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1.
Detection of koi herpesvirus DNA in tissues of infected fish   总被引:6,自引:0,他引:6  
A newly recognized herpesvirus, koi herpesvirus or KHV, causes a lethal disease in common carp, Cyprinus carpio , and its colourful strain known as koi or fancy carp. In this study, we report new outbreaks of the disease, present initial characterization of the KHV genome, and describe assays for detection of KHV DNA in infected cells and tissues of infected fish. Restriction endonuclease (RE) profiles of viral DNA derived from two epidemiologically distinct KHV isolates were identical to each other. Cloned KHV BamHI and SphI DNA probes specifically hybridized to KHV DNA, but not to DNAs derived from a variety of other fish herpesviruses. The KHV DNA probes detected KHV DNA in tissues of experimentally infected koi fish by DNA hybridization. The KHV specific polymerase chain assays (PCR) were developed for rapid detection and confirmation of KHV DNA in tissues of infected fish.  相似文献   

2.
The 16S-23S intergenic spacers (ITS) of ribosomal DNA from ten independent isolates of Streptococcus iniae and one reference strain ATCC29178 were sequenced, aligned and used to design a polymerase chain reaction (PCR) primer set for rapid and specific detection and identification of S. iniae. This primer set amplified a 377-bp DNA fragment specifically from S. iniae, but not from other common bacterial pathogens of fish or from non-fish pathogens. The PCR conditions were optimized to allow detection of the organism from agar, broth culture or infected fish tissue. The sensitivity of the PCR assay was established by the detection of DNA as low as 0.02 ng or as few as 10 CFU bacterial cells. The establishment of the specific PCR assay provides a useful tool for the identification and diagnosis of fish infection with S. iniae.  相似文献   

3.
Fish diseases can be caused by a variety of diverse organisms, including bacteria, fungi, viruses and protozoa, and pose a universal threat to the ornamental fish industry and aquaculture. The lack of rapid, accurate and reliable means by which fish pathogens can be detected and identified has been one of the main limitations in fish pathogen diagnosis and fish disease management and has consequently stimulated the search for alternative diagnostic techniques. Here, we describe a method based on multiplex and broad-range PCR amplification combined with DNA array hybridization for the simultaneous detection and identification of all cyprinid herpesviruses (CyHV-1, CyHV-2 and CyHV-3) and some of the most important fish pathogenic Flavobacterium species, including F. branchiophilum, F. columnare and F. psychrophilum. For virus identification, the DNA polymerase and helicase genes were targeted. For bacterial identification, the ribosomal RNA gene was used. The developed methodology permitted 100% specificity for the identification of the target species. Detection sensitivity was equivalent to 10 viral genomes or less than a picogram of bacterial DNA. The utility and power of the array for sensitive pathogen detection and identification in complex samples such as infected tissue is demonstrated in this study.  相似文献   

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Channel catfish virus (CCV) causes an acute haemorrhagic disease in channel catfish, Ictalurus punctatus (Rafinesque), fry and fingerlings. The present study describes a polymerase chain reaction (PCR)-based assay for detection of CCV DNA in the tissues of acutely infected juvenile catfish. The assay is rapid, sensitive and specifically detects CCV DNA derived from epidemiologically distinct viral isolates. The use of two independent PCR primers sets, each specific for particular CCV genes (open reading frames 8 and 59), provides a means to confirm the results and minimize false-positive results. The method identifies CCV DNA in several tissues of acutely infected fish, including the brain, blood, intestine, kidney and liver. The CCV PCR assay is useful for the diagnosis of acute CCV disease and for studies to investigate the molecular basis of CCV pathogenesis.  相似文献   

7.
Loop-mediated isothermal amplification (LAMP) is a novel technique for nucleic acid amplification with high specificity, sensitivity and rapidity and does not require expensive equipment or reagents. In the present study, we developed and evaluated a LAMP method for the rapid detection of Renibacterium salmoninarum causing the bacterial kidney disease in salmonids. This method was more sensitive than quantitative real-time polymerase chain reaction (qPCR). Using DNA template extracted from cultured R. salmoninarum , the LAMP method gave an amplification signal from template diluted to 10−8 while the limit of detection of qPCR was10−7. The LAMP method was also highly specific and did not amplify DNA purified from five other Gram-positive and -negative bacterial fish pathogens. The method also worked well using extracts of macrophages infected with R. salmoninarum and kidney material from rainbow trout, which were positive for R. salmoninarum by qPCR and crude R. salmoninarum culture. There was some evidence for inhibitors of the LAMP reaction in the kidney samples, which was overcome by diluting the sample.  相似文献   

8.
Parvicapsula minibicornis is a myxosporean parasite that is associated with disease in Pacific salmon during their freshwater life history phase. This study reports the development of a quantitative (real-time) polymerase chain reaction (QPCR) to detect P. minibicornis DNA. The QPCR assay targets the 18S ribosomal subunit gene. A plasmid DNA control was developed to calibrate cycle threshold ( C T) score to plasmid molecular equivalent (PME) units, a measure of gene copy number. Assay validation revealed that the QPCR was sensitive and able to detect 50 ag of plasmid DNA, which was equivalent to 12.5 PME. The QPCR assay could detect single P. minibicornis actinospores well above assay sensitivity, indicating a single spore contains at least 100 times the 18S DNA copies required for detection. The QPCR assay was repeatable and highly specific; no detectable amplification was observed using DNA from related myxozoan parasites. The method was validated using kidney tissues from 218 juvenile Chinook salmon sampled during the emigration period of March to July 2005 from the Klamath River. The QPCR assay was compared with histological examination. The QPCR assay detected P. minibicornis infection in 88.1% of the fish sampled, while histological examination detected infection in 71.1% of the fish sampled. Good concordance was found between the methods as 80% of the samples were in agreement. The majority of the disconcordant fish were positive by QPCR, with low levels of P. minibicornis DNA, but negative by histology. The majority of the fish rated histologically as having subclinical or clinical infections had high QPCR levels. The results of this study demonstrate that QPCR is a sensitive quantitative tool for evaluating P. minibicornis infection in fish health monitoring studies.  相似文献   

9.
血卵涡鞭虫病是海水甲壳类的重要寄生虫病,其流行范围广、死亡率高、危害非常严重。本研究根据GenBank中已登录的血卵涡鞭虫(Hematodinium sp.)ITS1序列设计了1套引物,该引物可识别目标基因中6个不同区段。以此套引物建立了一种基于环介导恒温扩增技术(Loop-mediated isothermal amplification,LAMP)的血卵涡鞕虫病诊断方法。特异性试验结果表明,该套引物对血卵涡鞕虫检测具有较高的特异性,能有效检出血卵涡鞕虫。敏感度试验结果表明,该LAMP技术的灵敏度比常规PCR技术高4个数量级。分别运用LAMP和常规PCR技术对25份临床疑似病例进行检测,LAMP方法共检出感染病例25份,常规PCR检出感染病例23份。该技术能在65℃恒温条件下45~60min完成目的DNA的扩增,可直接通过肉眼观察反应产物中是否产生白色沉淀或经SYBRGreenI染色后通过颜色变化、扩增产物的琼脂糖凝胶电泳来定性判断结果,这将为血卵涡鞕虫病的临床诊断提供一种更加简便、快速、实用的方法。  相似文献   

10.
Vibrio anguillarum , an opportunistic fish pathogen, is the main species responsible for vibriosis, a disease that affects feral and farmed fish and shellfish, and causes considerable economic losses in marine aquaculture. In this study, we used polymerase chain reaction (PCR) to detect V. anguillarum . PCR specificity was evaluated by amplifying the rpoS gene, a general stress regulator, in six strains of V. anguillarum and 36 other bacterial species. PCR amplified a species-specific fragment (689 bp) from V. anguillarum . Furthermore, the PCR assay was sensitive enough to detect rpoS expression from 3 pg of genomic DNA , or from six colony-forming units (CFU) mL−1 of cultured V. anguillarum . However, the assay was less sensitive when genomic DNA from the infected flounder and prawn was used (limit of detection, 50 ng and 10 ng g−1 tissue, respectively). These data demonstrate that PCR amplification of the rpoS gene is a sensitive and species-specific method to detect V. anguillarum in practical situations.  相似文献   

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