1.Hantaanvirus Detection as Etiological Agents Among Bats and Apodemus agrarius in Korea by RT - PCR and IFA.
Yun Tai LEE ; Bo Kyoung YUN ; Kwang Hee LEE ; Jae Gun KIM ; Sang Ick LEE ; Jae Soo KIM ; Dae Sick KIM
Korean Journal of Immunology 1997;19(4):471-480
No abstract available.
Animals
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Chiroptera*
;
Korea*
;
Murinae*
;
Polymerase Chain Reaction*
;
Puumala virus
2.Serological Characterization of Soochong and Muju Virus as New Serotype of Hantavirus.
Soo Yong CHUNG ; Ki Joon SONG ; Jin Won SONG ; Sung Sil MOON ; Eun Ju KIM ; Kwang Sook PARK ; Sun Ho KEE ; Luck Ju BAEK
Journal of Bacteriology and Virology 2005;35(3):249-256
Apodemus agrarius, which accounts for three-fourths of the wild rodents, mainly inhabits in cultivated fields of Korea. Apodemus peninsulae and Eothenomys regulus are the second and third dominant species, respectively. Soochong virus (SOOV) from A. peninsulae and Puumala-related Muju virus (MUJV) from E. regulus were isolated in 1997 and 1998 in Korea, respectively. But serological characterizations of SOOV and MUJV were not identified clearly. Thus, in order to determine the serotypic classification, simultaneous cross-indirect immunofluorescent antibody (IFA) assay and cross-plaque reduction neutralization (PRN) test against four different hantaviruses were conducted with sera from 17 A. agrarius, 19 A. peninsulae, and 8 E. regulus strains. IFA titers of sera from A. agrarius and A. peninsulae were the highest to Hantaan virus (HTNV) and SOOV, respectively. However, most sera showed similar IFA titers to Seoul virus (SEOV). Therefore it was difficult to do serotyping using the sera from A. agrarius and A. peninsulae by IFA. In case of sera of E. regulus, IFA titers to Puumala virus (PUUV) were higher than HTNV, SOOV and SEOV. Cross-PRN result of A. agrarius to HTNV, SOOV, SEOV and PUUV was 6,890, 5,120, 110 and 30, respectively. In case of A. peninsulae, the mean PRN titer was the highest to SOOV (1:6,820) and those to HTNV, SEOV and PUUV were 1,580, 100 and 30, respectively. The mean PRN titers of E. regulus to HTNV, SOOV, SEOV and PUUV were 70, 10, 80 and 640. SOOV and MUJV could be distinguished from HTNV and SEOV by cross-PRNT. These results demonstrate that SOOV and MUJV could be classified as new serotype of hantavirus.
Animals
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Classification
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Hantaan virus
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Hantavirus*
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Korea
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Murinae
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Puumala virus
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Rodentia
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Seoul virus
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Serotyping
4.Isolation and Genetic Study of Hantavirus from Apodemus penibsulae Captured in Yeuncheon-gun, Kyunggi-do.
Ki Joon SONG ; Yong Ju LEE ; Ju Il KANG ; Jin Won SONG ; Luck Ju BAEK ; Yong Soo KIM
Journal of the Korean Society of Virology 1998;28(4):337-345
Hantaviruses are distributed in rodent population world-widely even in geographical areas where hemorrhagic fever with renal syndrome (HFRS) has not been reported. Va.ictus species of Family Muridae and Arvicolidae serve as the natural reservoirs of hantaviruses. Hantaan virus, Seoul virus, Puumala virus, Prospect Hll virus, Sin Hombre virus and New York virus are members of genus Hantavirus and isolated from lungs of A. agrarius, C glareolus, M. pennsylvanicus, P. maniculatus and P. leucopus respectively. This experiment was intended to find the distribution of hantavirus infection among wild rodents and isolate the hantavirus from lung tissue of seropositve Apodemus peninsulae, and compared the nucleotide and amino acid sequences with prototype of hantaan virus 76-118 strain. Hantaviral sequences were amplified from lung tissues of A. peninsulae by reverse-transcriptase polymerase chain reaction. Alignment and comparison of the 324 nucleotide of G2 region of M-genomic segment diverged 4.6% and 0% at the nucleotide and amino acid levels, and complete N protein-coding region of S-genomic segment diverged 3.7% and 1.4% nucleotide and amino acid levels, respectively. This is the report to spill-over on the hantaan virus from A. peninsulae to A. peninsulae in Korea.
Amino Acid Sequence
;
Animals
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Gyeonggi-do*
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Hantaan virus
;
Hantavirus Infections
;
Hantavirus*
;
Hemorrhagic Fever with Renal Syndrome
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Humans
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Korea
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Lung
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Muridae
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Murinae*
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Polymerase Chain Reaction
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Puumala virus
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Rodentia
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Seoul virus
5.Study on Hantavirus Infection of Wild Rodents in Korea.
Luck Ju BAEK ; Ju il KANG ; Ki Joon SONG ; Jin Won SONG ; Young Ju CHOI ; Kwang Sook PARK ; Yong Ju LEE
Korean Journal of Infectious Diseases 1997;29(6):487-497
BACKGROUND: Hantavirus are widely distributed in rodents populations even in geographical areas where hemorrhagic fever with renal syndrome (HFRS) has not been reported. Multiple species of Murid and Arvicolid rodents serve as the natural reservoirs of hantaviruses. Serologic diagnosis using hantaviral antigens indicates that hantaviruses are widely distributed in wild rodents. This study was designed to find the distribution of hantaviruses among wild rodents and small mammals in Korea, 1995-1996. METHODS: Rodents were trapped alive in selected areas. A total of 551 wild rodents from 7 species and 97 small mammals from 4 species were captured in Korea. Serologic evidence for hantavirus infection were tested using five hantavirus antigens by indirect immunofluorescent antibody technique (IFA). Among 162 Apodemus agrarius, 23 Apodemus peninsulae, 8 Clethrionomys regulus, 6 Microtus fortis, 1 Mus musculus, 283 Tamias sibiricus, 68 Sciurus vulgaris, 14 Crocidura laciura, 80 Lepus sinensis, 2 Capereolus capereolus and 1 Nyctereutes procyonoides. RESULTS: 29 A. agrarius, 2 A. peninsulae, 1 C. laciura, 2 C. regulus, 27 T. sibiricus and 7 S. vulgaris were seropositive against Hantaan virus and 7 L. sinensis were IF antibody positive against Seoul virus. Some of Tamias sibiricus were only seropositive against Puumala virus or prospect hill virus. CONCLUSION: This data suggests that new serotypes of hantavirus might distribute among rodents in Korea.
Animals
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Arvicolinae
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Diagnosis
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Hantaan virus
;
Hantavirus Infections*
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Hantavirus*
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Hares
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Hemorrhagic Fever with Renal Syndrome
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Korea*
;
Mammals
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Mice
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Muridae
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Murinae
;
Puumala virus
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Raccoon Dogs
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Rodentia*
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Sciuridae
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Seoul virus
6.Detection of Puumala and Hantaan Viruses among Bats in Korea by Nested RT-PCR.
Yun Tai LEE ; Bo Kyoung YUN ; Jeong Joong YOON
Journal of the Korean Society of Virology 1998;28(2):147-155
Hantavirus is a genus of the Bunyaviridae family consisting following serotype groups: Hantaan, Seoul, Puumala, Prospect Hill, Thailand, Belgrade, Thotta palayam, Sin Hombre. Most of Hantavirus group have been associated with many clinically similar disease known collectively as hemorrhagic fever with renal syndrome (HFRS). Hantaan virus is the prototype of the genus hantavirus, originally isolated from Apodemus agrarius. Bat was found as a natural host for Hantaan virus in Lee's lab for the first time. Then, Hantaan-like virus was isolated Hantaan-like virus from bat. To identify hantaviruses that are present in Korea among bats, bats were collected from Jeong-Sun, Won-Joo, Chung-Ju and Hwa-Cheon area, RNA was isolated from lung and serum. RT-PCR was performed with a universal primer from M segment. Nested RT-PCR was carried out to differentiate Hantaan, Seoul and Puumala virus using serotype specific primers. As we expected, Hantaan viruses were detected in bats and Seoul virus was not detected. Interestingly, Puumala viruses were also detected in bats from won-Ju, but not in other areas. Puumala virus is originally isolated from Clethrinomys glareolus, and cause light HFRS. Recently, Paradoxomis webbiana, a wild bird turn out to be a reservoir for Puumala virus in Korea. These data indicate that bat is a new natural reservoir of Puumala virus.
Animals
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Birds
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Bunyaviridae
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Chiroptera*
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Chungcheongbuk-do
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Gangwon-do
;
Hantaan virus*
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Hantavirus
;
Hemorrhagic Fever with Renal Syndrome
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Humans
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Korea*
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Lung
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Murinae
;
Puumala virus
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RNA
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Seoul
;
Seoul virus
;
Thailand
7.Seroepidemiologic Analysis and Antigen Detection from Patients with Hemorrhagic Fever with Renal Syndrome.
Ki Joon SONG ; Se Yeun KIM ; Sang Hyun KIM ; Jae Kyung YUN ; Luck Ju BAEK ; Yong Ju LEE ; Jin Won SONG
Korean Journal of Infectious Diseases 1997;29(5):361-369
BACKGROUND: Hantaan (HTN) and Seoul (SEO) viruses, harbored by the striped-field mouse(Apodemus agrarius) and the Norway or common rat (Rattus rattus & Rattus norvegicus), respectively, were known to cause hemorrhagic fever with renal syndrome(HFRS) in Korea. We evaluated the seroepidemiologic patterns of hantaviral infections and detect the hantaviral antigens from patients' sera. METHODS: Total 8,102 HFRS patients' sera were collected from 1994 to 1996, and examined by indirect immunofluorescent antibody technique (IFA), hemagglutination inhibition test (HI), IgM emzyme-linked immunosorbent assay (IgM-ELISA) and nested reverse transcription-polymerase chain reaction(RT-PCR). RESULTS: The seropositive rate against hantaviral antigen was 12.0% (973/8102) with the high incidence rate (68.3%) in the period from October to January, and males in the thirties were mostly affected. HTN viral infections were detected 3.5 and 5.2 times higher than SEO viral infections by HI and RT-PCR, respectively, and patients in the fifties were the mostly affected age-group in SEO viral infections, IgM antibodies were detected in the 717 sera of the 905 IFA positive cases (79.2%), and the antigen detection rate of HTN and SEO viruses was 7.7% (56/724). Interestingly, 40 sera (4.4%), showed higher antibody titers against the Puumala (PUU) virus than those against HTN or SEO viruses. CONCLUSION: The results showed HTN and SEO viruses were the main causative agents of HFRS in Korea, and also suggested the possible presence of PUU-related hantaviral infections.
Animals
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Antibodies
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Fever
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Hantaan virus
;
Hantavirus
;
Hemagglutination Inhibition Tests
;
Hemorrhagic Fever with Renal Syndrome*
;
Humans
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Immunoglobulin M
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Incidence
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Korea
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Male
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Norway
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Puumala virus
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Rats
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Seoul
;
Seoul virus
;
Seroepidemiologic Studies
8.Molecular Characterization of the L Segment of Hantann Virus, Strain Howang.
Yong Kyu CHU ; Dae Yong SONG ; Hyung Mo KOO ; Ho Wang LEE
Journal of the Korean Society of Virology 1999;29(3):155-163
Hantaan virus (HTNV), the etiologic agent of hemorrhagic fever with renal syndrome (HFRS), belongs to the genus Hantavirus, and has three single negative straded RNA genome segments. HTNV strain Howang isolated from the blood of severe case of Korean HFRS is more virulent than HTNV 76/118 and the M and S genome segments' nucleotide sequence of Howang strain showed 93.5% and 94% homology to each segment of HTNV 76/118. We have obtained 6533 nucleotides long sequence of the L genome segment of Howang strain using reverse transcriptase in conjunction with PCR amplification and compared to other hantaviruses. The messenger sense of the L segment contains one long single long open reading frame of 2151 amino acids, which encodes a deduced RNA dependent RNA polymerase of 246.4 kDa caculated molecular weight protein. The nucleotide sequence of the Lsegment of Howang strain shows 93%, 74%, 66%,65% homology to HTNV 76/118, Seoul virus 80/39, Puumala virus Hallnas B1 and Sin Nombre virus, respectively. The amino acid sequence of the L segment of Howang strain shows 99%, 85%, 68%, 68% homology to HTNV 76/118, Seoul virus 80/39, Puumala virus Hallnas B1 and Sin Nombre virus, respectively.
Amino Acid Sequence
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Amino Acids
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Base Sequence
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Genome
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Hantaan virus
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Hantavirus
;
Hemorrhagic Fever with Renal Syndrome
;
Molecular Weight
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Nucleotides
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Open Reading Frames
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Polymerase Chain Reaction
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Puumala virus
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RNA
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RNA Replicase
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RNA-Directed DNA Polymerase
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Seoul virus
;
Sin Nombre virus
9.Partial Sequence Analysis of Puumala Virus M Segment from Bats in Korea.
Bok Young YUN ; Jeong Joong YOON ; Yun Tae LEE
Journal of the Korean Society of Virology 1999;29(1):23-31
Hantavirus is a genus of the Bunyaviridae family causing two serious diseases, hemorrhagic fever with renal syndrome (HFRS) and hantavirus pulmonary syndrome (HPS). Puumala virus is a member of hantavirus originally found in Europe, and its natural reservoir is Clethrionomys glareolus. It is also associated with the hurnan disease nephropathia epidemica, a milder form of HFRS. To identify the hantaviruses in bats, bats were collected from Jeong-Sun, Won-Joo, Chung-Ju and Hwa-Cheon area in Korea, and nested RT-PCR was performed with serotype specific primer from M segment. Interestingly, Puumala virus was detected in bats (Rhinolophus ferrum-equinum) only from Won-Joo. The 327 bp nested RT-PCR product, was sequenced. The sequence database search indicates that the sequence is homologous to the published sequence of Puumala viruses. The sequence similarities were ranged from 71% to 97%. The highest sequence similarity was 97% with Puumala virus Vranicam strain, and the lowest was 71% with Puumala virus K27 isolate. Puumala virus Vranicam strain was isolated from a bank vole (Clethrionomys glareolus) in Bosnia-Hercegovina. Puumala virus K27 was isolated from human in Russia. This analysis confirms that bats (Rhinolophus ferrum-equinum) in Korea are natural reservoir of Puumala virus.
Arvicolinae
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Base Sequence
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Bunyaviridae
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Chiroptera*
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Chungcheongbuk-do
;
Europe
;
Hantavirus
;
Hantavirus Pulmonary Syndrome
;
Hemorrhagic Fever with Renal Syndrome
;
Humans
;
Korea*
;
Puumala virus*
;
Russia
;
Sequence Analysis*
10.Identification of Puumala like viruses in China.
Gang LIU ; Chuan LI ; Guang-wei HU ; Yue LI ; Lai-shun YAO ; Yu-qing CHEN ; Biao HUANG ; Ming REN ; Yun-zhi CHEN ; Shi-xin GUAN ; Chuan-you YU ; Bao-zhong NA ; Xiang-dong ZHONG ; Yue-xin SUN ; Wen-xue LI ; De-xin LI
Chinese Journal of Experimental and Clinical Virology 2003;17(1):55-57
BACKGROUNDTo confirm if Puumala like viruses exist in China.
METHODSRNA was extracted from lungs of bank voles captured in the Northeast China, partial S segments genome of Puumala viruses were amplified and sequenced.
RESULTS926 bp cDNA of S segments of Puumala like virus was amplified and sequenced. The phylogenetic analysis revealed that the Puumala like viruses found in China were most close to that found in Far East region of Russia.
CONCLUSIONSPuumala like virus does exist in Northeast China, and the nucleotides sequence of the viruses have high homolog to Puumala viruses found in Russia.
Animals ; China ; DNA, Viral ; analysis ; Hemorrhagic Fever with Renal Syndrome ; virology ; Lung ; virology ; Mice ; Phylogeny ; Puumala virus ; isolation & purification ; Sequence Analysis, DNA ; Sequence Homology, Nucleic Acid