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Sequence analysis of the variable VP2 gene of infectious bursal disease viruses isolated in Korea.
1999
Kwon H.M. | Kim D.K. | Seong H.W.
A 474-base pair segment covering the hypervaible region of VP2 gene from six Korean infectious bursal disease virus(K-IBDV) isolates(K1, K2, SH/92, 225, 269, 310) and one attenuated IBDV(DAE) were amplified using RT-PCR, sequenced, and compared with published sequences for IBDV. K-IBDV isolates(K1, K2, SH/92, 225, 269) and foreigh very virulent(vv) IBDV strains had 94.93-100% amino cid sequence similarity. K-IBDV isolate 310 and other K-IBDV isolates had 84.31%-86.07% amino acid sequence similarity. Attenuated strain(DAE), like other attenuated strain, has substitution at positions 279(D to N) and 284(A to T) as well as in the serine-rich heptapeptide region. Five K-IBDV isolates except 310 isolate share unique amino acid residues at positions 222(A), 256(I), 294(I) which are not present in other standard and attenuated strains. At the two hydrophilic region, K-IBDV isolates except 310 isolate had identical amino cids comparing with Belgium vv IVDV 894VB but had four amino acid substitutions comparing with Chinese vv IBDV F9502. The SWSASGS heptapeptide is conserved in all KIBDV isolates. The sequence of K-IBDV isolate 310 was markedly different from other IBDV strains, evolving from a separate lineage than the others. By phylogenetic analysis, Five K-IBDV isolates except 310 isolate were categorized in one group with foreign vv IBDV isolates but K-IBDV isolate 310 was categorized ina separate group which was differentiated form other compared IBDV strains.
Afficher plus [+] Moins [-]Diagnostic implications of detection of proteinase K-resistant protein in spleen, lymph nodes, and brain of sheep.
1992
Race R. | Ernst D. | Jenny A. | Taylor W. | Sutton D. | Caughey B.
Brain, spleen, and selected lymph nodes from sheep with clinical signs of scrapie were analyzed for presence of proteinase K-resistant protein (PrP-res). Diagnosis of scrapie on the basis of detection of PrP-res was compared with diagnosis on the basis of histologic evaluation of the brain from clinically affected or exposed sheep. Proteinase K-resistant protein was found in every brain that was histologically positive for scrapie, and in addition, was found in the brain of several clinically positive sheep that were not diagnosed as scrapie-positive by histologic evaluation. Proteinase K-resistant protein was also found in 87% of the spleens and lymph nodes from sheep that had PrP-res detected in brain homogenates. Therefore, analysis of sheep brain, spleen, or lymph nodes for PrP-res provided a diagnostic approach that was superior to histologic examination alone for detection of naturally scrapie agent-infected sheep.
Afficher plus [+] Moins [-]Seroeactivity of Peruvian sheep and goats to small ruminant lentivirus-ovine progressive pneumonia virus.
1987
Madewell B.R. | Ameghino E. | Rivera H. | Inope L. | De Martini J.
Morphologic study of inclusions in tissues from pigs inoculated with cytomegalovirus.
1987
Narita M. | Kawamura H. | Shirai J. | Haritani M.
Serologic survey of viral antibodies in the Peruvian alpaca (Lama pacos).
1987
Rivera H. | Madewell B.R. | Ameghino E.
Electroencephalogram and evoked potentials in naturally occurring scrapie in sheep.
1986
Strain G.M. | Olcott B.M. | Braun W.F. Jr.
Isolation of an adeno virus from hydropericardium syndrome in broiler chicks.
1988
Khawaja D.A. | Ahmad S. | Rauf A.M. | Zulfiqar M. | Mahmood S.M.I. | Mahmood ul Hassan M.
Culture of glial cells isolated from the spinal cord of demyelinating mice infected with Theiler's virus: An immunocytochemical study.
1991
Shin T.K.
Seroprevalence and associated risk factors of Rift Valley fever in cattle and selected wildlife species at the livestock/wildlife interface areas of Gonarezhou National Park, Zimbabwe
2020
Ndengu, Masimba | Matope, Gift | Tivapasi, Musavengana | Pfukenyi, Davies Mubika | Cetre-Sossah, Catherine | De Garine-Wichatitsky, Michel
A study was conducted to investigate the seroprevalence and associated risk factors of Rift Valley fever (RVF) infection in cattle and some selected wildlife species at selected interface areas at the periphery of the Great Limpopo Transfrontier Conservation Area in Zimbabwe. Three study sites were selected based on the type of livestock–wildlife interface: porous livestock–wildlife interface (unrestricted); non-porous livestock–wildlife interface (restricted by fencing) and livestock–wildlife non-interface (totally absent contact or control). Sera were collected from cattle aged ≥ 2 years representing both female and intact male. Sera were also collected from selected wild ungulates from Mabalauta (porous interface) and Chipinda Pools (non-interface) areas of the Gonarezhou National Park. Sera were tested for antibodies to Rift Valley fever virus (RVFV) using a competitive enzyme-linked immunosorbent assay (ELISA) test. AX2 test was used to assess differences between categories, and p < 0.05 was considered as significant. In cattle, the overall seroprevalence was 1.7% (17/1011) (95% confidence interval [CI]: 1.01–2.7). The porous interface recorded a seroprevalence of 2.3% (95% CI: 1.2–4.3), the non-porous interface recorded a prevalence of 1.8% (95% CI: 0.7–4.3) and the non-interface area recorded a seroprevalence of 0.4% (955 CI: 0.02–2.5), but the difference in seroprevalence according to site was not significant (p > 0.05). All impala and kudu samples tested negative. The overall seroprevalence in buffaloes was 11.7% (95% CI: 6.6–19.5), and there was no significant (p = 0.38) difference between the sites (Mabalauta, 4.4% [95% CI: 0.2–24] vs. Chipinda, 13.6% [95% CI: 7.6–23]). The overall seroprevalence in buffaloes (11.7%, 13/111) was significantly (p < 0.0001) higher than in cattle (1.7%, 17/1011). The results established the presence of RVFV in cattle and selected wildlife and that sylvatic infections may be present in buffalo populations. Further studies are required to investigate if the virus is circulating between cattle and wildlife.
Afficher plus [+] Moins [-]Sequential pathologic changes and viral distribution in rabbits experimentally infected with new Korean strain of rabbit hemorrhagic disease virus (RHDVa)
2012
Park, J.W., Animal, Plant and Fisheries Quarantine and Inspection Agency, Anyang, Republic of Korea | Chun, J.E., Animal, Plant and Fisheries Quarantine and Inspection Agency, Anyang, Republic of Korea | Yang, D.K., Animal, Plant and Fisheries Quarantine and Inspection Agency, Anyang, Republic of Korea | Bak, E.J., Yonsei University, Seoul, Republic of Korea | Kim, H., Animal, Plant and Fisheries Quarantine and Inspection Agency, Anyang, Republic of Korea | Lee, M.H., Animal, Plant and Fisheries Quarantine and Inspection Agency, Anyang, Republic of Korea | Hwang, E.K., Sangji University, Wonju, Republic of Korea | Lee, C.B., Konkuk University, Seoul, Republic of Korea | Woo, G.H., Semyung University, Jecheon, Republic of Korea
Rabbit hemorrhagic disease is a highly acute and fatal viral disease caused by rabbit hemorrhagic disease virus (RHDV). Since first outbreak in Korea 1987, RHDV has been continually affected in the country, but the pattern of outbreak seem to be changed. In this study, to understand the pathogenesis of the new RHDVa serotype, we therefore carried out to inoculate RHDVa to rabbits, and to examine the sequential histopathologic changes and viral distribution. Macroscopically, various sized dark red or white spots or appearance were observed in the liver, lung, kidney uterus and ureter. In euhanized rabbits, significant pathologic findings such as infiltration of heterophils and mononuclear cells were observed at 24 hours after inoculation (HAI), and these were sequentially extended periportal to centrilobular area. However, in dead rabbits, severe hepatic degeneration and/or necrosis with relatively weak inflammatory responses were observed. RHDV antigens began to detect in liver, spleen, and lung from 12 HAI by PCR. Immunohistochemically, RHDV positive cells were seen in only liver from 24 HAI, and the degree of immunogen reactivity was stronger in dead rabbits than in euthanized ones. In conclusion, RHDVa caused the subacute or chronic infection accompanying low mortality and moderate to severe inflammatory reaction in rabbits, suggesting the possibility that RHD could become endemic.
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