herpes". washington.edu. ... protein subunit vaccine that had the possibility to treat genital herpes. She later concluded that the antiviral pritelivir may ... One of the studies she led was focused on how health care professionals can assist those with herpes by focusing on how people ...
Epstein-Barr virus, cytomegalovirus, herpes simplex virus, hepatitis A, coxsackievirus and COVID-19. Bacterial infections ... Exposure to vaccines: The only vaccine proven related to ADEM is the Semple form of the rabies vaccine, but hepatitis B, ... Institute of Medicine (US) Vaccine Safety Committee) (1994). Adverse Events Associated with Childhood Vaccines: Evidence ... of MMR vaccine or smallpox vaccine) do not show increased risk of ADEM following vaccination. An upper bound for the risk of ...
... a live virus Herpes zoster (shingles) vaccine Varivax, a live virus Varicella Zoster (chickenpox) vaccine Shingrix, a ... A Cochrane Systematic Review examined the effectiveness of multiple antiviral drugs in the treatment of herpes simplex virus ... Wilhelmus KR (January 2015). "Antiviral treatment and other therapeutic interventions for herpes simplex virus epithelial ... it acts by inhibiting replication of the target virus. Brivudine is used for the treatment of herpes zoster in adult patients. ...
They altered the DNA of cowpox virus by inserting a gene from other viruses (namely Herpes simplex virus, hepatitis B and ... A veterinary DNA vaccine to protect horses from West Nile virus has been approved. Another West Nile virus vaccine has been ... activity of vaccinia virus recombinants expressing the hepatitis B virus surface antigen and the herpes simplex virus ... In 2016 a DNA vaccine for the Zika virus began testing in humans at the National Institutes of Health. The study was planned to ...
Rey There is currently no vaccine to prevent infection with herpes simplex virus type 1 or type 2 (HSV-1 or HSV-2). Infection ... A Live-Attenuated Herpes Simplex Virus Vaccine Candidate. By Gertrud U. Rey / 24 May 2018 ... There is currently no vaccine to prevent infection with herpes simplex virus type 1 or type 2 (HSV-1 or HSV-2). Infection with ... Guinea pigs are a much more suitable model for human herpes virus infection and disease because they closely mimic human ...
... mutant of herpes simplex virus 2 (HSV-2) exhibited similar properties, such a virus might be used to vaccinate against genital ... mutant viruses merit consideration for their potential to prevent the spread of HSV-2 and genital herpes. ... herpes. The current study was initiated to explore this possibility. Several HSV-2 ICP0− mutant viruses were constructed and ... capacity to elicit protective immunity against HSV-2. One ICP0− mutant virus in particular, HSV-2 0ΔNLS, achieved an optimal ...
Increased cell-mediated immune responses in patients with recurrent herpes simplex virus type 2 meningitis. Clin Vaccine ... Recurrent Herpes Simplex Virus 2 Lymphocytic Meningitis in Patient with IgG Subclass 2 Deficiency On This Page ... Recurrent Herpes Simplex Virus 2 Lymphocytic Meningitis in Patient with IgG Subclass 2 Deficiency. Volume 26, Number 4-April ... Goyal T, Ali I. Recurrent Herpes Simplex Virus 2 Lymphocytic Meningitis in Patient with IgG Subclass 2 Deficiency. Emerging ...
... herpes zoster) . There is, however, no human vaccine for herpes simplex viruses. As of 2022, there are active pre-clinical and ... "Herpes simplex virus". World Health Organization. 31 January 2017. "Prevalence of Herpes Simplex Virus Type 1 and 2" (PDF). CDC ... Herpes simplex 1 and 2 diverged about 6 million years ago. Similar to other herpesviridae, the herpes simplex viruses establish ... HSV-1 can lead to potentially fatal cases of herpes simplex encephalitis. Herpes simplex viruses have also been studied in the ...
Novel vaccine reduces shedding of genital herpes virus, HSV 2. ScienceBlog.com ... New herpes treatment from common herb. ScienceBlog.com A new anti-herpes agent derived from a common herb effectively treats ... More US teens susceptible to HSV-1 infection, a growing cause of genital herpes. ScienceBlog.com ... say theyve successfully stimulated the production of a pain-blocking protein in mice by using a modified herpes virus to ...
Infection occurs by direct contact of skin or mucous membrane with virus-laden lesions or secretions. ... HSV is a DNA virus that commonly affects humans. ... an effective vaccine against ocular herpes simplex virus ... encoded search term (Herpes Simplex Virus (HSV) Keratitis) and Herpes Simplex Virus (HSV) Keratitis What to Read Next on ... Immunization with a replication-defective herpes simplex virus 2 mutant reduces herpes simplex virus 1 infection and prevents ...
Herpes simplex virus as an in situ cancer vaccine for the induction of specific anti-tumor immunity. In: Human Gene Therapy. ... Herpes simplex virus as an in situ cancer vaccine for the induction of specific anti-tumor immunity. / Toda, Masahiro; Rabkin, ... Herpes simplex virus as an in situ cancer vaccine for the induction of specific anti-tumor immunity. Human Gene Therapy. 1999 ... Toda, M., Rabkin, S. D., Kojima, H., & Martuza, R. L. (1999). Herpes simplex virus as an in situ cancer vaccine for the ...
Vaccines based either on selected antigens or attenuated live virus approaches have not demonstrated meaningful clinical activi ... Efforts to develop a subunit vaccine against genital herpes have been hampered by lack of knowledge of the protective antigens ... Herpes Simplex Virus Vaccines / adverse effects* * Herpes Simplex Virus Vaccines / genetics * Herpes Simplex Virus Vaccines / ... DOI: 10.1016/j.vaccine.2011.07.011 Abstract Efforts to develop a subunit vaccine against genital herpes have been hampered by ...
QY Research has come up with a newly published report on global Therapeutic Vaccines market in its database that provides an in ... Herpes Simplex Virus. * Others. The scope of the Report: As mentioned earlier, one of the most important sections of this ... The Global Therapeutic Vaccines Market Report Include Following Details: The overview of global Therapeutic Vaccines market: ... Therapeutic Vaccines restraints and drivers, segmentation and forecasting. The report highlights the Therapeutic Vaccines ...
Unfortunately the vaccine manufacturer did not realize that that Rhesus monkeys carry the herpes virus. I remember that almost ... Oral herpes is usually caused by herpes simplex virus type 1 (HSV-1) and can result in cold sores or fever blisters on or ... I have had herpes simplex since I was a young boy around 1962. I am 65 years old now. I got it from a vaccine that was cultured ... Herpes Simplex Virus Can Infect the Brain by Evading the Immune Response ...
Unfortunately the vaccine manufacturer did not realize that that Rhesus monkeys carry the herpes virus. I remember that almost ... Oral herpes is usually caused by herpes simplex virus type 1 (HSV-1) and can result in cold sores or fever blisters on or ... I have had herpes simplex since I was a young boy around 1962. I am 65 years old now. I got it from a vaccine that was cultured ... Herpes Simplex Virus Can Infect the Brain by Evading the Immune Response ...
... two-step testing for serologic diagnosis of genital herpes simplex virus. Physicians and other health care providers can use ... human papillomavirus vaccine recommendations and counseling messages; 6) expanded risk factors for syphilis testing among ...
However, some aspects of the relationship between celiac disease (CD) and vaccines are still unclear. A comprehensive search of ... Vaccination Route as a Determinant of Protective Antibody Responses against Herpes Simplex Virus ... inactivated polio vaccine, conjugated Hemophilus influenzae type b (Hib) vaccine, attenuated measles/mumps/rubella vaccine, and ... Regarding the hepatitis B virus, a booster dose of the vaccine is often required due to the low or the lost immune response ...
Categories: Herpes Simplex Virus Vaccines Image Types: Photo, Illustrations, Video, Color, Black&White, PublicDomain, ...
Maternal Immunoreactivity to Herpes Simplex Virus 2 and Risk of Autism Spectrum Disorder in Male Offspring. mSphere 2017; 2(1 ... In this regard, the AstraZeneca (AZ) vaccine has a slight advantage over the Johnson & Johnson (J&J) vaccine because the virus ... An even more worrisome possibility is that these vaccines, both the mRNA vaccines and the DNA vector vaccines, may be a pathway ... most notably Herpes simplex and Varicella zoster, Varicella zoster is also the virus responsible for shingles. ...
... herpes simplex virus; influenza; HIV; and severe acute respiratory syndrome (SARS). In addition, companies are working on ... and herpes simplex) over the next three years (see Major Vaccines on the Way). ... In fact, the vaccine field has a blockbuster. Wyeths pneumoccocal conjugate vaccine, Prevnar, reached sales of $700 million in ... More important, vaccine manufacturers are increasingly able to capitalize on new products, with some emerging vaccines priced ...
Viruses, in particular enteroviruses, parechoviruses, and herpes simplex virus (HSV), should be considered in the differential ... from the virus. J. Infect. Dis. 178: 1635-1641.. 17. Prakobphol, A., F. Xu, V. M. Hoang, T. Larsson, J. Bergstrom, I. Johansson ... well as viruses (16-22). In several cases, such as with Salmonella ... deficiency virus type 1 infection by displacing envelope glycoprotein gp120. ...
Vaccine. 2011 * Incidence of neonatal herpes simplex virus infections in two managed care organizations: implications for ... The Vaccine Safety Datalink: successes and challenges monitoring vaccine safety [review]. Vaccine. 2014 ... Monitoring vaccine safety using the Vaccine Safety Datalink: utilizing immunization registries for pandemic influenza. ... Effects of the COVID-19 pandemic on routine pediatric vaccine ordering and administration - United States, 2020. MMWR: ...
Epstein-Barr virus. *Cytomegalovirus. *Herpes simplex virus. *Human herpesvirus 6. *Varicella-zoster virus ... Four pneumococcal vaccines are approved in the United States:. * 13-valent polysaccharide conjugate vaccine (PCV13; Prevnar 13 ... Respiratory viruses are another important cause of atypical CAP. While certain viruses may be zoonotically transmitted (eg, ... Pneumococcal vaccines have been shown to have some efficacy in preventing vaccine-strain pneumococcal pneumonia, bacteremia, ...
The genes that allow herpes virus to evade our immune system have been identified and deleted to form a new vaccine ... The vaccine fights the herpes simplex 2 virus (HSV2), which coexists with the humans it infects for long periods, only rarely ... Partner vaccine. A vaccine would initially be offered to the sexual partners of people who carry genital herpes, says Coffin. ... Marian Nicholson, director of the Herpes Viruses Association in the UK, which monitors worldwide research into herpes, is ...
Johnston C, Gottlieb SL, Wald A. Status of vaccine research and development of vaccines for herpes simplex virus. Vaccine. 2016 ... including herpes simplex virus, cytomegalovirus, vesicular stomatitis virus, and human immunodeficiency virus. Antimicrob ... Trends in herpes simplex virus type 1 and type 2 seroprevalence in the United States. JAMA. 2006; 296:964-73. [PMID: 16926356] ... Seroprevalence of herpes simplex virus types 1 and type 2 in the Frankfurt am Main area, Germany. Med Microbiol Immunol (Berl ...
Vaginal and Penile Microbiome Associations With Herpes Simplex Virus Type 2 in Women and Their Male Sex Partners.. J Infect Dis ... Analysis of the HVTN 702 Phase 2b-3 HIV-1 vaccine trial in South Africa assessing RV144 antibody and T-cell correlates of HIV-1 ... A Herpes Simplex virus 1 DNA Polymerase Multidrug Resistance Mutation Identified in an Immunocompromised Patient - Confirmed by ... Herpes Simplex Virus Glycoprotein D Antibodies Fail to Elicit Antibody-Dependent Cell-Mediated Cytotoxicity: Implications for ...
NanoVax Herpes Simplex Virus Vaccine. NanoVax is an adjuvant platform used in the development of a vaccine candidate that will ... Nipah virus vaccine candidate PHV02 is a novel recombinant vaccine that uses a modified rabies virus vector and incorporates a ... nOPV2 Polio Vaccine is derived from the live, infectious virus that has been triple-locked using genetic engineering.Read more ... NEO-PV-01 Cancer vaccine candidate is a personal neoantigen vaccine which is custom designed and manufactured for each ...
Back in the 1980s many physicians thought the "herpes simplex virus-2" was the cause of cervical cancer. Nowadays, some think ... No vaccine is 100% safe, as the following brief survey shows:. *Vaccines can easily become contaminated with viruses, bacteria ... and it doesnt work for women exposed to the virus before getting the vaccine. The vaccine is currently approved for females ... population was infected with a cancer-causing monkey virus (simian virus 40) that accidentally contaminated the polio vaccine. ...
The researchers used mRNA to immunize mice against genital herpes (which is caused by the herpes simplex virus), influenza, ... If it works, a COVID-19 mRNA vaccine will spur human cells to produce the spike-shaped protein found on SARS-CoV-2, the virus ... In a traditional chickenpox, polio, flu or rabies vaccine, a weakened or killed version of the virus is injected, fooling the ... "so instead of shutting down the world for a year while you make a new vaccine, well have a vaccine ready to go." ...
... potential therapies and vaccines. Our researchers also have ongoing studies on Influenza, Herpes simplex virus, Epstein-Barr ... Immune responses to viruses: A major focus of research in the PII program is understanding the molecular basis of anti-viral ... Our PII faculty are studying all aspects of viral infection, from virus receptors to innate immune responses, and using the ... The innate immune response is a powerful mechanism to eliminate infections caused by bacteria, viruses, parasites, and fungi. ...
Cheon MS, Bajo M, Gulesserian T, Cairns N, Lubec G. Evidence for the relation of herpes simplex virus type 1 to Down syndrome ... the inactivated vaccine was introduced in 1952, and the trivalent oral vaccine has been used since 1962.13 Widespread influenza ... Past exposure to vaccines and subsequent risk of Alzheimers disease. René Verreault, Danielle Laurin, Joan Lindsay, Gaston De ... Past exposure to vaccines and subsequent risk of Alzheimers disease. René Verreault, Danielle Laurin, Joan Lindsay, Gaston De ...
NIH Releases Strategic Plan for Research on Herpes Simplex Virus 1 and 2 September 19, 2023 ... Clinical Trial of HIV Vaccine Begins in United States and South Africa September 20, 2023 ... NIH Clinical Trial of Universal Flu Vaccine Candidate Begins September 15, 2023 ...
BCG Vaccine and Epigenetics - Genomics and Precision Health Blog ... including influenza and herpes simplex virus 2 in mouse models. ... This vaccine is one of the most used vaccines in the world today, commonly given as part of childhood vaccine programs in ... BCG vaccine is not the only vaccine shown to have nonspecific protective effects against infection. Measles vaccine and oral ... In 1921, a live attenuated vaccine, called the BCG vaccine, was introduced to protect against TB. The vaccine provides better ...
  • There is currently no vaccine to prevent infection with herpes simplex virus type 1 or type 2 (HSV-1 or HSV-2). (virology.ws)
  • Infection with either of these viruses results in life-long viral latency. (virology.ws)
  • Guinea pigs are a much more suitable model for human herpes virus infection and disease because they closely mimic human disease caused by HSV-2. (virology.ws)
  • The VC2 vaccine prevents HSV infection of neuronal axons and establishment of latency. (virology.ws)
  • The ability of the VC2 vaccine to induce a rapid and effective immune response to HSV infection without causing immunopathogenesis is promising. (virology.ws)
  • Further review showed no history of oral or genital herpes infection. (cdc.gov)
  • Asymptomatic reactivation means that the virus causes atypical, subtle, or hard-to-notice symptoms that are not identified as an active herpes infection, so acquiring the virus is possible even if no active HSV blisters or sores are present. (wikipedia.org)
  • A daily swab of the genital area was self-collected for HSV-2 detection by polymerase chain reaction, to compare the effect of valaciclovir versus placebo on asymptomatic viral shedding in immunocompetent, HSV-2 seropositive subjects without a history of symptomatic genital herpes infection. (wikipedia.org)
  • Antiviral therapy, topical or oral, is an effective treatment for epithelial herpes infection. (medscape.com)
  • Infection occurs by direct contact of skin or mucous membrane with virus-laden lesions or secretions. (medscape.com)
  • After the primary infection, the virus spreads from the infected epithelial cells to nearby sensory nerve endings and is transported along the nerve axon to the cell body located in the trigeminal ganglion. (medscape.com)
  • Recurrent ocular HSV infection traditionally has been thought of as reactivation of the virus in the trigeminal ganglion, which migrates down the nerve axon to produce a lytic infection in ocular tissue. (medscape.com)
  • Including human immunodeficiency virus (HIV) infection that leads to acquired immunodeficiency syndrome (AIDS), they have been recognized as a major public health problem for many years. (who.int)
  • Herpes simplex virus type 2 infection is the leading cause of genital ulcer disease in developing countries. (who.int)
  • Herpes simplex virus type 2 infection plays an important role in the transmission of HIV. (who.int)
  • A vaccine to prevent hepatitis B virus infection, and thereby reduce the incidence of liver cancer, exists. (who.int)
  • The vaccine provided significant protection from viral challenge in a mouse prophylaxis model and showed signals of activity in a guinea pig therapeutic model of existing infection. (nih.gov)
  • However, in most individuals, the virus is suppressed during a primary infection before it can significantly damage the central nervous system. (scitechdaily.com)
  • Objective: To investigate the effect of sodium polyanethol sulfonate (SPS) on herpes simplex virus type 1 (HSV-1) infection in vitro. (molvis.org)
  • Herpes simplex virus type 1 (HSV-1) infection is extremely common in humans, and approximately 50% and 75% of the adult populations in the United States [ 1 ] and Germany [ 2 ], respectively, have been infected with this virus. (molvis.org)
  • Public health authorities are pushing for a mandatory vaccine called Gardasil for girls as young as 11 years of age to prevent infection with the human papilloma virus (HPV)-the sexually transmitted virus believed to cause cancer of the cervix (the lower portion of the uterus). (paranoiamagazine.com)
  • The virus is the cause of penile warts, and HPV infection can lead to an increased risk for penile and anal cancer. (paranoiamagazine.com)
  • Our PII faculty are studying all aspects of viral infection, from virus receptors to innate immune responses, and using the results to develop innovative treatments and prevention strategies. (umassmed.edu)
  • How can a live attenuated bacterial vaccine protect against viral infection? (cdc.gov)
  • Epigenetic changes associated with BCG vaccine may be important for "training" immune cells and producing its observed protective effects against infection. (cdc.gov)
  • BCG vaccine is not the only vaccine shown to have nonspecific protective effects against infection. (cdc.gov)
  • This paper reports survey-based data on the diagnosis and management of genital herpes simplex virus (HSV) infection in 14 countries of the Eastern European Network for Sexual and Reproductive Health (EE SRH). (medicaljournals.se)
  • Genital herpes simplex virus (HSV) infection is one of the most prevalent life-long incurable STIs. (medicaljournals.se)
  • However, the rates of infection do not distinguish between primary and recurrent genital herpes. (medicaljournals.se)
  • Number of newly registered genital herpes simplex virus (HSV) infection cases per 100,000 inhabitants in Eastern European Network for Sexual and Reproductive Health (EE SRH) countries that reported having data on HSV morbidity in 2008. (medicaljournals.se)
  • Six cases of adolescent girls ages 12 to 16 developing painful genital ulcers within four days of their second vaccine dose were reported in the medical journal, including two cases occurring after infection with COVID-19. (republicbroadcasting.org)
  • In 1994, the U.S. Public Health Service (USPHS) and the Infectious Diseases Society of America (IDSA) recognized that, although strategies were available to reduce the frequency of opportunistic infections in patients who have human immunodeficiency virus (HIV) infection, information regarding prevention of both exposure and disease often was published in journals not regularly reviewed by health-care providers. (cdc.gov)
  • Which of the viruses below causes cancer resulting from chronic infection? (medicinenet.com)
  • Upcoming drugs and preventive and therapeutic vaccines have the potential to start a new era in the treatment of herpes simplex virus infection. (delveinsight.com)
  • A viral infection is a proliferation of a harmful virus inside your body. (medicinenet.com)
  • With an active viral infection, a virus makes copies of itself and bursts the host cell (killing it) to set the newly-formed virus particles free. (medicinenet.com)
  • Certain viruses -- like the ones that cause chickenpox and cold sores -- may be inactive or "latent" after the initial infection. (medicinenet.com)
  • A new mathematical model developed in Qatar indicates that herpes simplex virus type 1 (HSV-1) is undergoing a subtle transition in the United States, with declining rates of oral infection in children and rising genital acquisition in young adults. (natureasia.com)
  • Often referred to as oral herpes, HSV-1 infection is life-long, highly contagious and leads to the development of cold sores around the mouth as a result of oral transmission during childhood. (natureasia.com)
  • Recently, however, this virus is also earning its status as a key sexually transmitted infection, alongside HSV-2, the version of the virus more commonly associated with genital herpes. (natureasia.com)
  • Oral herpes will remain the dominant form of infection, and oral-to-genital transmission (oral sex) the most frequent cause of genital herpes. (natureasia.com)
  • HSV-antigen detection tests, such as the enzyme-linked virus-inducible system (ELVIS), are very specific for detecting herpes infection, but they are limited by their lower sensitivity. (medscape.com)
  • Immune discusses the current understanding of immune memory to SARS-CoV-2 infection and COVID-19 vaccines, which supersedes that of any other acute infectious disease. (microbe.tv)
  • Immune continues a discussion of the immune response to infection with SARS-CoV-2, including vaccines and immunity, effects of BCG and OPV, immunity passports, and answers to listener questions. (microbe.tv)
  • What is a herpes infection? (msdmanuals.com)
  • Infection with the herpes simplex virus causes recurring episodes of small, painful, fluid-filled blisters on the skin, mouth, lips (cold sores), eyes, or genitals (genital herpes). (msdmanuals.com)
  • Herpes simplex infection causes many problems across the globe. (msdmanuals.com)
  • In addition to the discomfort that genital herpes can cause, genital herpes can also cause life-threatening illness such as encephalitis (brain infection) and other serious infections in newborn babies if the virus is passed to a newborn during the birth process. (msdmanuals.com)
  • And having herpes simplex virus infection can increase the risk of acquiring HIV infection. (msdmanuals.com)
  • A big problem with the herpes virus is that once people have an infection, the virus stays with them for life. (msdmanuals.com)
  • The researchers recruited people who already had genital herpes infection and gave them three injections of their new vaccine or a placebo (dummy vaccine). (msdmanuals.com)
  • However, it is important to note that this vaccine does not prevent infection with the herpes simplex virus and it only reduces viral shedding and the number of herpes blisters rather than eliminating them, and that is far from ideal. (msdmanuals.com)
  • NanoFlu is an influenza vaccine candidate which is a recombinant hemagglutinin protein nanoparticle influenza vaccine produced in an Sf9 insect cell-baculovirus system. (precisionvaccinations.com)
  • The researchers used mRNA to immunize mice against genital herpes (which is caused by the herpes simplex virus), influenza, Zika and HIV. (brandeis.edu)
  • Our researchers also have ongoing studies on Influenza, Herpes simplex virus, Epstein-Barr virus, and HIV, among several others. (umassmed.edu)
  • Past exposure to vaccines against diphtheria or tetanus, poliomyelitis and influenza may protect against subsequent development of Alzheimer's disease. (cmaj.ca)
  • Additional studies further demonstrated BCG vaccine's protective effects against viral infections , including influenza and herpes simplex virus 2 in mouse models. (cdc.gov)
  • Nipah is an example of an enveloped virus, which gets its outer wrapping from the infected host cell, much like the viruses that cause influenza, rabies, measles, and AIDS. (laserfocusworld.com)
  • This observation has implications for vaccination not just against Nipah, but potentially against influenza, HIV, and other enveloped viruses. (laserfocusworld.com)
  • When most people hear the word "virus," they think of disease-causing (pathogenic) viruses such as the common cold, influenza, chickenpox, human immunodeficiency virus (HIV), SARS-CoV-2 and others. (medicinenet.com)
  • Oral herpes is usually caused by herpes simplex virus type 1 (HSV-1) and can result in cold sores or fever blisters on or around the mouth. (scitechdaily.com)
  • But later trials in humans suggested that it was no more effective at preventing genital herpes than having a history of cold sores, which are caused by the related virus HSV1. (newscientist.com)
  • Depending on the strain and other factors, HSV can cause cold sores - classically associated with HSV1 - or genital herpes - classically HSV2 - with the latter being the more serious of the two diseases, particularly because studies show that HSV2 makes carriers more susceptible to contracting HIV. (hopkinsmedicine.org)
  • The version of the herpes virus most commonly known for causing cold sores around the mouth will lead to more genital infections in the coming years. (natureasia.com)
  • Measles vaccine and oral polio vaccine have also been associated with decreased overall childhood mortality beyond the specific diseases the vaccines target. (cdc.gov)
  • You can contract measles by breathing in these droplets or touching surfaces where they might have landed (the virus can survive on surfaces for several hours). (encephalitis.info)
  • Since the measles vaccine was introduced in the UK in 1968, Public Health England estimates that 20 million measles cases and 4,500 deaths have been averted in the UK. (encephalitis.info)
  • On episode #340 of the science show This Week in Virology, the TWiV teams reviews a MERS-coronavirus serosurvey and an outbreak in South Korea, and constraints on measles virus antigenic variation. (virology.ws)
  • The agreement is an exclusive license with MSD for the discovery and development of measles vaccines to fight cancer. (delveinsight.com)
  • Does this mean we will soon be able to use vaccines to eliminate herpes infections just like we've nearly eliminated some other virus infections (for example polio and measles)? (msdmanuals.com)
  • Herpes simplex virus 1 and 2 (HSV-1 and HSV-2), also known by their taxonomic names Human alphaherpesvirus 1 and Human alphaherpesvirus 2, are two members of the human Herpesviridae family, a set of viruses that produce viral infections in the majority of humans. (wikipedia.org)
  • Millions of viral sexually transmitted infections also occur annually, attributable mainly to HIV, human herpesviruses, human papillomaviruses and hepatitis B virus. (who.int)
  • A study in Mwanza (United Republic of Tanzania), showed that 74% of HIV infections in men and 22% in women could be attributable to the presence of herpes simplex virus type 2. (who.int)
  • Primary ocular infections tend to appear in youths, and after primary infections are cleared, the virus hides in the trigeminal ganglia or cornea, where it maintains a state of latency. (molvis.org)
  • Gardasil does not treat existing HPV infections, and it doesn't work for women exposed to the virus before getting the vaccine. (paranoiamagazine.com)
  • The innate immune response is a powerful mechanism to eliminate infections caused by bacteria, viruses, parasites, and fungi. (umassmed.edu)
  • Data from a hepatitis B vaccine trial and back calculation of early AIDS cases show that HIV transmission began and accelerated in the late 1970s, with a peak incidence of new infections already evident in the early 1980s. (bmj.com)
  • Vaccines which successfully protect against virus infections usually need to induce a broadly reactive immune response which includes the induction of cytotoxic T lymphocytes (CTL). (duke.edu)
  • Current investigations include the development of anti-viral agents and vaccines against ocular herpes, the immunbiology and pathogenesis of herpetic eye infections, and molecular mechanisms of herpesvirus entry into human corneal cells. (uic.edu)
  • About 20% of all cancers that occur worldwide are caused by chronic infections mainly caused by the human papilloma virus (HPV) and hepatitis B virus (HBV). (medicinenet.com)
  • Similarly, a vaccine is also available against HBV and can reduce or prevent HBV infections and the cancers associated with HBV infections (for example, liver cancer caused by HBV). (medicinenet.com)
  • Molecular Evolution of Herpes Simplex Virus 2 Complete Genomes: Comparison between Primary and Recurrent Infections. (emmes.com)
  • Herpes simplex virus 1 (HSV-1) and HSV-2 are large, double-stranded DNA viruses that cause lifelong persistent infections characterized by periods of quiescence and recurrent disease. (emmes.com)
  • Most herpes simplex virus (HSV) infections are self-limited and treatment is not always indicated or necessary. (medscape.com)
  • The treatment of herpes simplex virus (HSV) infections depends on multiple factors, including the location and severity of the disease, immune status, pregnancy, primary or recurrent disease, and frequency of recurrences. (medscape.com)
  • Long-term suppressive therapy should be considered in patients with frequent and severe infections, specifically patients with herpes-associated erythema multiforme or eczema herpeticum. (medscape.com)
  • For example, some viruses protect the host against other infections. (medicinenet.com)
  • Viral infections are contagious for varying periods of time depending on the virus. (medicinenet.com)
  • The model predicts that the number of new infections will persist at around three million per year, while the fraction of the US population that comes in contact with the virus will decline with time. (natureasia.com)
  • 25% of all new HSV-1 infections will lead to genital herpes, the prevalence of which is forecast to reach its height around 2060, and then slowly decrease. (natureasia.com)
  • Immune reminisces about a year in COVID-19 immunology, Steph's receiving the Pfizer vaccine, and answers to listener questions about a challenge study with common cold CoVs, T cell exhaustion, how CD4 T cells control infections, and more. (microbe.tv)
  • Herpes simplex virus (HSV) keratitis is the most frequent cause of blindness due to corneal disease in the United States and the most common source of infectious blindness in the Western world. (medscape.com)
  • Gentle epithelial débridement may be performed to remove infectious virus and viral antigens that may induce stromal keratitis. (medscape.com)
  • When stimulation occurs, such as weakened immunity, corneal injuries, or ultraviolet exposure, latent viruses are activated, producing many infectious virus particles that result in recurrent keratitis. (molvis.org)
  • Herpes simplex virus (HSV) keratitis remains primarily a clinical diagnosis based on characteristic features of the corneal lesion. (medscape.com)
  • Diagnosis and management of herpes simplex stromal keratitis. (medscape.com)
  • Zaher SS, Sandinha T, Roberts F, Ramaesh K. Herpes simplex keratitis misdiagnosed as rheumatoid arthritis-related peripheral ulcerative keratitis. (medscape.com)
  • Kaye S, Choudhary A. Herpes simplex keratitis. (medscape.com)
  • New-onset herpes simplex virus keratitis after cataract surgery. (medscape.com)
  • Herpes simplex keratitis after intravitreal triamcinolone acetonide. (medscape.com)
  • The Immune team discusses immunization of pregnant mice to protect offspring from neonatal herpes simplex virus disease. (microbe.tv)
  • Treatment of herpes labialis and herpes genitalis generally consists of episodic courses of oral acyclovir, valacyclovir, and famciclovir. (medscape.com)
  • Oral antiviral medications may be used (off label) as therapy for other uncomplicated HSV conditions (eg, herpetic whitlow), and the same doses as those used for herpes genitalis treatment are commonly recommended. (medscape.com)
  • How is the BCG vaccine involved in trained immunity? (cdc.gov)
  • We now understand that adaptive immunity is the purview of a second set of leukocytes, T and B lymphocytes, which are responsible not only for antibody production but also for the generation of T cells that can directly identify and kill host cells infected by pathogens (e.g., viruses). (aacrjournals.org)
  • Although the term "Mollaret's meningitis" is reserved for idiopathic recurrent aseptic meningitis (a term established before the advent of PCR), and recurrent meningitis attributable to HSV-2 (or less commonly, Epstein-Barr virus) is called "recurrent viral meningitis," the 2 conditions are clinically indistinguishable ( 4 , 5 ). (cdc.gov)
  • More than 50% of patients with recurrent lymphocytic meningitis attributable to HSV-2 do not report a history of genital herpes ( 5 ). (cdc.gov)
  • Evidence suggests that the virus also may subsist latently within corneal tissue, serving as another potential source of recurrent disease and causing donor-derived HSV disease in transplanted corneas. (medscape.com)
  • We determined the genome sequences of viruses isolated from two subjects in the Herpevac Trial for Women who experienced primary HSV-2 genital disease and compared them with sequences of viruses isolated from the subsequent fifth or sixth episode of recurrent disease in the same individuals. (emmes.com)
  • Encephalitis and poor neuronal death-mediated control of herpes simplex virus in human inherited RIPK3 deficiency. (bvsalud.org)
  • Little genetic drift was detected in viruses shed by the same subjects following repeated reactivation events, suggesting strong selective pressure on the viral genome to maintain sequence fidelity during reactivations from its latent state within an individual host. (emmes.com)
  • This vaccine is one of the most used vaccines in the world today, commonly given as part of childhood vaccine programs in developing countries and countries with high TB incidence. (cdc.gov)
  • Reasons for this policy in the United States include low TB incidence, varying effectiveness of the vaccine against adult pulmonary TB, and potential for vaccination to cause a false positive TB skin test. (cdc.gov)
  • Adhin MR, Grunberg MG, Labadie-Bracho M, Pawiroredjo J. Incidence of Alpha-Herpes virus induced ocular disease in Suriname. (medscape.com)
  • We present here results of a therapeutic vaccine candidate, HerpV (formerly called AG-707), consisting of 32 HSV-2 peptides derived from 22 HSV-2 proteins, complexed non-covalently to the HSP70 chaperone and formulated with QS-21 saponin adjuvant. (nih.gov)
  • The genome conservation observed also has implications for the potential success of a therapeutic vaccine. (emmes.com)
  • This collection features the best content from AFP , as identified by the AFP editors, on sexually transmitted disease and related issues, including chlamydia, genital herpes, gonorrhea, human papillomavirus, and syphilis. (aafp.org)
  • United States, most sexually active persons with genital preventable cause of involuntary infertility and potentially ulcers have genital herpes, syphilis, or chancroid (9). (cdc.gov)
  • Since December 2020, when several novel unprecedented vaccines against SARS-CoV-2 began to be approved for emergency use, there has been a worldwide effort to get these vaccines into the arms of as many people as possible as fast as possible. (theepochtimes.com)
  • Two (the Moderna vaccine and the Pfizer/BioNTech vaccine) are based on mRNA technology, whereas the other two (produced by Johnson & Johnson and AstraZeneca) are based on a double-stranded DNA recombinant viral vector. (theepochtimes.com)
  • Now his findings and the system he developed for delivering mRNA into cells underpin two of the most promising candidates for a coronavirus vaccine, one being developed by Pfizer and BioNTech and the other by Moderna . (brandeis.edu)
  • A simple search on the Vaccine Adverse Event Reporting System (VAERS) for aphthous ulcer, vaginal ulceration, vulval ulceration, and Pfizer COVID-19 vaccine , resulted in 282 total events as of April 14. (republicbroadcasting.org)
  • Syringes and vials of Pfizer-BioNTech COVID-19 vaccine are seen on a work surface during a drive-through clinic at St. Lawrence College in Kingston, Ont. (republicbroadcasting.org)
  • However, based on the patient's clinical presentation, the doctors concluded that the ulcers were associated with the Pfizer mRNA vaccine. (republicbroadcasting.org)
  • Researchers in Pennsylvania say they've successfully stimulated the production of a pain-blocking protein in mice by using a modified herpes virus to attach the appropriate genes onto the animals' DNA. (scienceblog.com)
  • Now researchers at BioVex in Woburn, Massachusetts, have produced a vaccine by deleting five of the virus's genes. (newscientist.com)
  • Since the beginning of the COVID-19 global pandemic, our researchers have been integrally involved in studying this emerging disease, as well as testing, potential therapies and vaccines. (umassmed.edu)
  • Researchers in the PII are focused on understanding how the innate immune system recognizes and responds to pathogenic fungi and applying this knowledge to develop immunotherapies and preventive vaccines. (umassmed.edu)
  • Researchers produced the first-ever genomic "library" of sequenced samples, providing researchers across the globe a genomic repository for future innovations in herpes prevention. (hopkinsmedicine.org)
  • Findings from a pair of new studies could speed up the development of a universally accurate diagnostic test for human herpes simplex viruses (HSV), according to researchers at Johns Hopkins and Harvard universities and the National Institutes of Health (NIH). (hopkinsmedicine.org)
  • Chemistry professor Keng Chou and his team of researchers from UBC and Cornell University (Ithaca, NY) used a superresolution microscope patented by UBC to observe whether viruses actually assemble in the way scientists have hypothesized. (laserfocusworld.com)
  • Researchers recently reported a successful test of a new vaccine for the herpes virus. (msdmanuals.com)
  • Researchers have therefore been looking for a vaccine to prevent transmission of herpes simplex virus. (msdmanuals.com)
  • Ideally, researchers would like to develop a vaccine that would be as effective as the vaccine that is used to prevent chickenpox (caused by another type of herpes virus). (msdmanuals.com)
  • Viral and immunological basis of ocular diseases, molecular mechanisms of herpes simplex virus (HSV) entry, development of new anti-viral agents and vaccines. (uic.edu)
  • Epidemiology of ocular herpes simplex. (medscape.com)
  • One strategy involves the use of attenuated, replication-competent virus vectors, such as herpes simplex virus type 1 (HSV-1) mutant G207, which is able to replicate in human tumor cells with resultant cell death and tumor growth inhibition, yet is nonpathogenic in normal tissue. (elsevierpure.com)
  • These studies demonstrate that HerpV is a promising immunotherapy candidate for genital herpes, and provide a foundation for evaluating HerpV in human HSV-2(+) subjects with the intent of eliciting CD4(+) and CD8(+) T cell responses to a broad array of viral antigens. (nih.gov)
  • We hope this will unmask the virus to the human immune system," says Robert Coffin, chief executive of BioVex. (newscientist.com)
  • If it works, a COVID-19 mRNA vaccine will spur human cells to produce the spike-shaped protein found on SARS-CoV-2, the virus that causes the illness, and will trigger the immune system to produce protective antibodies. (brandeis.edu)
  • Herpes simplex virus types 1 and 2 both represent significant human pathogens that infect a majority of the population. (caister.com)
  • Note: This topic collection does not include human immunodeficiency virus (see separate topic collection on HIV/AIDS ) or hepatitis (see separate topic collection on Hepatitis and Other Liver Diseases ). (aafp.org)
  • Currently, there is no Nipah vaccine approved for human use. (laserfocusworld.com)
  • And the emerging influence of yet a third species, the retroviriad human immunodeficiency virus (HIV), on this ecosystem will be considered as well. (nationalacademies.org)
  • For over 30 years, physicians have assumed that any expectant mother with genital herpes lesions at delivery must deliver her baby by Caesarian section to minimize chances of transmission of the disease to the infant, although there was no clinical or research information supporting that practice. (scienceblog.com)
  • The vaccine is promoted as a prevention of cervical cancer, pre-cancerous genital lesions, and genital warts due to HPV. (paranoiamagazine.com)
  • On the latest episode of the science show This Week in Virology, a swarm of virologists discusses testing of a MERS coronavirus vaccine for camels, and how a neuronal stress pathway reactivates herpes simplex virus. (virology.ws)
  • The mRNA vaccines contain only the code for the SARS-CoV-2 envelope spike protein, whereas the DNA-based vaccines both contain an adenovirus viral vector that has been augmented with DNA that codes for the SARS-CoV-2 spike protein. (theepochtimes.com)
  • SARS-CoV-2 mRNA vaccines induce greater complement activation and decreased viremia and Nef antibodies in men with HIV-1. (amedeo.com)
  • The patient was tested for COVID-19, sexually transmitted diseases, and two common viruses-Epstein-Barr virus (EBV) and cytomegalovirus (CMV). (republicbroadcasting.org)
  • VC2" is an infectious, attenuated vaccine candidate made by removing 37 amino acids from viral glycoprotein K and 19 amino acids of the UL20 protein. (virology.ws)
  • The UL20 protein alteration prevents interaction between the N-termini of UL20 and glycoprotein K, which normally modulates virus-induced cell fusion. (virology.ws)
  • But a disadvantage is that those who have been exposed to natural forms of the adenovirus have antibodies to the virus that will likely block the synthesis of the spike protein, and therefore not afford protection against SARS-CoV-2. (theepochtimes.com)
  • The mRNA in these vaccines codes for the spike protein normally synthesized by the SARS-CoV-2 virus. (theepochtimes.com)
  • However, both the mRNA and the protein it produces have been changed from the original version in the virus with the intent to increase rate of production of the protein in an infected cell and the durability of both the mRNA and the spike protein it codes for. (theepochtimes.com)
  • Protein dose-sparing effect of AS01B adjuvant in a randomized preventive HIV vaccine trial of ALVAC-HIV (vCP2438) and adjuvanted bivalent subtype C gp120. (amedeo.com)
  • Novavax COVID-19 Adjuvanted Vaccine Nuvaxovid CovoVax, NVX-CoV2373 is a protein-based vaccine. (precisionvaccinations.com)
  • Novavax COVID-19 Vaccine Nuvaxovid™ XBB.1.5, CovoVax, NVX-CoV2373 NVX-CoV2601 is a protein-based vaccine. (precisionvaccinations.com)
  • Nipah virus has three structural proteins: a matrix protein that provides structure, and two envelope proteins that enable the virus to attach and fuse with host cells. (laserfocusworld.com)
  • One of the potential strategies under development is to use virus-like-particles, which are protein-based structures that mimic viruses, to stimulate immune response. (laserfocusworld.com)
  • If a vaccine contains a large percentage of virus-like particles that have only the matrix protein but not the envelope proteins, it won't trigger a strong immune response to the proteins that are most essential for helping a virus enter cells,' says Qian Liu, a postdoctoral fellow in UBC's chemistry department who was lead author of the study. (laserfocusworld.com)
  • Viruses are small particles of genetic material (either DNA or RNA) that are surrounded by a protein coat. (medicinenet.com)
  • These vaccines have been developed "at warp speed," given the urgency of the situation with the COVID-19 pandemic. (theepochtimes.com)
  • Most governments have embraced the notion that these vaccines are the only path towards resolution of this pandemic, which is crippling the economies of many countries. (theepochtimes.com)
  • NasoVAX is a recombinant intranasal vaccine that is RD-Ad5-based, being developed for both seasonal and pandemic use. (precisionvaccinations.com)
  • Scientist Drew Weissman's research is the basis for several vaccines being developed to fight the pandemic. (brandeis.edu)
  • PII faculty are determining how pathogenic bacteria, such as Yersinia , Salmonella , Listeria and Neisseria gonorrhoeae , trigger the innate immune response and are translating these findings to develop novel vaccines and therapies. (umassmed.edu)
  • Viruses and bacteria are two types of potentially disease-causing (pathogenic) particles. (medicinenet.com)
  • Viruses are much smaller than bacteria and can't reproduce without the assistance of a host. (medicinenet.com)
  • Lab tests may help clarify whether an illness is due to a virus, bacteria, or other infectious agent or disease process. (medicinenet.com)
  • most viruses are much smaller than bacteria. (medicinenet.com)
  • nOPV2 Polio Vaccine is derived from the live, infectious virus that has been triple-locked using genetic engineering. (precisionvaccinations.com)
  • Hepatitis B virus, which may be transmitted sexually and through needle sharing, blood transfusion and from mother to child, results in an estimated 350 million cases of chronic hepatitis and at least one million deaths each year from liver cirrhosis and liver cancer. (who.int)
  • Regarding the hepatitis B virus, a booster dose of the vaccine is often required due to the low or the lost immune response rate in CD. (mdpi.com)
  • Insects including ticks and mosquitoes can act as "vectors," transmitting a virus from one host to another. (medicinenet.com)
  • The guinea pig shares many of the features of genital herpes disease observed in humans, including the establishment of latency in the sensory ganglia. (virology.ws)
  • However, the small sample sizes used in this study are concerning, and only clinical trials will be able to determine the safety and efficacy of this vaccine in humans. (virology.ws)
  • HSV is a DNA virus that commonly affects humans. (medscape.com)
  • In this regard, the AstraZeneca (AZ) vaccine has a slight advantage over the Johnson & Johnson (J&J) vaccine because the virus normally infects chimpanzees rather than humans, so fewer people are likely to have been exposed to it. (theepochtimes.com)
  • The vaccine fights the herpes simplex 2 virus (HSV2), which coexists with the humans it infects for long periods, only rarely causing bouts of sores. (newscientist.com)
  • Even though an mRNA-based vaccine has never been developed for humans, Weissman believes the current ones in development for COVID-19 will work because it's a much simpler virus than many others. (brandeis.edu)
  • Vancouver, BC, Canada) used superresolution microscopy to observe how the Nipah virus (a deadly virus transmitted from animals to humans) and others like it assemble themselves in a much more haphazard manner than previously thought. (laserfocusworld.com)
  • Furthermore, the company plans to start clinical trials of its Zika and Lassa fever vaccines while working to get the first of its oncology programs into humans. (delveinsight.com)
  • Viruses get a bad rap, but they also perform many important functions for humans, plants, animals, and the environment. (medicinenet.com)
  • NanoVax is an adjuvant platform used in the development of a vaccine candidate that will provide protection against the two viruses that can cause genital herpes. (precisionvaccinations.com)
  • The work may also lead to the development of a vaccine that protects against the virus. (hopkinsmedicine.org)
  • Findings from two studies may lead to a more accurate diagnostic test and possible vaccine for genital and oral herpes. (hopkinsmedicine.org)
  • In a recent study conducted at Louisiana State University, Brent Stanfield and colleagues examined the immune response generated by intramuscular injection of the VC2 vaccine in the guinea pig. (virology.ws)
  • The immune system requires inflammation to constantly fight off the virus, and neurons have some degree of damage because of this continuous immune response, according to Dr. Tibor Valyi-Nagy, professor of pathology, director of neuropathology at UIC and research collaborator on the study. (scitechdaily.com)
  • Early start of seasonal transmission and co-circulation of West Nile virus lineage 2 and a newly introduced lineage 1 strain, northern Italy, June 2022. (cdc.gov)
  • NEO-PV-01 Cancer vaccine candidate is a personal neoantigen vaccine which is custom designed and manufactured for each individual patient. (precisionvaccinations.com)
  • While very important in monitoring vaccine safety, VAERS reports alone cannot be used to determine if a vaccine caused or contributed to an adverse event or illness," the CDC wrote . (republicbroadcasting.org)
  • In a traditional chickenpox, polio, flu or rabies vaccine, a weakened or killed version of the virus is injected, fooling the immune system into fighting the disease. (brandeis.edu)
  • and 9) two-step testing for serologic diagnosis of genital herpes simplex virus. (cdc.gov)
  • However, knowledge about how these vaccines work, how the immune system works and how neurodegenerative diseases come about can be brought to bear on the problem in order to predict potential devastating future consequences of the vaccines. (theepochtimes.com)
  • Our paper showed that there are several mechanisms by which these vaccines could lead to severe disease , including autoimmune disease, neurodegenerative diseases, vascular disorders (hemorrhaging and blood clots) and possibly reproductive issues. (theepochtimes.com)
  • Besides providing clues to how the two strains evolved, the findings also have implications for vaccine development, Quinn says, because HSV2's low genetic diversity means fewer antigens could be enough for developing a globally effective HSV2 vaccine. (hopkinsmedicine.org)
  • We think we will have data to show other viruses, such as Epstein-Barr, Kaposi's sarcoma, varicella-zoster, are all going to share this mechanism because they share homologous proteins," Shukla said. (scitechdaily.com)
  • NeoVax is a personalized experimental vaccine designed to recognize cancer-specific proteins, called neoantigens, that are present on the individual's cancer cells but not on normal cells. (precisionvaccinations.com)
  • In a vaccine, these molecules are synthesized and custom designed to get cells to produce proteins associated with a selected virus. (brandeis.edu)
  • The proteins trick the immune system into thinking the body is infected with the virus. (brandeis.edu)
  • The BCG vaccine has been shown to increase methylation of one of the histone proteins, resulting in increased cytokine production in certain immune cells. (cdc.gov)
  • Scholars@Duke publication: Induction in vitro of primary cytotoxic T-lymphocyte responses with DNA encoding herpes simplex virus proteins. (duke.edu)
  • In this study, we have used a convenient in vitro approach to investigate if plasmid DNAs encoding proteins of herpes simplex virus (HSV) are capable of inducing primary CD8+ CTL. (duke.edu)
  • This is particularly the case with complex viruses such as HSV, most of whose encoded proteins have yet to be isolated in sufficient quantity or purity to perform in vivo immunological studies. (duke.edu)
  • Scientists have believed that matrix proteins recruit envelope proteins, sending out some sort of signal so they can all join together on the cell membrane and become a functional virus. (laserfocusworld.com)
  • They now believe these proteins are picked up purely by chance when they are incorporated into a virus. (laserfocusworld.com)
  • This produces virus particles more quickly than previously envisioned, but many matrix proteins don't pick the envelope proteins up at all, and don't become functional viruses. (laserfocusworld.com)
  • Vaccines work by exposing a person to a small amount of modified virus or viral proteins, which rallies the body's natural defense. (laserfocusworld.com)
  • These proteins are produced by your immune system to alert your body that there is a pathogen, typically a virus, in your body. (cancer.net)
  • A study by University of Washington physicians confirms that Caesarian section is indeed the way to go to prevent transmission of HSV (herpes simplex virus). (scienceblog.com)
  • Because HSV2 enhances HIV transmission, we have been testing people across East Africa for genital herpes, but everybody was coming up positive. (hopkinsmedicine.org)
  • Detection of Mpox Virus Using Microbial Cell-free DNA: the Potential of Pathogen-Agnostic Sequencing for Rapid Identification of Emerging Pathogens. (amedeo.com)
  • Animals that had been injected with the altered virus did not develop symptoms when exposed to normal HSV2. (newscientist.com)
  • A herpes vaccine also based on HSV2 and developed by GlaxoSmithKline about a decade ago showed early promise. (newscientist.com)
  • To test the possibility that the glycoproteins differ in African patients, Quinn and his colleagues conducted a series of studies, one characterizing the entire HSV2 genome and another focusing on the glycoproteins present in HSV2 compared to HSV1, the target of several vaccines currently in research and development. (hopkinsmedicine.org)
  • There are about 100 types or "strains" of HPV, more commonly known as "the wart virus. (paranoiamagazine.com)
  • These viruses are most commonly spread by inhaling droplets containing virus particles. (medicinenet.com)
  • In many countries-often those that need vaccines most-few doses could be sold because payers had no money. (pharmexec.com)
  • A herpes vaccine ideally could be given in only a few doses (like other vaccines) but provide long-term protection. (msdmanuals.com)
  • The investigators tested different doses of the vaccine. (msdmanuals.com)
  • The rotavirus vaccine is currently recommended for the general population, and according to some data, it appears to reduce the risk for the development of CD autoimmunity in the early years of life. (mdpi.com)
  • Rose bengal and lissamine green inhibit detection of herpes simplex virus by PCR. (medscape.com)
  • Prospective assessment of humoral and cellular immune responses to a 3rd COVID-19 mRNA vaccine dose among immunocompromised individuals. (amedeo.com)
  • These findings highlight the need for a vaccine with dual protection against HSV-1 and HSV-2, and should impact public health messaging to young people regarding the risks of sexually transmitted disease spread through oral sex," says Joshua T. Schiffer of the Fred Hutchinson Cancer Research Center, USA, who was also not involved in the study. (natureasia.com)
  • Efforts to develop a subunit vaccine against genital herpes have been hampered by lack of knowledge of the protective antigens of HSV-2, the causative agent of the disease. (nih.gov)
  • To date, there is no evidence showing any causative association between vaccines and CD development. (mdpi.com)