POXVIRUS DISEASE OF SQUIRRELS (POXVIRIDAE, CHORDOPOXVIRINAE, SQPV - SQUIRREL POXVIRUS).

A new taxon of the subfamily Chordopoxvirinae that may represent a new genus of smallpox viruses is considered in this review. The distribution of gray squirrels (Sciurus carolinensis) throughout the UK during the 20th century and the decrease in the population of red squirrels (Sciurus vulgaris) is one of the most well-documented cases of ecological change of local fauna by the introduced species. The tendency to expand the distribution of the smallpox virus from Great Britain to the Western part of Europe has been noted. The genetic peculiarities of the genome of the poxvirus of squirrels, which determine its biological properties, as well as evolutionary relationships with other poxviruses, are separately described. Determination of the size of the genome by restriction analysis, sequencing of the whole genome, determination of the content of G/C nucleotide pairs, and functional mapping of the majority of genes made it possible to construct a phylogenetic tree. Phylogenetic analysis shows that this is a new representative of the subfamily Chordоpoxvirinae located between the viruses of the molluscum contagiosum and parapoxviruses. Serological and molecular biological methods are used to reveal and identify the causative agent of smallpox. The use of electron microscopy is limited in grey squirrels, due to the absence of organ damage and reproduction of the virus. Identification of the DNA of the causative agent of poxvirus of squirrels based on the use of different types of polymerase chain reaction (nested and in real time) overcomes all these limitations.

Buffalopox.

Buffalopox is a contagious viral disease affecting milch buffaloes (Bubalus Bubalis) and, rarely, cows. The disease has zoonotic implications, as outbreaks are frequently associated with human infections, particularly in the milkers. Buffalopox is associated with high morbidity (80%). The clinical symptoms of the disease are characterized by wartline lesions on the udder, teats, inguinal region, base of the ears, and over the parotid. In the severe form, generalized rash is observed. Although the disease does not lead to high mortality, it has an adverse effect on the productivity and working capacity of the animals resulting in large economic losses. The outbreaks of buffalopox occurred frequently in India, Pakistan, Bangladesh, Nepal, Iran, Egypt, and Indonesia, where buffaloes are reared as milch animals. The buffalopox is closely related with other Orthopoxviruses. In particular, it is close to the vaccinia virus. There is a view that the buffalopox virus might be derived from the vaccinia virus. It is possible that it became pathogenic to humans and animals through adaptive evolution of the genome by obtaining the virulence genes. PCR is performed for the C18L gene for the purpose of specific detection and differentiation of the buffalopox virus from other orthopoxviruses. The C18L gene encodes the ankyrin repeat protein, which determines the virus host range. The open reading frame of this gene is only 150-nucleotide long as against 453 nucleotide in the vaccinia virus, 756 - in the camelpox virus, and 759 - in the cowpox virus. It can be concluded that a systematic study based on the epidemiology of the virus, existence of reservoirs, biological transmission, and the molecular organization of the buffalopox virus from buffalo, cow, and humans may pave the way to a better understanding of the circulating virus and contribute to the control of the disease using the suitable diagnostic and prophylactic measures.

[DETECTION OF VENEZUELAN EQUINE ENCEPHALOMYELITIS VIRUS RNA IN BIOLOGICAL SAMPLES BY REVERSE-TRANSCRIPTION POLYMERASE CHAIN REACTION].

AIM: Detection-and identification of Venezuelan equine encephalomyelitis (VEE) virus RNA in biological samples by reverse-transcription polymerase chain reaction (RT-PCR) and RT-PCR in real time (rRT-PCR). MATERIALS AND METHODS: VEE, Sindbis, West Nile, Japanese and tick-borne encephalitis viruses were studied. Cell culture of chicken fibroblasts, outbred mice and rats, Javanese macaques were used in the experiments. Biological activity determination of the running culture of causative agents used in the experiments was carried out by negative colony method in monolayer cell culture under agar coating. and using intra-cerebral infection of mice. Reagent kits developed in the 48th Central Research Institute and Institute of Analytical Instrument Engineering were used during execution of experiments of VEE virus RNA detection by RT-PCR and rRT-PCR. RESULTS: VEE virus was detected in biological samples by various methods. Data from RT-PCR and rRT-PCR are in accordance with the results of virus detection in samples using sensitive animals. CONCLUSION: Use of molecular-diagnostics methods for detection in biological samples of a causative agent of a dangerous infectious disease is important for procuring biological safety of Russian Federation.

[EPIDEMIOLOGIC ANALYSIS OF OUTBREAKS OF DISEASES CAUSED BY AMERICAN EQUINE ENCEPHALITIS CAUSATIVE AGENTS IN ENDEMIC REGIONS].

Epidemiologic analysis of epidemic outbreaks caused by American equine encephalitis causative agents is carried out in the review. Eastern equine encephalomyelitis (EEE), Western equine encephalomyelitis (WEE) and Venezuela equine encephalomyelitis (VEE) viruses are etiologic agents of dangerous transmissive diseases that are usually accompanied by fever and neurologic symptoms. Among the New World alphaviruses, VEE virus has the most potential danger for humans and domestic animals. Currently, enzootic strains of VEE play an increasing role as etiologic agents of human diseases. Most of the VEE cases in humans in endemic regions during inter-epidemic period are caused by infection with VEE subtype ID virus. A possibility of emergence of novel epidemic outbreaks of VEE is determined by mutations of ID subtype strains into IC subtype, and those currently pose a potential threat as an etiologic agent of the disease. Despite low morbidity, EEE and WEE are a problem for healthcare due to a relatively high frequency of lethal outcomes of the disease.

[Vaccine-like viruses: peculiarities of circulation in the South America].

The peculiarities of the spread of vaccine-like viruses first revealed more than 50 years ago in the area of the South America was discussed. These viruses cause infective episodes among milk cattle and caretaking personnel. Cancellation of the smallpox vaccination in 1980 resulted in a decrease in the community immunity and increased the risks of human infection. This circumstance makes it necessary to activate monitoring of the properties of the vaccine-like viruses, the circle of hosts and possible changes in the pathogenicity for humans.