Argasidae
Ornithodoros
Ticks
The high genetic variation of viruses of the genus Nairovirus reflects the diversity of their predominant tick hosts. (1/12)
The genus Nairovirus (family Bunyaviridae) contains seven serogroups consisting of 34 predominantly tick-borne viruses, including several associated with severe human and livestock diseases [e.g., Crimean Congo hemorrhagic fever (CCHF) and Nairobi sheep disease (NSD), respectively]. Before this report, no comparative genetic studies or molecular detection assays had been developed for this virus genus. To characterize at least one representative from each of the seven serogroups, reverse transcriptase-polymerase chain reaction (RT-PCR) primers targeting the L polymerase-encoding region of the RNA genome of these viruses were successfully designed based on conserved amino acid motifs present in the predicted catalytic core region. Sequence analysis showed the nairoviruses to be a highly diverse group, exhibiting up to 39.4% and 46.0% nucleotide and amino acid identity differences, respectively. Virus genetic relationships correlated well with serologic groupings and with tick host associations. Hosts of these viruses include both the hard (family Ixodidae) and soft (family Argasidae) ticks. Virus phylogenetic analysis reveals two major monophyletic groups: hard tick and soft tick-vectored viruses. In addition, viruses vectored by Ornithodoros, Carios, and Argas genera ticks also form three separate monophyletic lineages. The striking similarities between tick and nairovirus phylogenies are consistent with possible coevolution of the viruses and their tick hosts. Fossil and phylogenetic data placing the hard tick-soft tick divergence between 120 and 92 million years ago suggest an ancient origin for viruses of the genus Nairovirus. (+info)Ixodid and argasid tick species and west nile virus. (2/12)
Control of West Nile virus (WNV) can only be effective if the vectors and reservoirs of the virus are identified and controlled. Although mosquitoes are the primary vectors, WNV has repeatedly been isolated from ticks. Therefore, tick-borne transmission studies were performed with an ixodid (Ixodes ricinus) and an argasid tick species (Ornithodoros moubata). Both species became infected after feeding upon viremic hosts, but I. ricinus ticks were unable to maintain the virus. In contrast, O. moubata ticks were infected for at least 132 days, and the infection was maintained through molting and a second bloodmeal. Infected O. moubata ticks transmitted the virus to rodent hosts, albeit at a low level. Moreover, the virus was nonsystemically transmitted between infected and uninfected O. moubata ticks co-fed upon uninfected hosts. Although ticks are unlikely to play a major role in WNV transmission, our findings suggest that some species have the potential to act as reservoirs for the virus. (+info)African swine fever virus DNA in soft ticks, Senegal. (3/12)
(+info)Structure, function, and evolution of biogenic amine-binding proteins in soft ticks. (4/12)
(+info)Function, mechanism and evolution of the moubatin-clade of soft tick lipocalins. (5/12)
(+info)Rickettsia hoogstraalii sp. nov., isolated from hard- and soft-bodied ticks. (6/12)
(+info)Developmental biology of Argas neghmei Kohls & Hoogstraal (Acari: Argasidae) under laboratory conditions. (7/12)
(+info)Bm86 homologues and novel ATAQ proteins with multiple epidermal growth factor (EGF)-like domains from hard and soft ticks. (8/12)
(+info)Argasidae is a family of ticks commonly known as soft ticks. These ticks differ from hard ticks (Ixodidae) in that they do not have a hard, shield-like plate on their backs and have a softer, leathery cuticle. Soft ticks are also characterized by their mouthparts being located at the end of a prolonged, flexible proboscis.
Soft ticks are primarily parasites of birds and bats but can occasionally feed on humans and other mammals. They are known to transmit several diseases, including relapsing fever caused by various species of Borrelia bacteria. Unlike hard ticks, soft ticks may feed for a short period (minutes) or over extended periods (hours to days), depending on the species.
It is important to note that Argasidae is a medical term used in taxonomy and should not be confused with medical conditions or treatments.
Ornithodoros is a genus of hard-bodied ticks that belong to the family Argasidae, also known as soft ticks. These ticks are characterized by their lack of a distinct rear end or capitulum, and they have a leathery cuticle that appears smooth and shiny when they are engorged with blood.
Ornithodoros ticks are known to be vectors of various diseases, including relapsing fever caused by Borrelia spp. They can transmit these pathogens through their saliva during feeding, which typically occurs at night. Ornithodoros ticks are also capable of surviving for long periods without food, making them efficient carriers and transmitters of disease-causing agents.
These ticks are often found in the nests or burrows of animals such as birds, reptiles, and mammals, where they feed on the host's blood. Some species of Ornithodoros ticks can also bite humans, causing skin irritation and other symptoms. It is important to take precautions when entering areas where these ticks may be present, such as wearing protective clothing and using insect repellent.
A medical definition of "ticks" would be:
Ticks are small, blood-sucking parasites that belong to the arachnid family, which also includes spiders. They have eight legs and can vary in size from as small as a pinhead to about the size of a marble when fully engorged with blood. Ticks attach themselves to the skin of their hosts (which can include humans, dogs, cats, and wild animals) by inserting their mouthparts into the host's flesh.
Ticks can transmit a variety of diseases, including Lyme disease, Rocky Mountain spotted fever, anaplasmosis, ehrlichiosis, and babesiosis. It is important to remove ticks promptly and properly to reduce the risk of infection. To remove a tick, use fine-tipped tweezers to grasp the tick as close to the skin's surface as possible and pull upward with steady, even pressure. Do not twist or jerk the tick, as this can cause the mouthparts to break off and remain in the skin. After removing the tick, clean the area with soap and water and disinfect the tweezers.
Preventing tick bites is an important part of protecting against tick-borne diseases. This can be done by wearing protective clothing (such as long sleeves and pants), using insect repellent containing DEET or permethrin, avoiding wooded and brushy areas with high grass, and checking for ticks after being outdoors.