1.Identification of African swine fever virus genomic DNAs in wild boar habitats within outbreak regions in South Korea
Kyung-Lak LEE ; Yongjun CHOI ; Jongchan YOO ; Jusun HWANG ; Hyun-Gi JEONG ; Weon-Hwa JHEONG ; Seon-Hee KIM
Journal of Veterinary Science 2021;22(2):e28-
An African swine fever (ASF) outbreak in wild boars was first reported on October 2, 2019, in South Korea. Since then, additional cases were reported in South Korea's border areas. We here report the identification of ASF virus (ASFV) DNAs from two out of eight environmental abiotic matter samples collected from areas where ASF-positive wild boar carcasses were found. Comparative genomic investigations suggested that the contaminating ASFV DNAs originated from the wild boar whose carcass had been found near the positive sample sites.This is the first report on the identification of ASF viral material in wild boar habitats.
2.Identification of African swine fever virus genomic DNAs in wild boar habitats within outbreak regions in South Korea
Kyung-Lak LEE ; Yongjun CHOI ; Jongchan YOO ; Jusun HWANG ; Hyun-Gi JEONG ; Weon-Hwa JHEONG ; Seon-Hee KIM
Journal of Veterinary Science 2021;22(2):e28-
An African swine fever (ASF) outbreak in wild boars was first reported on October 2, 2019, in South Korea. Since then, additional cases were reported in South Korea's border areas. We here report the identification of ASF virus (ASFV) DNAs from two out of eight environmental abiotic matter samples collected from areas where ASF-positive wild boar carcasses were found. Comparative genomic investigations suggested that the contaminating ASFV DNAs originated from the wild boar whose carcass had been found near the positive sample sites.This is the first report on the identification of ASF viral material in wild boar habitats.
3.First detection of West Nile virus in domestic pigeon in Korea.
C Yoon KIM ; Hanseul OH ; Juha SONG ; Moonsuk HUR ; Jae Hwa SUH ; Weon Hwa JHEONG ; Jong Taek KIM ; Hong Shik OH ; Jae Hak PARK
Journal of Veterinary Science 2016;17(4):587-589
West Nile virus (WNV) is a mosquito-borne zoonotic pathogen that has spread throughout Europe and the United States. Recently, WNV spread to East and Southeast Asia, and great efforts have been made in South Korea to prevent the spread of WNV from neighboring countries. In this study, we diagnosed the first case of WNV in pigeons (Columba livia domestica) residing in cities using a competitive enzyme-linked immunosorbent assay and confirmed it with nested reverse transcription polymerase chain reaction analysis and sequencing. This is the first report to provide convincing evidence that WNV is present within South Korea.
Asia, Southeastern
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Columbidae*
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Enzyme-Linked Immunosorbent Assay
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Europe
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Korea*
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Polymerase Chain Reaction
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Reverse Transcription
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United States
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West Nile virus*
4.Purification of Protein Expressed from Three Different Regions of Norovirus (NoV).
Jin Young KIM ; Jang Won CHOI ; Seung Won PARK ; Sung Guen LEE ; Jong Min KIM ; Weon Hwa JHEONG ; Dong Wook KIM ; Jin Man KIM ; Young Sun SOHN ; Soon Young PAIK
Journal of Bacteriology and Virology 2008;38(4):235-237
Norovirus (NoV), which belongs to the family Caliciviridae, is one of the major causes of nonbacterial acute gastroenteritis in the world. In this study, we purified proteins from the epitope region of norovirus for development of the rapid diagnosis system using polyclonal antibodies. As antigens, parts of the ORF (open reading frame) 2, ORF2-P domain, ORF2-Epi, and ORF3 regions were selected and their expressions were induced. The antigenicity of the purified proteins was identified by Western blotting. Each of the purified proteins was injected into mice for the production of novel antibodies and after 3 months of immunization, sera from the mice were obtained. The polyclonal antibody titer was tested by enzyme-linked immunosorbent assay (ELISA) and antibody against ORF2-Epi showed the highest titer. Those polyclonal antibodies can be used in further immunoassay for the rapid detection of NoVs from food and clinical specimens.
Animals
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Antibodies
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Blotting, Western
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Caliciviridae
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Ecthyma, Contagious
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Enzyme-Linked Immunosorbent Assay
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Gastroenteritis
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Humans
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Immunization
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Immunoassay
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Mice
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Norovirus
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Proteins
5.Severe Fever with Thrombocytopenia Syndrome Virus in Ticks in the Republic of Korea
Jun-Gu KANG ; Yoon-Kyoung CHO ; Young-Sun JO ; Sun-Woo HAN ; Jeong-Byoung CHAE ; Jung-Eun PARK ; Hyesung JEONG ; Weon-Hwa JHEONG ; Joon-Seok CHAE
The Korean Journal of Parasitology 2022;60(1):65-71
Severe fever with thrombocytopenia syndrome virus (SFTSV) is a zoonotic, tick-borne RNA virus of the genus Bandavirus (Family Phenuiviridae), mainly reported in China, Japan, and the Republic of Korea (Korea). For the purpose of this study, a total of 3,898 adult and nymphal ticks of species Haemaphysalis longicornis (94.2%), Haemaphysalis flava (5.0%), Ixodes nipponensis (0.8%), and 1 specimen of Ixodes ovatus, were collected from the Deogyusan National Park, Korea, between April 2016 and June 2018. A single-step reverse transcriptase–nested PCR was performed, targeting the S segment of the SFTSV RNA. Total infection rate (IR) of SFTSV in individual ticks was found to be 6.0%. Based on developmental stages, IR was 5.3% in adults and 6.0% in nymphs. The S segment sequences obtained from PCR were divided into 17 haplotypes. All haplotypes were phylogenetically clustered into clades B-2 and B-3, with 92.7% sequences in B-2 and 7.3% in B-3. These observations indicate that the Korean SFTSV strains were closer to the Japanese than the Chinese strains. Further epidemiological studies are necessary to better understand the characteristics of the Korean SFTSV and its transmission cycle in the ecosystem.
6.The difference of detection rate of avian influenza virus in the wild bird surveillance using various methods
Gang San KIM ; Tae Sik KIM ; Joo Sung SON ; Van Dam LAI ; Jung Eun PARK ; Seung Jun WANG ; Weon Hwa JHEONG ; In Pil MO
Journal of Veterinary Science 2019;20(5):e56-
Korea is located within the East Asian-Australian flyway of wild migratory birds during the fall and winter seasons. Consequently, the likelihood of introduction of numerous subtypes and pathotypes of the Avian influenza (AI) virus to Korea has been thought to be very high. In the current study, we surveyed wild bird feces for the presence of AI virus that had been introduced to Korea between September 2017 and February 2018. To identify and characterize the AI virus, we employed commonly used methods, namely, virus isolation (VI) via egg inoculation, real-time reverse transcription-polymerase chain reaction (rRT-PCR), conventional RT-PCR (cRT-PCR) and a newly developed next generation sequencing (NGS) approach. In this study, 124 out of 11,145 fresh samples of wild migratory birds tested were rRT-PCR positive; only 52.0% of VI positive samples were determined as positive by rRT-PCR from fecal supernatant. Fifty AI virus specimens were isolated from fresh fecal samples and typed. The cRT-PCR subtyping results mostly coincided with the NGS results, although NGS detected the presence of 11 HA genes and four NA genes that were not detected by cRT-PCR. NGS analysis confirmed that 12% of the identified viruses were mixed-subtypes which were not detected by cRT-PCR. Prevention of the occurrence of AI virus requires a workflow for rapid and accurate virus detection and verification. However, conventional methods of detection have some limitations. Therefore, different methods should be combined for optimal surveillance, and further studies are needed in aspect of the introduction and application of new methods such as NGS.
Animals
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Birds
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Feces
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Influenza in Birds
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Korea
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Methods
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Ovum
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Seasons