Monkeypox
Variola virus
Congo
Orthopoxvirus
Poxviridae
Sciuridae
Democratic Republic of the Congo
Smallpox Vaccine
Smallpox
Africa, Western
Cowpox virus
Myoxidae
Vaccinia virus
Isoindoles
Macaca fascicularis
Zoonoses
Vaccinia
Virus Replication
Antiviral Agents
Organophosphonates
Haplorhini
Re-emergence of monkeypox in Africa: a review of the past six years. (1/131)
Human monkeypox was first identified in 1970 in the Democratic Republic of the Congo. Extensive studies of this zoonotic infection in the 1970s and 1980s indicated a largely sporadic disease with a minority of cases resulting from person-to-person transmission, rarely beyond two generations. In August 1996, an unusually large outbreak of human monkeypox was reported, and cases continued through 1997 with peak incidence in August 1996, March 1997 and August 1997. Preliminary results from the field investigations in 1997 suggest a new epidemiological pattern where a majority of secondary cases result from person-to-person transmission, and a clinically milder disease. But there is preliminary laboratory evidence of a simultaneous outbreak of varicella in the same geographic region which will undoubtedly modify these preliminary results. Since smallpox was eradicated and vaccinia vaccination terminated in this region, the population of susceptible individuals has grown. The use of vaccination to protect the population at risk, however, must take into account HIV prevalence and the risk of generalized vaccinia when using vaccinia vaccine in populations where HIV is known to be present. (+info)Production and characterization of human monoclonal antibody Fab fragments to vaccinia virus from a phage-display combinatorial library. (2/131)
A combinatorial, phage-display library of human Fab antibody fragments was generated from IgG heavy chain (HC) and light chain (LC) genes cloned from the lymphocytes of a vaccinia virus (VACV)-immune donor. To ascertain the complexity of the library, nucleotide sequences of the variable regions of the HC and LC genes were determined. Fourteen distinct HC and 18 distinct LC (7 kappa and 11 lambda) that formed a combinatorial library of 22 Fabs were identified. Immune-precipitation of radiolabeled VACV revealed that at least six different VACV proteins were recognized by the antibodies. Plaque-reduction neutralization demonstrated that six of the Fabs neutralized VACV in the presence of anti-human antibody. ELISA studies indicated that 15 of the Fabs were cross-reactive with monkeypox virus. (+info)Outbreak of human monkeypox, Democratic Republic of Congo, 1996 to 1997. (3/131)
Human monkeypox is a zoonotic smallpox-like disease caused by an orthopoxvirus of interhuman transmissibility too low to sustain spread in susceptible populations. In February 1997, 88 cases of febrile pustular rash were identified for the previous 12 months in 12 villages of the Katako-Kombe Health Zone, Democratic Republic of Congo (attack rate = 22 per 1,000; case-fatality rate = 3.7%). Seven were active cases confirmed by virus isolation. Orthopoxvirus- neutralizing antibodies were detected in 54% of 72 patients who provided serum and 25% of 59 wild-caught animals, mainly squirrels. Hemagglutination-inhibition assays and Western blotting detected antibodies in 68% and 73% of patients, respectively. Vaccinia vaccination, which protects against monkeypox, ceased by 1983 after global smallpox eradication, leading to an increase in the proportion of susceptible people. (+info)Human monkeypox and smallpox viruses: genomic comparison. (4/131)
Monkeypox virus (MPV) causes a human disease which resembles smallpox but with a lower person-to-person transmission rate. To determine the genetic relationship between the orthopoxviruses causing these two diseases, we sequenced the 197-kb genome of MPV isolated from a patient during a large human monkeypox outbreak in Zaire in 1996. The nucleotide sequence within the central region of the MPV genome, which encodes essential enzymes and structural proteins, was 96.3% identical with that of variola (smallpox) virus (VAR). In contrast, there were considerable differences between MPV and VAR in the regions encoding virulence and host-range factors near the ends of the genome. Our data indicate that MPV is not the direct ancestor of VAR and is unlikely to naturally acquire all properties of VAR. (+info)Characterization of wild-type and cidofovir-resistant strains of camelpox, cowpox, monkeypox, and vaccinia viruses. (5/131)
Cidofovir ([(S)-1-(3-hydroxy-2-phosphonylmethoxypropyl)cytosine] [HPMPC])-resistant forms of camelpox, cowpox, monkeypox, and vaccinia viruses were developed by prolonged passage in Vero 76 cells in the presence of drug. Eight- to 27-fold-higher concentrations of cidofovir were required to inhibit the resistant viruses than were needed to inhibit the wild-type (WT) viruses. Resistant viruses were characterized by determining their cross-resistance to other antiviral compounds, examining their different replication abilities in two cell lines, studying the biochemical basis of their drug resistance, and assessing the degrees of their virulence in mice. These viruses were cross resistant to cyclic HPMPC and, with the exception of vaccinia virus, to (S)-1-(3-hydroxy-2-phosphonylmethoxypropyl)adenine. Three of the four resistant cowpox and monkeypox viruses exhibited reduced abilities to infect and replicate in 3T3 cells compared to their abilities in Vero 76 cells. Compared to the WT virus polymers the resistant cowpox virus DNA polymerase was 8.5-fold less sensitive to inhibition by cidofovir diphosphate, the active form of the drug. Intracellular phosphorylation of [3H]cidofovir was not stimulated or inhibited by infection with resistant cowpox virus. In intranasally infected BALB/c mice, WT cowpox virus was 80-fold more virulent than the resistant virus. Cidofovir treatment (100 mg/kg of body weight, given one time only as early as 5 min after virus challenge) of a resistant cowpox virus infection could not protect mice from mortality. However, the drug prevented mortality in 80 to 100% of the mice treated with a single 100-mg/kg dose at 1, 2, 3, or 4 days after WT virus challenge. By application of these results to human orthopoxvirus infections, it is anticipated that resistant viruses may be untreatable with cidofovir but their virulence may be attenuated. Studies will need to be conducted with cidofovir-resistant monkeypox virus in monkeys to further support these hypotheses. (+info)Recognizing the real threat of biological terror. (6/131)
Weapons of mass destruction can be used to harm and terrorize populations. Such weapons include those with chemical, nuclear or biological properties. Obviously computer viruses can add additional barriers to a quick response. The most effective, least costly and greatest threats are biologicals. Biological terror is not new, and biological weapons have been used for centuries. However, as a result of modern technology, the risks are greater now and the outcomes more terrible. Today they include live pathogens, various toxins, and theoretically "bioregulators"--biochemicals affecting cell signaling. Altered cell signaling could be used to induce apoptosis-cell death, or a heightened outpouring of cytokines mimicking overwhelming sepsis, or even an intracellular, biochemical "strike" causing cellular paralysis. Biological weaponeers now have the frightening ability to alter the genetic makeup of pathogens, rendering them resistant not only to available antibiotic therapy but also to currently effective vaccines. In dark corners of some fringe groups, bioweaponeers are searching for the capability of designing pathogens that target specific races, by virtue of discriminating ligands (1). The resulting morbidity and mortality from use of any biological weapons will be accompanied by chaos, governmental and social instability, panic, an extraordinary utilization of available resources, and an ongoing epidemic of sleepless nights (2,3). Herein I will review some of the issues and some of the currently available biological weapons. The major goal is to highlight the clinical presentations of patients with infections that could be used as biological weapons. (+info)Analysis of the monkeypox virus genome. (7/131)
Monkeypox virus (MPV) belongs to the orthopoxvirus genus of the family Poxviridae, is endemic in parts of Africa, and causes a human disease that resembles smallpox. The 196,858-bp MPV genome was analyzed with regard to structural features and open reading frames. Each end of the genome contains an identical but oppositely oriented 6379-bp terminal inverted repetition, which similar to that of other orthopoxviruses, includes a putative telomere resolution sequence and short tandem repeats. Computer-assisted analysis was used to identify 190 open reading frames containing >/=60 amino acid residues. Of these, four were present within the inverted terminal repetition. MPV contained the known essential orthopoxvirus genes but only a subset of the putative immunomodulatory and host range genes. Sequence comparisons confirmed the assignment of MPV as a distinct species of orthopoxvirus that is not a direct ancestor or a direct descendent of variola virus, the causative agent of smallpox. (+info)Outbreaks of disease suspected of being due to human monkeypox virus infection in the Democratic Republic of Congo in 2001. (8/131)
Seven outbreaks of disease characterized by a pustular rash and suspected to have been caused by human monkeypox virus were investigated. The outbreaks occurred between February and August 2001 in the province of Equateur in the Democratic Republic of Congo. The outbreaks involved a total of 31 persons and caused five deaths. Specimens from 14 patients were available and were analyzed by electron microscopy, virus isolation, and PCR assays specific for monkeypox virus and varicella-zoster virus. We provide evidence that two outbreaks were indeed caused by monkeypox virus (16 cases, with four deaths), that in two outbreaks both monkeypox and varicella-zoster virus were involved (seven cases, with one death), and that two outbreaks were cases of chickenpox caused by infection with varicella-zoster virus (six cases, with no deaths). In one outbreak, no evidence for either monkeypox or chickenpox was found (two cases, with no deaths). (+info)Monkeypox virus (MPXV) is a double-stranded DNA virus belonging to the Poxviridae family and Orthopoxvirus genus. It's the causative agent of monkeypox, a zoonotic disease with symptoms similar to smallpox but milder in nature. The virus was first discovered in 1958 in laboratory monkeys, hence its name.
There are two clades of MPXV: the Central African (Congo Basin) clade and the West African clade. The former is more severe and has a higher mortality rate, while the latter tends to cause less severe disease with lower fatality rates.
The virus is primarily transmitted to humans from infected animals such as rodents and primates, through direct contact with blood, bodily fluids, or rash material of an infected animal. Human-to-human transmission can occur via respiratory droplets, direct contact with lesions, or contaminated objects.
Monkeypox typically presents with fever, headache, muscle aches, swollen lymph nodes, and a distinctive rash that progresses from macules to papules, vesicles, pustules, and scabs before falling off. The incubation period ranges from 5-21 days, and the illness usually lasts for 2-4 weeks.
Vaccination against smallpox has been found to provide some cross-protection against monkeypox, but its efficacy wanes over time. Currently, there are no approved vaccines specifically for monkeypox, although research is ongoing to develop new vaccines and antiviral treatments for this disease.
Monkeypox is a viral zoonotic disease that is clinically comparable to smallpox, although it's typically milder. It's caused by the monkeypox virus, which belongs to the Orthopoxvirus genus in the Poxviridae family. The virus is usually transmitted to humans from animals such as rodents and primates, but human-to-human transmission can also occur through respiratory droplets, direct contact with body fluids or lesions, or indirect contact with contaminated materials.
After infection, the incubation period ranges from 5 to 21 days, followed by the onset of symptoms like fever, headache, muscle aches, swollen lymph nodes, and exhaustion. A rash usually appears within 1-3 days after the onset of fever, starting on the face and spreading to other parts of the body, including the palms and soles. Lesions progress through several stages before falling off, leaving scabs that eventually fall off, signaling the end of the illness.
Monkeypox is endemic in Central and West African countries, but cases have been reported in non-endemic countries due to international travel. Vaccination against smallpox has shown cross-protection against monkeypox, although its efficacy wanes over time. Newer vaccines and antiviral treatments are being developed to combat the disease more effectively.
Poxviridae infections refer to diseases caused by the Poxviridae family of viruses, which are large, complex viruses with a double-stranded DNA genome. This family includes several pathogens that can infect humans, such as Variola virus (which causes smallpox), Vaccinia virus (used in the smallpox vaccine and can rarely cause infection), Monkeypox virus, and Cowpox virus.
These viruses typically cause skin lesions or pocks, hence the name "Poxviridae." The severity of the disease can vary depending on the specific virus and the immune status of the host. Smallpox, once a major global health threat, was declared eradicated by the World Health Organization in 1980 thanks to a successful vaccination campaign. However, other Poxviridae infections continue to pose public health concerns, particularly in regions with lower vaccination rates and where animal reservoirs exist.
Variola virus is the causative agent of smallpox, a highly contagious and deadly disease that was eradicated in 1980 due to a successful global vaccination campaign led by the World Health Organization (WHO). The virus belongs to the family Poxviridae and genus Orthopoxvirus. It is a large, enveloped, double-stranded DNA virus with a complex structure that includes a lipoprotein membrane and an outer protein layer called the lateral body.
The Variola virus has two main clinical forms: variola major and variola minor. Variola major is more severe and deadly, with a mortality rate of up to 30%, while variola minor is less severe and has a lower mortality rate. The virus is transmitted through direct contact with infected individuals or contaminated objects, such as clothing or bedding.
Smallpox was once a major public health threat worldwide, causing millions of deaths and severe illnesses. However, since its eradication, Variola virus has been kept in secure laboratories for research purposes only. The virus is considered a potential bioterrorism agent, and efforts are being made to develop new vaccines and antiviral treatments to protect against possible future outbreaks.
I'm not aware of any medical definitions associated with the term "Congo." The term "Congo" is most commonly used to refer to:
1. The Congo River, which is the second longest river in Africa, flowing through the Democratic Republic of the Congo and the Republic of the Congo.
2. The two countries located in Central Africa that share the name "Congo": the Democratic Republic of the Congo (formerly known as Zaire) and the Republic of the Congo (formerly known as French Congo or Middle Congo).
3. In historical contexts, "Congo" may also refer to the Congo Free State (1885-1908), a private colony of King Leopold II of Belgium, which later became the Belgian Congo (1908-1960) and then Zaire (1971-1997).
If you are looking for medical information or definitions related to tropical diseases, healthcare in Africa, or similar topics, I would recommend using more specific terms.
Orthopoxvirus is a genus of large, complex, enveloped DNA viruses in the family Poxviridae. It includes several species that are significant human pathogens, such as Variola virus (which causes smallpox), Vaccinia virus (used in the smallpox vaccine and also known to cause cowpox and buffalopox), Monkeypox virus, and Camelpox virus. These viruses can cause a range of symptoms in humans, from mild rashes to severe disease and death, depending on the specific species and the immune status of the infected individual. Historically, smallpox was one of the most devastating infectious diseases known to humanity, but it was declared eradicated by the World Health Organization in 1980 due to a successful global vaccination campaign. However, other Orthopoxviruses continue to pose public health concerns and require ongoing surveillance and research.
Poxviridae is a family of large, complex, double-stranded DNA viruses that includes many significant pathogens affecting humans and animals. The most well-known member of this family is the Variola virus, which causes smallpox in humans, a highly contagious and deadly disease that has been eradicated through global vaccination efforts. Other important human pathogens in this family include the Monkeypox virus, which can cause a smallpox-like illness, and the Molluscum contagiosum virus, which causes benign skin tumors.
Poxviruses have a unique ability to replicate in the cytoplasm of host cells, rather than in the nucleus like many other DNA viruses. They also have a complex structure, with a large, brick-shaped virion that contains a lateral body, a core, and an outer envelope. The genome of poxviruses is relatively large, ranging from 130 to 375 kilobases in length, and encodes many genes involved in viral replication, host immune evasion, and modulation of host cell processes.
Poxviridae is further divided into two subfamilies: Chordopoxvirinae, which includes viruses that infect vertebrates, and Entomopoxvirinae, which includes viruses that infect insects. The Chordopoxvirinae subfamily is divided into several genera, including Orthopoxvirus (which includes Variola, Monkeypox, and Vaccinia viruses), Parapoxvirus (which includes Orf virus and Bovine papular stomatitis virus), and Yatapoxvirus (which includes Yaba monkey tumor virus and Tanapox virus).
Overall, Poxviridae is a diverse family of viruses that pose significant public health and agricultural threats, and continue to be the subject of ongoing research and development efforts aimed at understanding their biology and developing new vaccines and therapies.
I apologize for any confusion, but "Sciuridae" is not a medical term. It is a scientific name in the field of biology, specifically for the family of animals that include squirrels, chipmunks, marmots, and prairie dogs, among others. These are rodents known for their agility in climbing trees and their ability to store food.
The Democratic Republic of the Congo (DRC) is a country located in Central Africa. It is named after the Congo River, which flows through the country. The DRC is the second-largest country in Africa by area and the eleventh-largest in the world. It is home to a diverse population of more than 80 million people, making it one of the most populous countries on the continent.
The DRC is a democratic republic, which means that it is a form of government in which the people have the power to choose their leaders through free and fair elections. The country has a presidential system of government, in which the president serves as both the head of state and the head of government. The current president of the DRC is Fรฉlix Tshisekedi, who took office in January 2019.
The DRC is a federal republic, meaning that it is divided into several provinces, each with its own elected government. The country has a total of 26 provinces, which are further divided into districts and sectors.
The DRC is a member of various international organizations, including the United Nations, the African Union, and the Southern African Development Community. It is also a party to several international treaties and agreements, such as the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) and the Paris Agreement on climate change.
The DRC has a mixed economy, with both private and public sectors playing important roles. The country is rich in natural resources, including minerals such as copper, diamonds, gold, and tin. It also has large areas of fertile land that are suitable for agriculture. However, the DRC faces significant challenges, including poverty, corruption, and conflict. Despite these challenges, the country has made progress in recent years in terms of economic growth and development.
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.
Smallpox is a severe, contagious, and fatal infectious disease caused by the variola virus. It's characterized by fever, malaise, prostration, headache, and backache; followed by a distinctive rash with flat, red spots that turn into small blisters filled with clear fluid, then pus, and finally crust, scab, and fall off after about two weeks, leaving permanent scarring. There are two clinical forms of smallpox: variola major and variola minor. Variola major is the severe and most common form, with a mortality rate of 30% or higher. Variola minor is a less common presentation with milder symptoms and a lower mortality rate of about 1%.
Smallpox was declared eradicated by the World Health Organization (WHO) in 1980 following a successful global vaccination campaign, and routine smallpox vaccination has since been discontinued. However, due to concerns about bioterrorism, military personnel and some healthcare workers may still receive smallpox vaccinations as a precautionary measure.
"Western Africa" is a geographical region that consists of several countries located in the western part of the African continent. The United Nations defines Western Africa as the 16 countries of Benin, Burkina Faso, Cape Verde, Gambia, Ghana, Guinea, Guinea-Bissau, Ivory Coast, Liberia, Mali, Mauritania, Niger, Nigeria, Senegal, Sierra Leone, and Togo.
The region is characterized by a diverse range of cultures, languages, and ethnic groups, as well as a variety of landscapes, including coastal areas, savannas, and deserts. Western Africa has a rich history, with many ancient kingdoms and empires having existed in the region, such as the Ghana Empire, Mali Empire, and Songhai Empire.
In medical contexts, "Western Africa" may be used to describe the epidemiology, distribution, or characteristics of various health conditions or diseases that are prevalent in this geographical region. For example, certain infectious diseases such as malaria, HIV/AIDS, and Ebola virus disease are more common in Western Africa than in other parts of the world. Therefore, medical researchers and practitioners may use the term "Western Africa" to refer to the specific health challenges and needs of the populations living in this region.
Cowpox virus is a species of the Orthopoxvirus genus, which belongs to the Poxviridae family. It is a double-stranded DNA virus that primarily infects cows and occasionally other animals such as cats, dogs, and humans. The virus causes a mild disease in its natural host, cattle, characterized by the development of pustular lesions on the udder or teats.
In humans, cowpox virus infection can cause a localized skin infection, typically following contact with an infected animal or contaminated fomites. The infection is usually self-limiting and resolves within 1-2 weeks without specific treatment. However, in rare cases, the virus may spread to other parts of the body and cause more severe symptoms.
Historically, cowpox virus has played a significant role in medical research as it was used by Edward Jenner in 1796 to develop the first successful vaccine against smallpox. The similarity between the two viruses allowed for cross-protection, providing immunity to smallpox without exposing individuals to the more deadly disease. Smallpox has since been eradicated globally, and vaccination with cowpox virus is no longer necessary. However, understanding the biology of cowpox virus remains important due to its potential use as a model organism for studying poxvirus infections and developing countermeasures against related viruses.
I apologize for any confusion, but "Myoxidae" is not a medical term. It is a taxonomic category in zoology, specifically a family of small mammals that includes the dormice and close relatives. In animal taxonomy, Myoxidae is no longer a recognized family and has been replaced by Myoxidae and Gliridae. I hope this clarifies any confusion. If you have any other questions, I'd be happy to help.
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.
Isoindoles are not typically considered in the context of medical definitions, as they are organic compounds that do not have direct relevance to medical terminology or human disease. However, isoindole is a heterocyclic compound that contains two nitrogen atoms in its structure and can be found in some naturally occurring substances and synthetic drugs.
Isoindoles are aromatic compounds, which means they have a stable ring structure with delocalized electrons. They can form the core structure of various bioactive molecules, including alkaloids, which are nitrogen-containing compounds that occur naturally in plants and animals and can have various pharmacological activities.
Some isoindole derivatives have been synthesized and studied for their potential medicinal properties, such as anti-inflammatory, antiviral, and anticancer activities. However, these compounds are still in the early stages of research and development and have not yet been approved for medical use.
Therefore, while isoindoles themselves do not have a specific medical definition, they can be relevant to the study of medicinal chemistry and drug discovery.
"Macaca fascicularis" is the scientific name for the crab-eating macaque, also known as the long-tailed macaque. It's a species of monkey that is native to Southeast Asia. They are called "crab-eating" macaques because they are known to eat crabs and other crustaceans. These monkeys are omnivorous and their diet also includes fruits, seeds, insects, and occasionally smaller vertebrates.
Crab-eating macaques are highly adaptable and can be found in a wide range of habitats, including forests, grasslands, and wetlands. They are also known to live in close proximity to human settlements and are often considered pests due to their tendency to raid crops and steal food from humans.
These monkeys are social animals and live in large groups called troops. They have a complex social structure with a clear hierarchy and dominant males. Crab-eating macaques are also known for their intelligence and problem-solving abilities.
In medical research, crab-eating macaques are often used as animal models due to their close genetic relationship to humans. They are used in studies related to infectious diseases, neuroscience, and reproductive biology, among others.
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.
Zoonoses are infectious diseases that can be transmitted from animals to humans. They are caused by pathogens such as viruses, bacteria, parasites, or fungi that naturally infect non-human animals and can sometimes infect and cause disease in humans through various transmission routes like direct contact with infected animals, consumption of contaminated food or water, or vectors like insects. Some well-known zoonotic diseases include rabies, Lyme disease, salmonellosis, and COVID-19 (which is believed to have originated from bats). Public health officials work to prevent and control zoonoses through various measures such as surveillance, education, vaccination, and management of animal populations.
Vaccinia is actually not a medical term with a specific definition, but it refers to the virus used in the smallpox vaccine. The vaccinia virus is related to, but less harmful than, the variola virus that causes smallpox. When vaccinia virus is introduced into the skin, it leads to an immune response that protects against smallpox.
The term "vaccinia" also refers to the characteristic pockmark-like lesion that forms on the skin as part of the body's reaction to the vaccine. This lesion is a result of the infection and replication of the vaccinia virus in the skin cells, which triggers an immune response that helps protect against smallpox.
It's worth noting that while the smallpox vaccine is no longer routinely administered due to the eradication of smallpox, it may still be used in certain circumstances, such as in laboratory workers who handle the virus or in the event of a bioterrorism threat involving smallpox.
Ectromelia, infectious, also known as mousepox, is a viral disease that primarily affects mice. It is caused by the ectromelia virus, which belongs to the Poxviridae family. The infection results in various symptoms such as skin lesions, rash, weight loss, and in severe cases, death.
The infection spreads through direct contact with infected mice or their excretions. It can also be transmitted through contaminated bedding, food, and water. In the lab setting, the virus can be transmitted through aerosolized particles, making it highly contagious in populations of mice.
The incubation period for ectromelia, infectious ranges from 5 to 10 days. The initial symptoms include a loss of appetite, lethargy, and hunched posture. As the infection progresses, a rash may develop on the ears, nose, and tail, which eventually spreads to the rest of the body. In severe cases, the rash can ulcerate and become necrotic, leading to the loss of limbs or digits.
There is no specific treatment for ectromelia, infectious. However, supportive care such as fluid therapy, nutritional support, and pain management can help manage the symptoms and improve outcomes. Prevention measures include maintaining good hygiene practices, quarantine of infected animals, and vaccination of susceptible populations.
While ectromelia, infectious is primarily a disease of mice, it has been used as a model for studying poxviruses and developing vaccines. The virus shares many similarities with variola virus, the causative agent of smallpox, making it a valuable tool for research.
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.
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.
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.
Organophosphonates are a class of organic compounds characterized by the presence of a carbon-phosphorus bond. They contain a phosphonic acid group, which consists of a phosphorus atom bonded to four oxygen or nitrogen atoms, with one of those bonds being replaced by a carbon atom.
In a medical context, organophosphonates are commonly used as radiopharmaceuticals in diagnostic nuclear medicine procedures, such as bone scans. These compounds have the ability to bind to hydroxyapatite, the mineral component of bones, and can be labeled with radioactive isotopes for imaging purposes. They may also be used in therapeutic settings, including as treatments for conditions such as tumor-induced hypercalcemia and Paget's disease of bone.
It is important to note that organophosphonates are distinct from organophosphates, another class of compounds that contain a phosphorus atom bonded to three oxygen or sulfur atoms and one carbon atom. Organophosphates have been widely used as pesticides and chemical warfare agents, and can pose significant health risks due to their toxicity.
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.
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.
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.
Cytosine is one of the four nucleobases in the nucleic acid molecules DNA and RNA, along with adenine, guanine, and thymine (in DNA) or uracil (in RNA). The single-letter abbreviation for cytosine is "C."
Cytosine base pairs specifically with guanine through hydrogen bonding, forming a base pair. In DNA, the double helix consists of two complementary strands of nucleotides held together by these base pairs, such that the sequence of one strand determines the sequence of the other. This property is critical for DNA replication and transcription, processes that are essential for life.
Cytosine residues in DNA can undergo spontaneous deamination to form uracil, which can lead to mutations if not corrected by repair mechanisms. In RNA, cytosine can be methylated at the 5-carbon position to form 5-methylcytosine, a modification that plays a role in regulating gene expression and other cellular processes.