1.Identification of a new subgroup of avian leukosis virus isolated from Chinese indigenous chicken breeds.
Xin WANG ; Peng ZHAO ; Zhi-Zhong CUI
Chinese Journal of Virology 2012;28(6):609-614
In order to clarify Avian leukosis virus (ALV) characteristics from Chinese native chicken breeds, three ALV JS11C1, JS11C2 and JS11C3 were isolated from Chinese native breed "luhua" by inoculation of DF1 cell culture and detection of p27 antigen. Using PCR amplification of env gene, the amplified gp85 genes were analyzed and compared to all six chicken ALV subgroups reported. The gp85 genes of these three viruses were 1 005bp in length and encoded 335 amino acids, and the gp37 genes were 609bp and encoded 203 amino acids. The homology of gp85 among these three isolated strains was 91.9%-97.0%. Comparing to 18 stains of subgroup A, B, C, D, E published in GenBank, the homology was only in the range of 77.7%-84.6%, significantly lower than the gp85 homology observed within the common chicken subgroups A (88.2%-98.5%), B (91.6%-98.8%), and E (97.9%-99.4%). The gp85 homology compared with subgroup J was only 34.2%-36.5%. These results suggested that three isolated strains from Chinese native breed "luhua" belong to a new subgroup different from all six known subgroups from Chickens, and thus designated as subgroup K.
Animals
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Avian Leukosis
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virology
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Avian Leukosis Virus
;
classification
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genetics
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isolation & purification
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metabolism
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Breeding
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Chickens
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genetics
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virology
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Molecular Sequence Data
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Phylogeny
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Poultry Diseases
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virology
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Viral Envelope Proteins
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genetics
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metabolism
2.The relationship of virus load, receptor expression and tumor spectrum in layer chickens infected by ALV-J.
Li-ming CAI ; Zhen-zhen WANG ; Yan-ming WANG ; Yan wei SHEN ; Rong-rong WEI ; Zi-qiang CHENG
Chinese Journal of Virology 2013;29(5):515-521
Abstract:Subgroup J avian leukosis virus (ALV-J) infect cells by binding to the chNHE1 receptor protein of the host and causes tumors. The tumor incidence of the ALV-J-infected chickens was observed by histo pathology, and virus was isolated on DF-1 cell line. The ALV-J load and mRNA of chNHElreceptor protein were detected by real time PCR. The relationship between ALV-J load, chNHE1 receptor expression levels and tumor spectrum was analyzed. The results showed that the tumors induced by ALV-J in laying hens and local lines of chicken were different. No significant relationship was observed between ALV-J load and tumor spectrum. ALV-J load was positively correlated with mRNA expression of chNHE1. The mRNA expression of chNHE1 increased when the tumors occurred. Our results suggest the chNHE1 protein is not only the receptor of ALV-J infected host but also play an important role in the process of tumor development. This study provides a scientific basis for further studying of oncogenic mechanism of ALV-J.
Animals
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Avian Leukosis
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genetics
;
metabolism
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virology
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Avian Leukosis Virus
;
genetics
;
physiology
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Chickens
;
genetics
;
metabolism
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Poultry Diseases
;
genetics
;
metabolism
;
virology
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Receptors, Virus
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genetics
;
metabolism
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Sodium-Hydrogen Exchangers
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genetics
;
metabolism
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Viral Load
3.Isolation of Subgroup J Avian Leukosis Virus in Korea.
Haan Woo SUNG ; Jae Hong KIM ; Sanjay REDDY ; Aly FADLY
Journal of Veterinary Science 2002;3(2):71-74
Two subgroup J avian leukosis viurses (ALVs) were isolated from broiler breeder flocks, in which myeloid leukosis had occurred. The isolates could be classified as subgroup J ALV. by the positive reaction in polymerase chain reaction (PCR) with primers specific for subgroup J ALV. Two isolates replicated in chicken embryo fibroblast (CEF) cells from the alv6 chicken line in which cells are resistant to subgroup A and E ALVs. In in vitro serum neutralization tests with other subgroup ALVs including ADOL-Hc1, the prototype of subgroup J ALVs isolated in the United States of America, two isolates were partially neutralized by antibody to ADOL-Hc1, indicating that Korean isolates and ADOL-Hc1 may be antigenically related, but not identical. When the PCR was done with a primer pair designed to amplify genes of E element and long terminal repeat of proviral DNA, the PCR product size of one isolate (KOAL-PET) was smaller than that of ADOL-Hc1, suggesting that some sequences in these regions are deleted.
Animals
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Antibodies, Viral/immunology
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Antigens, Viral/immunology
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Avian Leukosis/virology
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Avian leukosis virus/*classification/genetics/immunology/*isolation & purification
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Cell Line
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Chick Embryo
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Chickens/*virology
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Korea
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Neutralization Tests
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Polymerase Chain Reaction
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Poultry Diseases/virology
4.Cross-species Transmission of Avian Leukosis Virus Subgroup J.
Yanwei SHEN ; Menglian HE ; Ji ZHANG ; Manda ZHAO ; Guihua WANG ; Ziqiang CHENG
Chinese Journal of Virology 2016;32(1):46-55
Avian leukosis virus subgroup J (ALV-J) is an avian retrovirus that can induce myelocytomas. A high-frequency mutation in gene envelope endows ALV-J with the potential for cross-species transmission. We wished to ascertain if the ALV-J can spread across species under selection pressure in susceptible and resistant hosts. First, we inoculated (in turn) two susceptible host birds (specific pathogen-free (SPF) chickens and turkeys). Then, we inoculated three resistant hosts (pheasants, quails and ducks) to detect the viral shedding, pathologic changes, and genetic evolution of different isolates. We found that pheasants and quails were infected under the selective pressure that accumulates stepwise in different hosts, and that ducks were not infected. Infection rates for SPF chickens and turkeys were 100% (16/16), whereas those for pheasants and quails were 37.5% (6/16) and 11.1% (3/27). Infected hosts showed immune tolerance, and inflammation and tissue damage could be seen in the liver, spleen, kidneys and cardiovascular system. Non-synonymous mutation and synonymous ratio (NS/S) analyses revealed the NS/S in hypervariable region (hr) 2 of pheasants and quails was 2.5. That finding suggested that mutation of isolates in pheasants and quails was induced by selective pressure from the resistant host, and that the hr2 region is a critical domain in cross-species transmission of ALV-J. Sequencing showed that ALV-J isolates from turkeys, pheasants and quails had moved away from the original virus, and were closer to the ALV-J prototype strain HPRS-103. However, the HPRS-103 strain cannot infect pheasants and quails, so further studies are needed.
Amino Acid Sequence
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Animals
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Avian Leukosis
;
transmission
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virology
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Avian Leukosis Virus
;
classification
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genetics
;
physiology
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Chickens
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Ducks
;
virology
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Galliformes
;
virology
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Host Specificity
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Molecular Sequence Data
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Poultry Diseases
;
transmission
;
virology
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Quail
;
virology
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Sequence Alignment
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Turkeys
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virology
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Viral Envelope Proteins
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chemistry
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genetics
;
metabolism
5.Isolation and identification of a subgroup B avian leukosis virus from chickens of Chinese native breed Luhua.
Dong-Min ZHAO ; Qing-Chan ZHANG ; Zhi-Zhong CUI
Chinese Journal of Virology 2010;26(1):53-57
By inoculation of blood samples in DF-1 (C/E) cell culture, an exogenous avian leukosis virus (ALV) strain SDAU09C2 was isolated from a breeder farm of Chinese native breed "Luhua" in Shandong province. Comparisons of the amino acid sequence of env gene gp85 from the isolate with those from other ALV reference strains of different subgroups indicated that SDAU09C2 had the highest gp85 identity to two reference strains of subgroup B of 92.5%. Its gp85 identity to other chicken ALV subgroups A, C, D, E was in the range of 73.2%-87.9%. The identity to subgroup J was only 30.3%-32.4%. This is the first report on isolation and identification of ALV-B and its gp85 from Chinese native breed chickens.
Amino Acid Sequence
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Animals
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Avian Leukosis
;
virology
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Avian Leukosis Virus
;
chemistry
;
classification
;
genetics
;
isolation & purification
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Breeding
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Chickens
;
Female
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Molecular Sequence Data
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Phylogeny
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Poultry Diseases
;
virology
;
Viral Envelope Proteins
;
chemistry
;
genetics
6.Isolation and identification of avian leukosis virus-B from layer chickens infected with avian leukosis virus-J.
Gong-Zhen LIU ; Hong-Hai ZHANG ; Qing LIU ; Bo QIU ; Feng WANG ; Xiao-Wei WANG ; Hong-Bo CHEN ; Zi-Qiang CHENG
Chinese Journal of Virology 2009;25(6):445-451
Two strains of Avian leukosis virus subgroup B (ALV-B) were isolated for the first time in China Hy-line White on the cultured DF-1 cells which were inoculated tissue samples from by an ELISA assay, a histopathology examination and a PCR-based diagnosis. The results from the ELISA assay indicated that the positive rate of serum antibodies to ALV-B and ALV-J virus were 16.3% (15/92) and 13% (12/92), respectively. The histopathological examination indicated that two types of tumor cells existed at same focus in liver and spleen, which mainly were myelocytoma cells and lymphosarcoma cells. The PCR-based diagnosis were performed as follows: the cellular DNA was extracted from the inoculated DF-1 cells; the specific fragments of 1100 bp and 924 bp were obtained by a PCR system with the diagnostic primers of ALV-B and ALV-J; and the PCR results for ALV-A, MDV and REV were all negative. Then, the amplified fragments of the two ALV-B stains were partially sequenced and shown an identity of 92.8%,94.7% with the prototype strain of ALV-B (RSV Schmidt-ruppin B). The identities of two ALV-J strains with the prototype strain HPRS-103 at 96.9%, 91.5%; The identities of two ALV-J strains with the American prototype strain at 85.9%, 81.5%. Our study had shown that ALV-B was isolated for the first time from the ALV-J infected commercial layer flocks in China. It also indicated that the chance of genetic recombination among various subgroups of ALV was increased.
Animals
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Avian Leukosis
;
pathology
;
virology
;
Avian Leukosis Virus
;
classification
;
genetics
;
isolation & purification
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Cell Line
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Chickens
;
China
;
Liver
;
pathology
;
virology
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Molecular Sequence Data
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Phylogeny
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Poultry Diseases
;
pathology
;
virology
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Spleen
;
pathology
;
virology
7.The ALV-A/B specific antibodies correlation between ELISA and IFA detection in chicken serum.
Xue LI ; De-Qing LI ; Peng ZHAO ; Zhi-Zhong CUI
Chinese Journal of Virology 2012;28(6):615-620
To study the correlation between ELISA and IFA tests in detection of ALV-A/B antibody in chicken sera, ELSA S/P values and IFA titers for different serum samples were measured and statistically analyzed. The results indicated that there was a strong positive correlation between ELISA S/P values and IFA titers (r = 0.97435, P < 0.001). Because the positive correlation between ELISA and IFA was so strong and antibody positive rates were identical in two tests, it suggested that IFA could be used as a alternative method to replace ELISA kit when only limited numbers of samples to be tested to reduce the cost and increase the sensitivity.
Animals
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Antibodies, Viral
;
blood
;
immunology
;
Avian Leukosis
;
diagnosis
;
immunology
;
virology
;
Avian Leukosis Virus
;
classification
;
immunology
;
isolation & purification
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Cell Line
;
Chickens
;
Enzyme-Linked Immunosorbent Assay
;
methods
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Fluorescent Antibody Technique, Indirect
;
methods
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Poultry Diseases
;
diagnosis
;
immunology
;
virology
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Species Specificity
8.The effects of cyclophosphamide treatment on the pathogenesis of subgroup J avian leukosis virus (ALV-J) infection in broiler chickens with Marek's disease virus exposure.
Yongbaek KIM ; Thomas P BROWN ; Mary J PANTIN-JACKWOOD
Journal of Veterinary Science 2004;5(1):49-58
Studies were performed to determine the effects of Bcell suppression on the pathogenesis of Subgroup J avian leukosis virus (ALV-J) in broiler chickens. Neonatal chickens were treated with cyclophosphamide (CY) or PBS, and then infected with ALV-J (ADOL-7501) at 2 weeks of age. CY treatment induced B cell specific immunosuppression throughout the experiment confirmed by decreased bursal weight, intact lymphocyte mitogenetic activity stimulated by Con A and increased relative subpopulation of CD3-positive cells as measured by flow cytometry. Chickens in this experiment had Mareks disease virus exposure prior to three weeks of age as determined by the presence of lymphocytic infiltration and antibody. Virus neutralizing antibody against ALV-J was first observed at 6 weeks post-infection in some of the infected chickens in the PBS group. As expected, none of the chickens from the CY group and uninfected chickens developed virus-neutralizing antibody. The viremic status was measured by real time RT-PCR using SYBR green I dye. The percentage of viremic chickens was significantly higher, and more chickens had high titered viremia, in the CY treated group. No neoplastic foci consistent with ALVJ infection were observed in any of the experimental chickens. The frequency and intensity of viral antigen expression determined by immunohistochemistry was significantly higher in tissues from CY treated birds than those of PBS treated chickens at 3 weeks post-infection. This study showed that B cell specific immunosuppression with CY treatment in chickens resulted in increase in viremia and viral antigen load in tissues.
Animals
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Avian Leukosis/*immunology/virology
;
Avian leukosis virus/genetics/*immunology
;
Body Weight/physiology
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Bursa of Fabricius/immunology
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*Chickens
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Concanavalin A/immunology
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Cyclophosphamide/*pharmacology
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Flow Cytometry/veterinary
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Immunocompromised Host
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Immunohistochemistry/veterinary
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Immunophenotyping/veterinary
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Immunosuppressive Agents/*pharmacology
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Lymphocyte Activation/drug effects/immunology
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Organic Chemicals/chemistry
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Poultry Diseases/immunology/*virology
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RNA, Viral/chemistry/genetics
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Random Allocation
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Reverse Transcriptase Polymerase Chain Reaction/veterinary
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Spleen/immunology/virology
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Statistics, Nonparametric
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Viremia/veterinary
9.The critical time of avian leukosis virus subgroup J-mediated immunosuppression during early stage infection in specific pathogen-free chickens.
Feng WANG ; Xiaowei WANG ; Hongbo CHEN ; Jianzhu LIU ; Ziqiang CHENG
Journal of Veterinary Science 2011;12(3):235-241
The critical time of avian leukosis virus subgroup J (ALV-J)-mediated immunosuppression was determined by body weight, relative immune organ weight, histopathology, and presence of group specific antigen and antibodies in specific pathogen-free (SPF) chickens. CD4+ and CD8+ cell activity in the spleen, total and differential leukocyte counts in blood, and viral RNA levels in spleen were measured. Significant growth suppression was observed in the two ALV-J-infected groups. A strong immune response by infected groups was present in spleen at 2-weeks-of-age, but after 4-weeks-of-age, the response decreased quickly. The thymus and bursa showed persistent immunosuppression until 4-weeks-of-age. Proliferation of fibroblasts and dendritic cells were observed in immune organs at 4- and 5-weeks-of-age. However, the granulocyte cell number was markedly lower in the infected groups than in the control group. In group 1 (day 1 infection) CD4+ cells increased during the second week but significantly decreased during the fourth week, while group 2 (day 7 infection) showed the opposite effect. Viral RNA increased significantly by the fourth week. These data identify 3~4 weeks post-infection as the key time at which the ALV-J virus exerts its immunosuppressive effects on the host.
Animals
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Antibodies, Viral/blood
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Antigens, CD4/blood
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Antigens, CD8/blood
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Avian Leukosis/*immunology/transmission/virology
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Avian leukosis virus/classification/*immunology
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Body Weight
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*Chickens
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China
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Enzyme-Linked Immunosorbent Assay/veterinary
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Immune Tolerance
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Leukocyte Count/veterinary
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Poultry Diseases/*immunology/transmission/virology
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RNA, Viral/genetics
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Real-Time Polymerase Chain Reaction/veterinary
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Reverse Transcriptase Polymerase Chain Reaction/veterinary
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Specific Pathogen-Free Organisms
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Spleen/immunology
10.Prevalence of Hepatitis B Virus and HIV Co-infection in Korea.
Hyun Ho LEE ; Hae Guen HONG ; Jong Seong SON ; Sun Mok KWON ; Bu Geon LIM ; Kang Bum LEE ; Gu Hwan KIM
Journal of Bacteriology and Virology 2016;46(4):283-287
Hepatitis B virus (HBV) and human immunodeficiency virus (HIV) have a common route like sexually transmitted infections (STIs), vertical transmission and blood transfusion, etc. Therefore, it was necessary to be an attempt to confirm the relationship of HBV and HIV in Korea. We investigated the prevalence of Hepatitis B surface antigen (HBsAg) and Hepatitis B core antibody (anti-HBc) in HIV positive groups (n=430) and HIV negative groups (n=434) from January 2014 to October 2015. When comparing the prevalence of anti-HBc between the two groups, HIV positive group (36.0%) showed a higher prevalence than HIV negative group (24.7%), the result was statistically significant (p < 0.05). However, there was a little difference on HBsAg and not significant. Therefore, by showing a clear difference in anti-HBc between the two groups of HIV in Korea, it was confirmed to be associated with co-infections between Hepatitis B and HIV.
Blood Transfusion
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Coinfection*
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Hepatitis B Surface Antigens
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Hepatitis B virus*
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Hepatitis B*
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Hepatitis*
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HIV*
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Korea*
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Prevalence*
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Sexually Transmitted Diseases