Vol 59, No 2 (2014)
- Year: 2014
- Published: 15.04.2014
- Articles: 10
- URL: https://virusjour.crie.ru/jour/issue/view/111
The peculiarities of the Influenza epidemics in some areas of Russia during 2012-2013 season. The Influenza A (H1N1) pdm09 virus domination in European countries
Abstract
The peculiarities of the influenza viruses circulation in 2012-2013 are discussed. The results were obtained in 10 cities of Russia, where basic laboratories of the Influenza Ecology and Epidemics Center of on the basis of Ivanovsky Institute of Virology, Ministry of Health of the Russian Federation, are situated. The increasing rate of the ARD morbidity caused by influenza viruses was observed in January-March 2013. The highest indices of the morbidity were detected during 6-7 weeks with the following decreasing rate till threshold levels to week 14. The influenza A (H1N1) pdm09, A (H3N2), and B viruses were the cause of the epidemic, but their activity differed over areas of Russia. The results of study of the antigenic and genetic properties of the influenza strains demonstrated closed relatives with respect to vaccine strains. In addition, some heterogeneity of the circulating strains and their drift variants were found as well. All tested strains were sensitive to oseltamivir (excluding one A (H1N1) pdm09 strain), zanamivir, arbidol, and remained resistant to rimantadine. The ratio of the ARD viruses was comparable with the last epidemic seasons.
Problems of Virology. 2014;59(2):5-10
5-10
Vaccine-like viruses: peculiarities of circulation in the South America
Abstract
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.
Problems of Virology. 2014;59(2):10-14
10-14
Taxonomy of previously unclassified Tamdy virus (TAMV) (Bunyaviridae, Nairovirus) isolated from the Hyalomma asiaticum asiaticum SchOlce et Schlottke, 1929 (Ixodidae, Hyalomminae) in the Middle East and Transcaucasia
Abstract
Complete genome sequencing of three Tamdy (TAMV) virus strains was carried out. The prototype strain TAMV/ LEiV-1308Uz was isolated for the very first time from the Hyalomma asiaticum asiaticum Schulce et Schlottke, 1929 (Ixodidae, Hyalomminae) collected in the August 1971 from sheep in the arid area near Namdybulak town (41°36' N, 64°39' E) in the Tamdinsky district of the Bukhara region (Uzbekistan). TAMV was revealed to be a prototype member of the new phylogenetic group within the limits of the Nairovirus. The TAMV homology for RdRp (L-segment) amino acid sequence is not less than 40% with Crimea-Congo hemorrhagic fever virus (CCHFV), Hazara virus (HAZV), and Dugbe virus (DUGV), which are also linked with ixodidae ticks. The TAMV homologies with the issyk-Kul virus (iSKV) and Caspiy virus (CASV) for RdRp are 37.6% and 37.7%, respectively. These data conformed to the low values of GnGc (M-segment) and nucleocapsid protein N (S-segment) homology. The TAMV homologies with the nairoviruses for GnGc is in average 25%; with the nairoviruses linked with ixodidae ticks (CCHFV, DUGV, HAZV) - 33%; with Argasidae ticks (iSKV, CASV) - 28%. The TAMV/LEiV-1308Uz, LEiV-6158Ar, and LEiV-10226Az have high level of identity. The TAMV/LEiV-10226Az from Azerbaijan has 99% homology for both nucleotide and amino acid sequences of the prototype TAMV/LEiV-1308Uz RdRp. The TAMV/LEiV-6158Ar from Armenia is more divergent and has 94.2% and 96.3% homologies with the TAMV/LEiV-1308Uz, respectively. The homology between the TAMV/LEiV-1308Uz and TAMV/LEiV-10226Az for GnGc is 93%. The TAMV/LEiV-6158Ar has 90% homology for this protein with the TAMV/LEiV-1308Uz and 93% with the TAMV/LEiV-10226Az, respectively. Differences in nucleocapsid protein between three TAMV strains are 5-7%.
Problems of Virology. 2014;59(2):15-22
15-22
Molecular-genetic characterization of the Okhotskiy virus (OKHV) and Aniva virus (ANIV) (Orbivirus, Reoviridae) isolated from the ticks Ixodes (Ceratixodes) uriae White, 1852 in High Latitudes of the Northern Eurasia
Abstract
Molecular-genetic characteristics of the Okhotskiy virus (OKHV) and Aniva virus (ANiV) were studied (iD GenBank KF981623-32). These viruses are distributed over the shelf and island areas in the high latitudes in the Okhotsk, Bering, and Barents seas and linked with nesting colonies of Alcidae seabirds and their obligatory parasites, the Ixodes uriae (Ixodidae) ticks. OKHV and ANiV are observed to be independent species within the limits of the Great island virus (GiV) group of the Orbivirus genus of the Reoviridae family. The majority of the genes of OKHV and ANiV have high homology (VP1 - 96%, Т2 - 99%, VP7 (T13) - 98%, NS1 - 94%, NS2 - 98%, NS3 - 72%, VP6 - 93%). Nevertheless, the envelope proteins containing the main specific antigenic determinants (VP2 and VP5) of OKHV and ANiV are sufficiently different (62% and 68% homology for amino acid sequences, respectively).
Problems of Virology. 2014;59(2):22-28
22-28
Taxonomic status of the Tyulek virus (TLKV) (Orthomyxoviridae, Quaranjavirus, Quaranfil group) isolated from the ticks Argas vulgaris Filippova, 1961 (Argasidae) from the birds burrow nest biotopes in the Kyrgyzstan
Abstract
The Tyulek virus (TLKV) was isolated from the ticks Argas vulgaris Filippova, 1961 (Argasidae), collected from the burrow biotopes in multispecies birds colony in the Aksu river floodplain near Tyulek village (northern part of Chu Valley, Kyrgyzstan). Recently, the TLKV was assigned to the Quaranfil group (including the Quaranfil virus (QRFV), Johnston Atoll virus (JAV), Lake Chad virus) that is a novel genus of the Quaranjavirus in the Orthomyxoviridae family. in his work, the complete genome (iD GenBank KJ438647-8) sequence of the TLKV was determined using next-generation sequencing (illumina platform). Comparison of deduced amino acid sequences shows closed relationship of the TlKv with QRFV and JAV (86% and 84% identity for PB1 and about 70% for PB2 and PA, respectively). The identity level of the TLKV and QRFV in outer glycoprotein GP is 72% и 80% for nucleotide and amino acid sequences, respectively. The phylogenetic analysis showed that the TLKV belongs to the genus of the Quaranjavirus in the family Orthomyxoviridae.
Problems of Virology. 2014;59(2):28-32
28-32
Genetic characterization of the Batken virus (BKNV) (Orthomyxoviridae, Thogotovirus) isolated from the Ixodidae ticks Hyalomma marginatum Koch, 1844 and the mosquitoes Aedes caspius Pallas, 1771, as well as the Culex hortensis Ficalbi, 1889 in the Central Asia
Abstract
The prototype strain LEiV-K306 of the Batken virus (BKNV) was isolated from the ixodidae ticks Hyalomma marginatum Koch, 1844 collected from sheep near town Batken (Kirgizstan) in the April 1970. Later, the BKNV was isolated in Kirgizstan from the mixed pool of the Aedes caspius Pallas, 1771 and Culex hortensis Ficalbi, 1889 mosquitoes. From the very beginning, the BKNV was discussed to be very close to the Dhori virus (DHOV) (Orthomyxoviridae, Thogotovirus) isolated from the ixodidae ticks Hyalomma dromedarii Koch, 1844 in india. in this work, virtually complete genome sequence (Miseq, illumina) of the BKNV was determined (iD GenBank KJ396672-4). Structural and non-structural proteins of the BKNV have a high level of homology with DHOV - 98% (PB1) and 96% (PB2, PA, NP, M). Homology of HA protein between the BKNV and DHOV is 90%, which accounts for antigenic difference between these close relative viruses. Since the differences in the other structural and non-structural proteins are about 96-98%, the BKNV could be suggested as the topotypic DHOV strain for Central Asia, Transcaucasia, and Northern Caspian region. The evolution divergence of the BKNV and DHOV for HA could be explained by local ecologic peculiarities of the BKNV areal.
Problems of Virology. 2014;59(2):33-37
33-37
The antiviral activity of the adamantane derivatives against the influenza virus A (H1N1) pdm09 model in vivo
Abstract
For the first time in vivo, the model of the viral pneumonia in mice was used to study the antiviral activity against influenza A virus (H1N1) pdm09 synthetic derivatives of adamantane series including the amino acid residues and lipoid acid. it was found that the adamantane derivatives with histidine, serine, and lipoid acid could inhibit the rimantadine-resistant strain of the influenza A (H1N1) pdm09. As a result, the lifespan of the mice infected with the virus has increased by 1.6 times with respect to viral control. Thus, the possibility of restoration of antiviral properties of rimantadine both in vitro and in vivo by introducing into its molecular structure new functionally active groups was tested.
Problems of Virology. 2014;59(2):37-40
37-40
Comparative study of MDCK and CaCo-2 cell lines for influenza virus isolation
Abstract
Study of effectiveness of CaCo-2 cell line for influenza virus isolation was carried out. it was shown that the properties of this cell line strongly depended on the source of its origin and cultivation conditions. The infectious activity of the influenza viruses on CaCo-2 cell line was virtually the same as in the MDCK cell line. The rate of the viral isolation was virtually identical for both cell lines tested, but viruses from post-mortem materials were isolated only in CaCo-2 cell line. in general, the CaCo-2 line is believed to be a valuable cell line for virological research, particularly for influenza virus isolation.
Problems of Virology. 2014;59(2):40-45
40-45
A Study of the antiherpetic activity of the chaga mushroom (Inonotus obliquus) extracts in the Vero cells infected with the herpes simplex virus
Abstract
The chaga mushroom (Inonotus obliquus) contains a wide range of excellent bioactive compounds. However, limited information exists on the antiviral activity of the compounds extracted from chaga. A number of subfractions of chaga were obtained using different solvents and different procedures. The subfractions of chaga extracted with water, alcohol, alkali were tested for their toxicity for the Vero cell culture and antiviral effect in the Vero cells infected with the Herpes simplex virus (HSV), Type 1. it was shown that most of the subfractions were not toxic for the Vero cells and had protective effect on the Vero cells infected with HSV. The subfraction iV in the concentration 5 pg/ml protected the Vero cells from cytodestructive action of HSV and no viral DNA was detected in infected cells treated with chaga extracts. Best protective effect was observed when compound was added before or within one hour after the Vero cells were infected with HSV.
Problems of Virology. 2014;59(2):45-48
45-48
N.V. Kaverin
Problems of Virology. 2014;59(2):49-49
49-49