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1.
A portion of the VP26 gene (VP26F109) encoding a structural protein of white spot syndrome virus was expressed, purified by SDS‐PAGE and used for immunization of Swiss mice for monoclonal antibody (MAb) production. Three groups of MAbs specific to different epitopes on VP26 were selected; these MAbs can be used to detect natural WSSV infection in Penaeus vannamei using dot blotting, Western blotting or immunohistochemistry without cross‐reaction with other shrimp tissues or other common shrimp viruses. The detection sensitivity of the MAbs was ranged 7–14 fmole per spot of the rVP26F109 as determined using dot blotting. A combination of three MAbs specific to VP26 with MAbs specific to VP28, VP19 and ICP11 increased the detection sensitivity of WSSV during early infection. Therefore, the MAbs specific to VP26 could be used to confirm and to enhance the detection sensitivity for WSSV infection in shrimp with various types of antibody‐based assays.  相似文献   

2.
The VP 28 gene encoding a structural envelope protein of the white spot syndrome virus (WSSV) was cloned into a pET32a(+) expression vector for the production of the recombinant VP28 protein. A purified recombinant protein of 39.9 kDa size was used for polyclonal antibody production in rabbit. Specific immunoreactivity of the rabbit anti rVP28 antiserum to the viral antigen was confirmed by a Western blot. The specificity of this polyclonal anti‐rVP28 antiserum to detect the presence of the virus in WSSV‐infected Penaeus monodon was verified using a immunodot blot assay. Immunodot blot showed a positive reaction in infected shrimp tissues with prominent colour development using 3,3′,5,5′‐tetramethylbenzidine (TMB) as a chromogenic substrate when compared with 3–3′ diaminobenzidine tetrahydrochloride (DAB). Highest signal intensities of the immunodots were observed in infected shrimp pleopod extracts and haemolymph. On comparison with polymerase chain reaction (PCR), immunodot blot could detect 76% of PCR‐positive WSSV‐infected shrimp samples. Immunodot blot was found to be equivalent to first‐step PCR sensitivity to detect WSSV particles estimated to contain 1.0 × 105 viral DNA copies.  相似文献   

3.
Shih  Wang  Tan  & Chen 《Journal of fish diseases》2001,24(3):143-150
Three hybridoma clones secreting monoclonal antibodies (MAbs) were produced from mouse myeloma and spleen cells immunized with white spot syndrome virus (WSSV) isolated and purified from Penaeus monodon (Fabricius), collected from north-eastern Taiwan. By sodium dodecyl sulphate–polyacrylamide gel electrophoresis (SDS–PAGE), the protein profile of this isolate contained four major proteins with sizes of approximately 35 (VP35), 28 (VP28), 24 (VP24), and 19 kDa (VP19). Western blot analysis revealed that two MAbs (1D7 and 6E1) recognized epitopes on VP28 and one MAb (3E8) recognized an epitope on VP19. The MAb 6E1 isotyped to the IgG1 class was used in both an indirect immunofluorescence assay (IFA) and in an immunochemical staining protocol for successful identification and localization of WSSV in infected shrimp tissues. Antigenic similarity of isolates from Indonesia and Malaysia to the Taiwan isolate was illustrated by IFA with MAb 6E1. A MAb (2F6) which bound specifically to two shrimp proteins, 75 and 72 kDa, and reacted to the healthy and non-target tissues of WSSV in infected shrimp, such as hepatopancreas, is also described here and shows the necessity for specific identification of antibodies.  相似文献   

4.
An attempt was made to determine the replication efficiency of white spot syndrome virus (WSSV) of shrimp in different organs of freshwater rice‐field crab, Paratelphusa hydrodomous (Herbst), using bioassay, PCR, RT‐PCR, ELISA, Western blot and real‐time PCR analyses, and also to use this crab instead of penaeid shrimp for the large‐scale production of WSSV. This crab was found to be highly susceptible to WSSV by intramuscular injection. PCR and Western blot analyses confirmed the systemic WSSV infection in freshwater crab. The RT‐PCR analysis revealed the expression of VP28 gene in different organs of infected crab. The indirect ELISA was used to quantify the VP28 protein in different organs of crab. It was found that there was a high concentration of VP28 protein in gill tissue, muscle, haemolymph and heart tissue. The copy number of WSSV in different organs of infected crab was quantified by real‐time PCR, and the results revealed a steady increase in copy number in different organs of infected crab during the course of infection. The viral inoculum prepared from different organs of infected crab caused significant mortality in tiger prawn, Penaeus monodon (Fabricius). The results revealed that this crab can be used as an alternate host for WSSV replication and production.  相似文献   

5.
对虾WSSV病是亚洲对虾养殖业中的一个棘手问题。本研究采用Kimura引物 ,用PCR技术对不同生长期的中国对虾 (Penaeuschinensis)进行了WSSV的检测 ,同时也检测了对虾发病时养殖池中多见的野生厚蟹 (Helicesp .)和矛尾刺虎鱼 (Acanthogobiushasta)。检测结果表明 :分别在检测的 5尾亲虾中的 1尾 ,6尾仔虾中的 1尾 ,5尾稚虾中的 3尾及所检测的 5尾病虾和 2只厚蟹中获得到 982bp的PCR扩增产物 ,说明为WSSV感染阳性。在检测的 2尾矛尾刺虎鱼中均未获得PCR扩增产物 ,说明为WSSV感染阴性。在亲虾、虾苗以及虾池内的野生厚蟹中检测到WSSV感染的阳性结果表明 :WSSV感染的亲虾有可能是病毒的储主 ,WSSV感染的野生厚蟹有可能是病毒中间宿主或病毒的携带者 ,它们在对虾WSSV病的感染、传播中起了重要的作用  相似文献   

6.
The objective of this study was to investigate the reason for variation in the virulence of white spot syndrome virus (WSSV) from different shrimp farms in the Southeast coast of India. Six isolates of WSSV from farms experiencing outbreaks (virulent WSSV; vWSSV) and three isolates of WSSV from farms that had infected shrimps but no outbreaks (non‐virulent WSSV; nvWSSV) were collected from different farms in the Southeast coast of India. The sampled animals were all positive for WSSV by first‐step PCR. The viral isolates were compared using histopathology, electron microscopy, SDS‐PAGE analysis of viral structural proteins, an in vivo infectivity experiment and sequence comparison of major structural protein VP28; there were no differences between isolates in these analyses. A significant observation was that the haemolymph protein profile of nvWSSV‐infected shrimps showed three extra polypeptide bands at 41, 33 and 24 kDa that were not found in the haemolymph protein profile of vWSSV‐infected shrimps. The data obtained in this study suggest that the observed difference in the virulence of WSSV may not be due to any change in the virus, rather it could be due to the shrimp defence system producing certain factors that help it to accommodate the virus without causing any mortality.  相似文献   

7.
A flow‐through immunoassay (FTA), an improved version of immunodot, was developed using a nitrocellulose membrane baked onto adsorbent pads enclosed in a plastic cassette to detect white spot syndrome virus (WSSV) in shrimp. Sharp purple dots developed with WSSV against the white background of the nitrocellulose membrane. The detection limits of WSSV by the FTA and immunodot were 0.312 and 1.2 μg mL?1 crude WSSV protein, respectively. The FTA could be completed in 8–10 min compared with 90 min for immunodot. The FTA was 100 times more sensitive than 1‐step polymerase chain reaction (PCR) and in between that of the 1‐ and 2‐step PCR protocol recommended by the Office of International Epizootics (OIE). In experimental, orally infected shrimp post‐larvae, WSSV was first detected 14, 16 and 18 h post‐infection (hpi) by FTA, immunodot and one‐step PCR, respectively. The FTA detected WSSV 2 and 4 h earlier than immunodot and one‐step PCR, respectively. The FTA was more sensitive (25/27) than one‐step PCR (23/27) and immunodot (23/27) for the detection of WSSV from white spot disease outbreak ponds. The reagent components of the FTA were stable giving expected results for 6 m at 4–8 °C. The FTA is available as a rapid test kit called ‘RapiDot’ for the early detection of WSSV under field conditions.  相似文献   

8.

为了鉴定对虾白斑病综合征病毒(WSSV)囊膜蛋白VP110在中国明对虾(Fenneropenaeus chinensis)鳃细胞中的结合蛋白, 运用pET-32(a)+载体构建了1段含RGD模体的截短VP110原核重组表达质粒, 转化大肠杆菌诱导表达后获得分子量为41 kD的截短重组VP110蛋白(rVP110)。以rVP110作为诱饵蛋白, 运用pull-down实验结合蛋白质谱分析鉴定rVP110结合蛋白, 结果显示, 中国明对虾鳃细胞中的肌动蛋白和精氨酸激酶(arginine kinase,AK)rVP110具有结合作用。利用PCR扩增中国明对虾AK编码基因, 将其与表达载体pGEX-4T-1连接后转化大肠杆菌诱导表达获得重组AK蛋白(rAK), 通过pull-down实验进一步证实rAK可与rVP110发生结合。克氏原螯虾(Procambarus clarkia)体内中和实验结果显示, rAKWSSV感染克氏原螯虾具有一定的中和作用, 能延缓螯虾的死亡进程。另外, 中国明对虾在人工感染WSSV, 荧光定量PCR检测结果显示, AK基因表达水平显著上调, 18 h时达到峰值, 然后下降至正常水平; 酶底物法检测结果同样显示, 鳃细胞中AK酶活性在感染WSSV后发生显著上调。本研究旨在为深入了解WSSV囊膜蛋白VP110WSSV感染宿主过程中的作用提供基础依据。

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9.
Larvae and post-larvae of Penaeus vannamei (Boone) were submitted to primary challenge with infectious hypodermal and haematopoietic necrosis virus (IHHNV) or formalin-inactivated white spot syndrome virus (WSSV). Survival rate and viral load were evaluated after secondary per os challenge with WSSV at post-larval stage 45 (PL45). Only shrimp treated with inactivated WSSV at PL35 or with IHHNV infection at nauplius 5, zoea 1 and PL22 were alive (4.7% and 4%, respectively) at 10 days post-infection (p.i.). Moreover, at 9 days p.i. there was 100% mortality in all remaining treatments, while there was 94% mortality in shrimp treated with inactivated WSSV at PL35 and 95% mortality in shrimp previously treated with IHHNV at N5, Z1 and PL22. Based on viral genome copy quantification by real-time PCR, surviving shrimp previously challenged with IHHNV at PL22 contained the lowest load of WSSV (0-1x10(3) copies microg-1 of DNA). In addition, surviving shrimp previously exposed to inactivated WSSV at PL35 also contained few WSSV (0-2x10(3) copies microg-1 of DNA). Consequently, pre-exposure to either IHHNV or inactivated WSSV resulted in slower WSSV replication and delayed mortality. This evidence suggests a protective role of IHHNV as an interfering virus, while protection obtained by inactivated WSSV might result from non-specific antiviral immune response.  相似文献   

10.
用添加CpG寡聚核苷酸(CpG ODN)和表面展示VP28的解脂耶罗维亚酵母(VP28-yl)的饵料投喂凡纳滨对虾,进行田间中试实验。投喂30 d后进行WSSV感染实验,评估其对凡纳滨对虾的免疫保护作用。投喂实验结束后,CpG ODN投喂组对虾的相对增重率达到(65.8±7.8)% (P<0.05),这暗示CpG ODN可能具有促生长作用。WSSV攻毒后,CpG ODN和VP28-yl投喂组对虾中WSSV拷贝数与对照组相比均显著降低(P<0.05),相对免疫保护率分别可达到26.7%和36.7%。在投喂结束和WSSV刺激后,CpG ODN组对虾中的呼吸爆发水平均显著升高(P<0.05)。而在VP28-yl投喂组,WSSV引起的细胞凋亡则显著受到抑制(P<0.05)。此外,WSSV刺激后,STAT基因在CpG ODN组和VP28-yl组对虾中的表达水平均显著上调(P<0.05),分别在第5天和第3天达到最大值,而对照组中则显著下调。研究结果表明,CpG ODN和VP28-yl增强了凡纳滨对虾抗病毒免疫力,对养殖对虾病毒性疫病的防控具有显著作用,可以作为免疫增强剂添加在饵料中,具有在养殖生产中推广使用的前景。  相似文献   

11.
White leg shrimp, Penaeus vannamei, were collected on a monthly basis from grow‐out ponds located at Tamil Nadu and Andhra Pradesh states along the east coast of India for screening of viral and other pathogens. Totally 240 shrimp samples randomly collected from 92 farms were screened for white spot syndrome virus (WSSV), infectious hypodermal and haematopoietic necrosis virus (IHHNV), infectious myonecrosis virus (IMNV) and Enterocytozoon hepatopenaei (EHP). The number of shrimp collected from shrimp farms ranged from 6 to 20 based on the body weight of the shrimp. All the shrimp collected from one farm were pooled together for screening for pathogens by PCR assay. Among the samples screened, 28 samples were WSSV‐positive, one positive for IHHNV and 30 samples positive for EHP. Among the positive samples, four samples were found to be positive for both WSSV and EHP, which indicated that the shrimp had multiple infections with WSSV and EHP. This is the first report on the occurrence of multiple infections caused by WSSV and EHP. Multiplex PCR (m‐PCR) protocol was standardized to detect both pathogens simultaneously in single reaction instead of carrying out separate PCR for both pathogens. Using m‐PCR assay, naturally infected shrimp samples collected from field showed two prominent bands of 615 and 510 bp for WSSV and EHP, respectively.  相似文献   

12.
White spot syndrome virus (WSSV) was first reported in farmed Litopenaeus vannamei stocks in Sinaloa and Sonora, Mexico during 1999 and continues to cause severe shrimp losses. WSSV genes encoding nucleocapsid (VP26 and VP15) and envelope proteins (VP19 and VP28) of a Mexican isolate were cloned in the pMosBlue vector. The nucleotide sequences of these genes were compared with WSSV isolates in GenBank. VP15 is highly conserved, and VP26 showed 99% homology to a Chinese isolate. The VP28 fragment demonstrated 100% homology to the majority of the isolates analysed (UniProt accession no. Q91CB7), differing from two Indian WSSV and one Chinese WSSV isolates by two non-conserved and one conserved replacements, respectively. Because of their highly conserved nature, these three structural proteins are good candidates for the development of antibody-based WSSV diagnostic tools or for the production of recombinant protein vaccines to stimulate the quasi-immune response of shrimp. In contrast, VP19 of the Mexican isolate was distinguishable from almost all isolates tested, including an American strain of WSSV (US98/South Carolina, GenBank accession no. AAP14086). Although homology was found with isolates from Taiwan (GenBank accession no. AAL89341) and India (GenBank accession no. AAW67477), VP19 may have application as a genetic marker.  相似文献   

13.
White spot syndrome virus (WSSV) is a large double-stranded DNA virus, causing considerable mortality in penaeid shrimp and other crustaceans. WSSV produces five major structural proteins, including two major envelope proteins, VP28 and VP19. To produce VP28 and VP19 as a single protein for antibody production, DNA sequences encoding both open reading frames were fused together and cloned into pET-22b(+) expression vector. The fusion protein, VP(19+28), was expressed in Escherichia coli, purified using Ni2+ His affinity chromatography and injected into a rabbit. Antiserum collected from the immunized rabbit was tested in vivo for ability to protect crayfish, Cambarus clarkii, from disease caused by WSSV. Fifteen days after challenge with WSSV, treatment with VP(19+28) antiserum gave 100% protection against disease in the ambient temperature range of 15-22 degrees C and 65% protection at a constant temperature of 26 degrees C. These results demonstrated VP(19+28) antiserum is effective in protection of crayfish from WSSV and confirmed that VP19 and VP28 play an important role in WSSV host infection. Targeting both VP19 and VP28 may be effective for the design of both immunotherapeutic medicines and reagents to detect WSSV.  相似文献   

14.
White spot syndrome virus (WSSV), an enveloped double‐stranded DNA virus, is the causative agent of a disease that has led to severe mortalities of cultured shrimps in Taiwan and many other countries. In the previous study, Penaeus monodon chitin‐binding protein (CBP) and glucose transporter 1 (Glut1), two cell membrane proteins, were found to at least interact with other 10 WSSV envelope proteins including VP51B. These envelope proteins might form a protein complex. According to the known information, VP51B was used to identify its role in the protein complex. Western blotting of the intact viral particles and fractionation of the viral components confirmed that VP51B is one of WSSV envelope proteins. In this study, the protein–protein interaction between VP51B and other WSSV envelope proteins was identified by far‐western blot experiment and VP51B was found to interact with VP24, VP31, VP32, VP39B and VP41A. Furthermore, the in vivo neutralization experiment using recombinant VP51B plus with VP39B showed the best inhibition. These data indicate that VP51B participates in the WSSV protein complex and plays an important role in WSSV infection.  相似文献   

15.
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16.
3种市售养殖对虾白斑综合征病毒(WSSV)的核酸探针检测   总被引:1,自引:0,他引:1  
对虾白斑综合征病毒是对虾养殖业危害最为严重的病毒, 每年给对虾养殖造成很大经济损失, 已成为对虾养殖业可持续发展的严重障碍。在过去的十几年中, 人们采取各种方法防止白斑综合征病毒的传播。中国明对虾(Fenneropenaeus chinensis )、凡纳滨对虾( Litopenae vannamei)、日本囊对虾(Marsup enaeus jap onicus)是我国主要的对虾养殖品种, 也是白斑综合征病毒的敏感宿主。按照煮沸- 乙醇沉淀法快速、简便提取市售30 只中国明对虾、28只凡纳滨对虾、29只日本囊对虾DNA, 然后用地高辛标记的核酸探针进行斑点杂交检测白斑综合征病毒,从而了解市场中养殖对虾携带白斑综合征病毒的情况。检测结果显示, 所有样品均未感染白斑综合征病毒, 说明目前白斑综合征病毒在一定程度上得到了有效控制。  相似文献   

17.
Eight European marine and freshwater crustaceans were experimentally infected with diluted shrimp haemolymph infected with white spot syndrome virus (WSSV). Clinical signs of infection and mortalities of the animals were routinely recorded. Diagnosis was by direct transmission electron microscopy (TEM), DNA hybridization (dot-blot and in situ hybridization) using WSSV probes and by PCR using WSSV specific primers. High mortality rates were noted between 7 to 21 days post-infection for Liocarcinus depurator , Liocarcinus puber , Cancer pagurus , Astacus leptodactylus , Orconectes limosus , Palaemon adspersus and Scyllarus arctus . Mortality reached 100%, 1 week post-infection in P. adspersus . When infection was successful, direct TEM observation of haemolymph revealed characteristic viral particles of WSSV, some observed as complete virions (enveloped), others as nucleocapsids associated with envelope debris. WSSV probes showed strong positive reactions in dot-blots and by in situ hybridization in sections and specific virus DNA fragments were amplified successfully with WSSV primers. White spot syndrome virus was pathogenic for the majority of the crustaceans tested. This underlines the epizootic potential of this virus in European crustaceans.  相似文献   

18.
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19.
White spot syndrome virus (WSSV) isolated from Penaeus monodon was found to be highly infective for the western Mediterranean shrimp, Palaemon sp. Using polymerase chain reaction (PCR), it was demonstrated that such shrimp are not naturally carriers of WSSV. Following challenge with virus, mortality reached 100% 3.5-4 days after injection at 22 degrees C. Incubation of infected shrimp at 10 degrees C totally suppressed the mortality which rapidly developed when shrimp were returned to 18 or 22 degrees C. Preincubation of WSSV with mature synthetic mytilin significantly reduced shrimp mortality with a 50% efficient dose of about 5 microM. Survival of shrimp was not due to the development of an active mechanism of defence as re-injection of WSSV produced the same mortality pattern. Mortality was probably due to WSSV replication as dot blot failed to detect viral DNA in the injection sample but was positive 1 day post-injection. Protection by mytilin was by interaction at the virus level, preventing replication as no WSSV nucleic acid was detected by PCR even after 7 days in shrimp injected with WSSV preincubated with 10 or 50 microM mytilin.  相似文献   

20.
WSSV has caused great losses to the global shrimp industry in recent years. This virus can infect shrimps asymptomatically. However, once the clinical signs are developed, mortalities can reach 100% in 3-10 days. PCR has been extensively used to detect WSSV in a specific and sensitive manner. Nested PCR is even more sensitive than single-step PCR and had been used for the detection of WSSV in asymptomatic populations. In this work, a detailed monitoring of WSSV by nested PCR in shrimp commercial ponds in Guasave County, State of Sinaloa, Mexico, is presented. Five ponds from two different farms were monitored for growth and presence of WSSV. At the beginning of the culture, ponds from both farms showed no or very slight WSSV presence. A 3-day period of rain occurred at both farms 10 and 14 weeks of culture for farms 1 and 2, respectively. At this time, WSSV was widely distributed in the shrimp populations of farm 1 according to nested-PCR data, although no visual symptoms were observed. In ponds of farm 2, WSSV was present at low level. However, the number of PCR-positive groups was drastically increased in both farms by nested and single-step PCR. Abrupt fluctuations in temperature and salinity were documented in farm 2 after the rain, which may have contributed to the increasing of viral load in the pond's shrimp populations. Twelve days after the rain period, estimated mortalities of 80% occurred in farm 1. Nevertheless, the study ponds at farm 2 culture continued normally for three more weeks and were harvested successfully (52% and 67% of survival for ponds 1 and 2, respectively). The removal of 40% and 50% of shrimp population 2-4 days after the raining period may have contributed to the thriving of the cultures. Analyses of the presence of WSSV in individuals of both sexes indicated that there is no preference for this virus to infect male or female shrimp. Also, no differences in weight were found between WSSV infected and non-infected individual shrimps, as well as nested-PCR positive against single-step PCR positive organisms. Nested PCR is more useful to monitor shrimp cultures than single-step PCR since it allows knowing how widely distributed the virus is in asymptomatically populations.  相似文献   

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