• Journal of Microbiology and Biotechnology
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• 제27권3호
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• pp.471-479
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• 2017

White spot syndrome virus (WSSV) is a major threat to the shrimp farming industry and so far there is no effective therapy for it, and thus early diagnostic of WSSV is of great importance. However, at the early stage of infection, the extremely low-abundance of WSSV DNA challenges the detection sensitivity and accuracy of PCR. To effectively detect low-abundance WSSV, here we developed a pre-amplification PCR (pre-amp PCR) method to amplify trace amounts of WSSV DNA from massive background genomic DNA. Combining with normal specific PCR, 10 copies of target WSSV genes were detected from ${\sim}10^{10}$ magnitude of backgrounds. In particular, multiple target genes were able to be balanced amplified with similar efficiency due to the usage of the universal primer. The efficiency of the pre-amp PCR was validated by nested-PCR and quantitative PCR, and pre-amp PCR showed higher efficiency than nested-PCR when multiple targets were detected. The developed method is particularly suitable for the super early diagnosis of WSSV, and has potential to be applied in other low-abundance sample detection cases.

• 미생물학회지
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• 제44권1호
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• pp.49-55
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• 2008

흰반점 바이러스(white spot syndrome virus, WSSV)는 양식산 새우에 감염하여 대량폐사를 일으키는 전염성이 매우 강한 병원성 바이러스이다. 본 연구에서는 강화도에 위치한 대하(Fenneropenaeus chinensis) 양식장의 양식수와 양식장으로 유입되는 해수에서 WSSV를 막여과법을 이용하여 농축하였으며, 새롭게 디자인한 primer와 Taqman probe를 사용하여 정량 실시간 PCR (quantitative real-time PCR, QRT-PCR)을 적용하여 WSSV를 정량하였다. 농도표준을 사용한 QRT-PCR 결과, 제작된 primer와 probe를 이용하여 WSSV가 정확하고 민감하게 검출됨을 확인하였다. 해수에 존재하는 WSSV와 물리화학적, 생물학적 환경요인간의 상관관계를 도출하기 위하여 양식수와 해수 유입수에서 대하 양식기간인 2007년 6월부터 9월까지 총 8회에 거쳐 다양한 환경요인을 분석하였다. 양식수 1L에 존재하는 WSSV의 양은 3,814-121,545 copy였으며, 이는 분원성 enterococci ($r^2=0.9$, p=0.02), 엽록소${\alpha}$ ($r^2=0.8$, p=0.03), 생화학적 산소요구량($r^2=0.8$, p=0.07)과 상관관계를 나타내었다. 결론적으로 본 연구에서 정립된 WSSV의 농축법 및 QRT-PCR 방법은 해수에 존재하는 WSSV를 정량하는데 효과적이었으며, 해수에 존재하는 WSSV의 양은 물리화학적 환경요인보다 생물학적 환경요인과 밀접한 관련을 보였다.

• 한국수의병리학회:학술대회논문집
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• 한국수의병리학회 2003년도 추계학술대회초록집
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• pp.41-41
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• 2003

White spot syndrome virus (WSSV) is the causative agent of a disease that has led to severe mortalities of cultured shrimps in Korea and many other countries. Since 1993, massive mortalities due to the viral infection have also occurred in the penaeid shrimps cultured in Korea. WSSV is a large, circular, double stranded (ds) DNA virus and an enveloped, ellipsoid virus with a rod-shaped nucleocapsid with flat ends. In order to identify the characteristics of this Korean isolate of WSSV, the genes for four virion proteins, VP15, VP19, VP28 and VP35 were cloned and their sequences were compared with the available pool of WSSV gene sequences in the GenBank/EMBL databases. From these comparisons, we confirm the occurrence of WSSV in Korea and deduce that, VP15, VP28 and VP35 genes are identically conserved among the Korean isolate and geographically different foreign isolates, but VP19 amino acid sequences of the Korean WSSV isolates changed valine of the foreign isolates into aspartate. (omitted)

• Journal of Microbiology and Biotechnology
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• 제18권5호
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• pp.964-967
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• 2008

Two structural protein genes, VP19 and VP466, of white spot syndrome virus (WSSV) were cloned and expressed in Sf21 insect cells using a baculovirus expression system for the development of injection and oral feeding vaccines against WSSV for shrimps. The cumulative mortalities of the shrimps vaccinated by the injection of rVP19 and rVP466 at 15 days after the challenge with WSSV were 50.2% and 51.8%, respectively. For the vaccination by oral feeding of rVP19 and rVP466, the cumulative mortalities were 49.2% and 89.2%, respectively. These results show that protection against WSSV can be generated in the shrimp, using the viral structural protein as a protein vaccine.

• 한국양식학회지
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• 제15권1호
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• pp.7-13
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• 2002

Since 1993, the White Spot Syndrome Virus (WSSV) disease occurred in China among cultured shrimps resulting in mass mortality. Epizootiological surveys undertaken during the outbreak period of 1993-1994 indicated that all stages of Penaeus chinensis, P. japonicus and P. monodon were infected. Consequent to the transport of contaminated shrimp seedlings and seawater, the disease spread all over the farms of China. The disease was more rapidly transmitted at temperatures above $25^{\circ}C$. Challenge experiments showed the causative agent was highly virulent. White spots appeared on the carapace of both span-taneous and experimentally infected shrimps. Moribund shrimps contained turbid hemolymph, hypertrophied Iymphoid organ and a necrotic mid-gut gland. Electron microscopy showed the presence of viral particles in the gills, stomach, lymphoid organ, and epidermal tissue of the infected shrimp. The visions were slightly ovoid with an envelope and averaged 350 $\times$ 150 nm; nucleocapsids measured 375 $\times$ 157 nm. With discontinuous sucrose gradient of 35, 50 and 60% (w/v), the virus was separated from hemolymph of the infected shrimp. The estimated molecular weight of genomic DNA was 237 Kb with EcoR I, 247 Kb with Hind III and 241kb with Pst I. A total of 9 hybridoma colones secreting monoclonal antibodies (MAbs) were produced from mouse myeloma and spleen cells immunized with WSSV. The immunofluorescence assay of gill tissue showed that the MAbs reacted with diseased but not with healthy shrimp. The MAbs belonged to IgGl, IgG2b subclass and IgM class, all with kappa light Immune-electron-microscopy with colloidal gold marker showed the presence of 5 MAbs epitopes on the envelope and one on the capsid of the virus. Baculoviral mid-gut gland necrosis showed the specificity of the MAbs produced. For diagnosis 5 different methods were selected. Using Kimura primers for PCR, or MAbs for immunoblot, ELISA or FAT method, in situ hybridization was carried out to show the gene. All these methods detected WSSV in the organ samples of the diseased shrimp but not in healthy one.

• Fisheries and Aquatic Sciences
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• 제11권4호
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• pp.195-204
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• 2008

Viral diseases are major emerging problems of shrimp that have affected the production, and even complete losses for shrimp farms. In this study, we developed a sensitive TaqMan real-time PCR method to quantify white spot syndrome virus (WSSV) and hepatopancreatic parvovirus (HPV) in the shrimp and pond water in which fleshy shrimp, Fenneropenaeus chinensis, and Pacific white shrimp, Litopenaeus vannamei, are reared. WSSV and HPV in pond seawaters ranged from $1.65{\times}10^3$ to $2.43{\times}10^9$ and from 0 to $4.43{\times}10^5$ copies/L of seawater, respectively. Of 20 ponds analyzed, all pond water and shrimp were positive for WSSv. L. vannamei showed higher susceptibility to WSSV than F chinensis. HPV was detected only in the pond water for F chinensis. In shrimp tissue, however, HPV was found in both species, with 23-times higher infection rate in F chinensis than L. vannamei. The total bacterial counts in the pond water ranged from $2.23{\times}l0^3$ to $1.98{\times}l0^5\;CFU/mL$. The variations in total bacterial count for each pond appeared to correlate to the variations of the WSSV load. Statistical analysis indicated that there was no significant difference (P>0.05) between the WSSV load in pond water and shrimp, and there was no relationship between total bacterial load and viral load in the pond water. However, a significant difference (P<0.01) was found between HPV load and L. vannamei and F chinensis pond water.

• 한국어병학회지
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• 제13권1호
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• pp.7-13
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• 2000

1993년부터 한국 서해안의 새우 양식장에서는 양식새우의 대량폐사가 일어났다. 외부증상은 두흉갑과 표피에 흰 반점이 나타났고 어류주화세포에는 배양되지 않았다. 열($50^{\circ}C$) 및 강산(pH 3)에는 쉽게 실활되었으나 강알카리(pH 11)에는 내성이 강했다. 바이러스의 입자 형태는 Rod Shaped한 형태를 보였다. 바이러스 단백질의 분석결과는 Hypodermal Hematopoietic Necrosis Baculovirus(HHNBV)와 유사했고 바이러스 핵산분석 결과는 약 114kb로 Penaeid Acute Viremia(PAV)와 유사했다.

• 생명과학회지
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• 제20권9호
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• pp.1294-1298
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• 2010

흰반점바이러스(WSSV)는 새우양식산업에 막대한 경제적 손실을 일으키는 가장 치명적인 바이러스성 질병 원인체 중 하나이다. 본 연구는 인위적인 실험모델로서 WSSV에 대한 자주새우(Crangon affinis)의 감수성을 확인하고자 실험을 수행하였다. WSSV가 희석된 수조 내에서 침지법으로 감염된 새우는 감염 후 7일째에 100% 누적폐사율을 보여 자주새우가 WSSV에 대해 매우 높은 감수성을 갖고 있음을 확인하였다. 또한 재조합단백질인 rVP466에 대한 항혈청의 중화효과를 확인하기 위해 항혈청과 반응시킨 바이러스액($1{\times}10^4$ 배로 희석된 WSSV)을 이용하여 침지법으로 자주새우에 대해 공격실험(challenge test)을 수행하였다. 실험 결과, WSSV로 challenge한 감염대조구(positive control)의 새우들은 감염 후 5일째에 100% 폐사하였으며, WSSV와 rVP466 항혈청을 1:0.01, 1:0.1, 1:1로 혼합한 액으로 challenge한 새우들은 감염 후 14일째에 각각 100%, 68.8%, 68.8%의 누적폐사율을 보였다. 따라서 본 연구 결과는 연안서식종인 자주새우가 양식장으로부터 배출된 WSSV에 의해 자연상태에서 감염 될 수 있는 가능성과 함께 항혈청에 대한 중화효과를 나타냄으로써 겨울철 저수온기에 WSSV 감염을 위한 대체 실험생물로서의 유용성을 확인하였다.

• 한국어병학회지
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• 제34권2호
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• pp.141-147
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• 2021

본 연구에서는 주요 새우 생산 국가에서 2017년 7월부터 2020년 11월 사이 생산되어 국내로 수입된 냉동 새우(29개 그룹)를 대상으로 흰반점바이러스(WSSV), covert mortality nodavirus (CMNV) 및 decapod iridescent virus 1 (DIV-1)의 검출여부를 조사하였다. 각 바이러스에 대한 nested PCR 결과, WSSV는 9개 그룹(9/29)에서 검출되었으며 CMNV와 DIV-1은 검출되지 않았다. Nested PCR에서 WSSV 양성으로 확인된 시료를 대상으로 WSSV genome variable loci로 알려진 VR 14/15 region에 대해 참조 서열들과 삽입/결손(insertion and deletion) 서열 비교 및 근연관계를 분석하였다. WSSV 양성 시료 중 1개 시료(20-CH-1 isolate, 2020년 10월 중국 생산)에서만 VR 14/15에 대한 PCR amplicon이 생성되었으며 염기서열 분석 결과, 20-CH-1 isolate는 2005년 인도에서 보고된 WSSV-IN-05-01과 99.84%의 상동성을 보였다. 이는 과거 알려진 바와 같이 새우의 교역을 통한 국가 간 WSSV가 확산되었음을 뒷받침해주는 결과이다.

• Journal of Microbiology and Biotechnology
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• 제21권2호
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• pp.170-175
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• 2011

This study was carried out for the molecular level identification of recombinant protein vaccine efficacy, by oral feeding against white spot syndrome virus infection, with the comparison of viral mRNA transcriptional levels in shrimp cells. For the determination of WSSV dilution ratio for the vaccination experiment by oral feeding, in vivo virus titration was carried out using different virus dilutions of virus stock ($1{\times}10^2$, $2{\times}10^2$, and $1{\times}10^3$). Among the dilution ratios, $2{\times}10^2$ diluted WSSV stock was chosen as the optimal condition because this dilution showed 90% mortality at 10 days after virus injection. Recombinant viral proteins, rVP19 and rVP28, produced as protein vaccines were delivered in shrimps by oral feeding. The cumulative mortalities of the shrimps vaccinated with rVP19 and rVP28 at 21 days after the challenge with WSSV were 66.7% and 41.7%, respectively. This indicates that rVP28 showed a better protective effect against WSSV in shrimp than rVP19. Through the comparison of mRNA transcriptional levels of viral genes from collected shrimp organ samples, it was confirmed that viral gene transcriptions of vaccinated shrimps were delayed for 4~10 days compared with those of unvaccinated shrimps. Protection from WSSV infection in shrimp by the vaccination with recombinant viral proteins could be accomplished by the prevention of entry of WSSV due to the shrimp immune system activated by recombinant protein vaccines.