Increased sensitivity in PCR detection of tdh-positive Vibrio parahaemolyticus in seafood with purified template DNA

PCR is an important method for the detection of thermostable direct hemolysin gene (tdh)-positive (pathogenic hemolysin-producing) strains of Vibrio parahaemolyticus in seafood because tdh-negative (nonpathogenic) V. parahaemolyticus strains often contaminate seafood and interfere with the direct isolation of tdh-positive V. parahaemolyticus. In this study, the use of PCR to detect the tdh gene of V. parahaemolyticus in various seafoods artificially contaminated with tdh-positive V. parahaemolyticus was examined. PCR was inhibited by substances in oysters, squid, mackerel, and yellowtail but not by cod, sea bream, scallop, short-necked clam, and shrimp. To improve detection, DNA was purified by either the silica membrane method, the glass fiber method, or the magnetic separation method, and the purified DNA was used as the PCR primer template. For all samples, the use of the silica membrane method and the glass fiber method increased detection sensitivity. The results of this study demonstrate that the use of properly purified template DNA for PCR markedly increases the effectiveness of the method in detecting pathogenic tdh-positive V. parahaemolyticus in contaminated seafood.     

Evaluation of MPN method combined with PCR procedure for detection and enumeration of Vibrio parahaemolyticus in seafood

Vibrio parahaemolyticus densities in spiked and naturally contaminated seafood samples were enumerated by the MPN method combined with a PCR procedure (MPN-PCR method) targeting the species-specific thermolabile hemolysin gene (tlh), and by the MPN method using subcultivation of alkaline-peptone-water (APW) enrichment culture on thiosulfate-citrate-bile-sucrose (TCBS) agar (MPN-TCBS method). In the samples spiked with both V. parahaemolyticus and V. alginolyticus, the numbers of V. parahaemolyticus enumerated by the MPN-PCR method were similar to, or higher than the numbers of spiked cells, whereas those enumerated by the MPN-TCBS method were below the numbers of spiked cells. In naturally contaminated seafood samples, the numbers of V. parahaemolyticus enumerated by the MPN-PCR method were higher than those by the MPN-TCBS method. In the case of the MPN-TCBS method, isolation of V. parahaemolyticus from some APW cultures was difficult because of the overgrowth of many colonies other than V. parahaemolyticus (e.g., V. alginolyticus) on TCBS agar. In contrast, the PCR technique could detect tlh from APW culture without isolation of V. parahaemolyticus, so the possibility of failing to obtain a positive result in APW culture by the MPN-PCR method was considered to be lower than that by the MPN-TCBS method. Furthermore, utilization of the PCR technique reduces the time and labor required for the biochemical identification tests used in the MPN-TCBS method. For the detection and enumeration of V. parahaemolyticus in seafood, especially for samples that show many colonies other than V. parahaemolyticus on TCBS agar, the MPN-PCR method may be more convenient and reliable than the MPN-TCBS method.     

副溶血弧菌的SYBR Green Ⅰ实时定量PCR检测方法建立

基于副溶血弧菌gyrB基因保守序列设计1对特异性引物,建立SYBR GreenⅠ实时定量聚合酶链式反应(polymerase chain reaction,PCR)检测副溶血弧菌的方法。SYBR GreenⅠ实时定量PCR的Tm为90℃,扩增产物的熔解曲线只出现1个单特异峰,无引物二聚体,表明该引物具有较好的特异性;所制作的实时定量PCR扩增标准曲线在2.06×108～2.06×103拷贝数之间有较好的线性关系,相关系数为0.992,能对副溶血弧进行准确的定量分析。该方法检测时间从核酸抽提到结果分析仅需4～5h,且较传统方法敏感、操作简单,可用于针对副溶血弧菌的进出口检验检疫、食品安全检测及该菌引起的水产动物疾病的诊断与分子流行病学调查。     

The international standard ISO/TS 21872-1 to study the occurence of total and pathogenic Vibrio parahaemolyticus and Vibrio cholerae in seafood: ITS improvement by use of a chromogenic medium and PCR

During two surveys conducted in 2008 and 2009, the culture method described in the international standard ISO/TS 21872-1 was applied to the detection of Vibrio parahaemolyticus and Vibrio cholerae in 112 living bivalve mollusc samples, with a chromogenic medium used in addition to the TCBS agar, as second selective isolation medium and for enumeration of V. parahaemolyticus and V. cholerae by surface inoculation. A PCR method for detection of these 2 Vibrio species and the hemolysin genes tdh and trh, was applied in parallel. In 2009, the survey was extended to finfish fillets and crustaceans. PCR was also used for species confirmation of characteristic colonies. The identity of the PCR products, specifically targeting V. parahaemolyticus, was checked by sequencing. Occurrence of V. parahaemolyticus and V. cholerae isolates in living bivalve molluscs ranged from 30.4% to 32.6% and from 1.4% to 4.7% respectively. In frozen crustaceans (2009 survey) V. parahaemolyticus and V. cholerae isolates were respectively found in 45% and 10% of the samples. No V. parahaemolyticus or V. cholerae was detected in frozen fish fillets, neither by the ISO method nor by PCR. In 2009, enteropathogenic V. parahaemolyticus (trh+) was isolated from 4 out of 43 oyster samples while the trh gene was present in V. alginolyticus strains and in samples where V. parahaemolyticus was not detected (9 over 112 samples). The ISO method failed to isolate V. parahaemolyticus in 44% to 53% of the living bivalve molluscs where PCR detected the toxR gene specific of V. parahaemolyticus (Vp-toxR). Our results highlighted the need for a revision of the ISO/TS 21872-1 standard, at least, for analysis of living bivalve molluscs, and confirmed the increasing concern of enteropathogenic V. parahaemolyticus in French bivalve molluscs. Enrichment at 41.5°C was questioned and some reliable solutions for the improvement of the ISO/TS 21872-1 method, such as the PCR method for screening of positive samples and confirmation of colonies, were pointed out.     

Development and evaluation of a loop-mediated isothermal amplification assay for rapid and sensitive detection of Vibrio parahaemolyticus

Loop-mediated isothermal amplification (LAMP) assays targeting the rpoD and toxR genes were developed to detect Vibrio parahaemolyticus. All 78 tested V. parahaemolyticus strains yielded positive results within 40 min, while negative results were obtained for 69 strains of other organisms even at 60 min. For V. parahaemolyticus ATCC 17802 in pure culture, the detection limits of LAMP assays targeting rpoD and toxR were 3.7 and 450 CFU per test, respectively. Due to the higher sensitivity of rpoD-LAMP, it was further evaluated for the ability to detect V. parahaemolyticus in seafood samples. V. parahaemolyticus populations spiked in short-necked clams were enumerated by the most-probable-number (MPN) method combined with the rpoD-LAMP assay and the MPN method with a culture method using agar medium. The MPN-rpoD-LAMP method had better sensitivity and was more rapid than the conventional method. These results indicate that the MPN-LAMP assay targeting the rpoD gene is a specific, sensitive, and rapid method to enumerate V. parahaemolyticus organisms.     

副溶血性弧菌定量检测的不确定度分析和评定

目的 分析和评定冷冻天然海虾中副溶血性弧菌定量检测最大可能数(most probable number, MPN)计数的不确定度。方法 依据JJF 1059.1-2012《测量不确定度评定与表示》、SN/T 4091–2015《食品微生物学测量不确定度评估指南》, 分析和评定检测过程中的不确定度主要来源, 运用统计学方法计算合成不确定度和扩展不确定度。结果 在95%的置信水平下, 当检验结果为75 MPN/g 和93 MPN/g时(k=2), 扩展不确定度为0.3526取值范围分别为(49~101) MPN/g、(60~126) MPN/g。评定结果表明, 实验过程的不确定度主要由样品匀液、加样体积、不同人员重复实验引入。结论 该方法适用于对冷冻天然海虾中副溶血性弧菌最大可能数计数结果的不确定度评定, 对检测结果准确度的提高具有指导意义。     

实时荧光跨越式滚环等温扩增结合PMA检测虾产品中的活副溶血性弧菌

目的：为快速检测虾产品中的活副溶血性弧菌,建立一种实时荧光跨越式滚环等温扩增（real-time fluorescent saltatory rolling circle amplification,RF-SRCA）与叠氮溴化丙锭（propidium monoazide,PMA）染料相结合的检测方法。方法：依据副溶血性弧菌的特异性基因toxR设计并筛选引物,对PMA-RF-SRCA检测方法进行特异性、灵敏度及检出限分析,并与PMA-实时聚合酶链式反应（real-time polymerase chain reaction,real-time PCR）方法进行对比。对76 份样品进行检测,以GB 4789.7—2013方法为标准,对PMA-RF-SRCA方法的相对敏感性、相对特异性、相对符合率进行计算,以对本方法的实用性进行评估。结果：此方法的引物特异性良好,12?株副溶血性弧菌结果均呈阳性,18?株非副溶血性弧菌结果均呈阴性;PMA-RF-SRCA法灵敏度为3.2×100?CFU/mL,检出限为2.08×101?CFU/g,此方法的灵敏度是PMA-real-time PCR的100?倍。经过实际样品检测,PMA-RF-SRCA方法的敏感性、特异性、符合率分别为100.00%、96.00%和98.68%。结论：PMA-RF-SRCA方法特异性强、灵敏度高,可用于虾产品中的活副溶血性弧菌的检测与筛查。     

Occurrence of Vibrio parahaemolyticus in Two Oregon Oyster-growing Bays

ABSTRACT: Occurrence of Vibrio parahaemolyticus in 2 Oregon oyster-growing areas (Yaquina andTillamook Bays) was studied from November 2002 to October 2003. Vibrio parahaemolyticus was detected in 15.0% of oyster, 20.0% of seawater, and 47.5% of sediment samples with very low levels of pathogenic strains being detected in oysters (≤3.6 most probable number [MPN] /g). The densities of total and pathogenic V. parahaemolyticus were higher in sediment (≤1100 and ≤43 MPN/g) than in seawater (≤15 and ≤3.6 MPN/100 mL) or oyster (≤43 and ≤3.6 MPN/ g). Densities of V. parahaemolyticus in both bays were positively correlated to water temperatures ( P < 0.01), with higher densities in samples being detected in summer, especially July and August. There was no correlation between the densities of V. parahaemolyticus and water salinity or the densities of V. parahaemolyticus and bacterial populations in seawater. Freshly harvested oysters should be kept at refrigeration temperatures to prevent rapid growth of pathogenic V. parahaemolyticus in contaminated oysters.     

Levels of Vibrio parahaemolyticus and thermostable direct hemolysin gene-positive organisms in retail seafood determined by the most probable number-polymerase chain reaction (MPN-PCR) method

The incidence and levels of Vibrio parahaemolyticus and thermostable direct hemolysin gene (tdh)-positive organisms in retail seafood were determined. The most probable number-polymerase chain reaction (MPN-PCR) method using a PCR procedure targeting the species-specific thermolabile hemolysin gene (tlh) and tdh was used to determine the levels of V. parahaemolyticus and tdh-positive organisms, respectively. In seafood for raw consumption, V. parahaemolyticus was found in four (13.3%) of 30 fish samples, 11 (55.0%) of 20 crustacean samples, and 29 (96.7%) of 30 mollusc samples. Levels of V. parahaemolyticus were below 10(4) MPN/100 g in all fish and crustacean samples tested. However, they were above 10(4) MPN/100 g in 11 (36.7%) of the 30 mollusc samples. In all seafood for raw consumption, the level of tdh-positive organisms was below the limit of detection (< 30 MPN/100 g). In seafood for cooking, V. parahaemolyticus was found in 15 (75.0%) of 20 fish samples, nine (45.0%) of 20 crustacean sample, and 20 (100%) of 20 mollusc samples. Levels of V. parahaemolyticus were above 10(4) MPN/100 g in only three (15.0%) and one (5.0%) of the 20 fish and 20 crustacean samples, respectively. However, they were above 10(4) MPN/100 g in 18 (90.0%) of the 20 mollusc samples. In seven (35.0%) of the 20 mollusc samples, tdh-positive organisms were found and their levels ranged from 3.6x10 to 1.1 x 103 MPN/100 g. From four of seven tdhpositive samples, tdh-positive V. parahaemolyticus was isolated.     

Comparison of a Chromogenic Medium with Thiosulfate-Citrate-Bile Salts-Sucrose Agar for Detecting Vibrio parahaemolyticus

ABSTRACT: The widely used most probable number (MPN) method for detecting Vibrio parahaemolyticus cannot differentiate growth of V. parahaemolyticus from Vibrio vulnificus or Vibrio mimicus on the thiosulfate-citrate-bile salts-sucrose agar (TCBS). Presumptive positive colonies grown onTCBS need to be confirmed with lengthy biochemical tests. This study compared a chromogenic medium, Bio-Chrome Vibrio medium (BCVM), with TCBS for detecting V. parahaemolyticus in seawater, sediment, and oysters using a 3-tube MPN method. Among the 296 samples tested, 136 and 92 samples produced presumptive positive results on TCBS and BCVM, respectively. Biochemical tests and a multiplex polymerase chain reaction (PCR) assay confirmed 74 of 83 samples that were presumptive positive on both TCBS and BVCM as V. parahaemolyticus . Although false-positive results were reported when either medium was used, there were 62 reported for TCBS whereas only 15 were reported for BCVM. The specificities of TCBS and BCVM for V. parahaemolyticus detection were determined to be 77% and 94%, respectively. The accuracies of detecting V. parahaemolyticus were 54% for TCBS and 84% for BCVM. The Bio-Chrome Vibrio medium can be used in the MPN method to reduce the number of biochemical tests needed for V. parahaemolyticus confirmation.     

Seasonal distribution of total and pathogenic Vibrio parahaemolyticus in Chesapeake Bay oysters and waters

The objectives of this study were to investigate the seasonal distribution of total and pathogenic Vibrio parahaemolyticus in the Chesapeake Bay oysters and waters, and to determine the degree of association between V. parahaemolyticus densities and selected environmental parameters. Oyster and water samples were collected monthly from three sites in Chesapeake Bay, Maryland from November 2004 through October 2005. During collection of samples, water temperature, salinity, turbidity, dissolved oxygen, pH, chlorophyll a, and fecal coliform levels in oysters were also determined. V. parahaemolyticus levels were enumerated by a quantitative direct-plating method followed by DNA colony hybridization; presence/absence was further determined by overnight broth enrichment followed by either standard colony isolation or real-time PCR. The thermolabile hemolysin (tlh) gene and thermostable direct hemolysin (tdh) gene were targeted for detection of total and pathogenic V. parahaemolyticus, respectively, for both direct plating and enrichment. The thermostable related hemolysin (trh) gene, which is a presumptive pathogenicity marker, was targeted only for the enrichment approach. By direct plating, colonies producing tlh signals were detected in 79% of oyster samples at densities ranging from 1.5x10(1) to 6.0x10(2) CFU/g. Pathogenic V. parahaemolyticus (tdh+) was detected in 3% (level was 10 CFU/g) of oyster samples while no V. parahaemolyticus was detected in water samples. By the enrichment approach with standard colony isolation, 67% of oyster and 55% of water samples (n=33) were positive for total V. parahaemolyticus, and all samples were negative for pathogenic V. parahaemolyticus. In contrast, enrichment followed by real-time PCR detected tlh, tdh and trh in 100%, 20% and 40% of oyster and 100%, 13% and 40% of water enrichments collected from June to October 2005, respectively. V. parahaemolyticus densities in oysters varied seasonally and were found to be positively correlated with water temperature, turbidity, and dissolved oxygen.     

三重real-time PCR检测副溶血弧菌主要毒力基因

针对编码副溶血弧菌的特异性基因和主要毒力基因tlh、tdh、ureR进行引物及探针设计,通过优化反应条件,建立基于Taqman探针快速检测副溶血弧菌毒力基因的三重实时聚合酶链式反应（real-time polymerase chain reaction,real-time PCR）方法。利用10 株副溶血弧菌和22 株非副溶血弧菌对设计的引物及探针进行特异性验证,结果表明设计的引物及探针具有很高的特异性;优化后的引物浓度分别为tdh 0.15 μmol/L、tlh 0.15 μmol/L、ureR 0.80 μmol/L,探针浓度分别为HEX 0.50 μmol/L、FAM 0.50 μmol/L;该方法即使在高浓度的背景细菌存在下,DNA浓度与Ct值均呈良好的线性关系,检出限为1.8×102 拷贝/mL;以完整菌细胞的悬液为模板时,预变性时间为30 min,扩增检测效果与以基因组DNA（gDNA）为模板相当（ΔCt＜1）。本研究建立的三重real-time PCR方法能实现快速定量检测副溶血弧菌,并能有效区分致病性及非致病性副溶血弧菌,为副溶血弧菌的快速定量检测和风险评估提供快速、灵敏、准确的方法。     

基于DNA染料EMA的RT-PCR技术定量检测海产品中病原性副溶血弧菌活细胞

将一种DNA染料叠氮溴化乙锭(ethidium bromide monoazide,EMA)与实时定量聚合酶链式反应(RT-PCR)技术相结合,建立一种能选择性定量检测牡蛎中trh阳性副溶血弧菌活细胞的新方法。结果表明：使EMA成功插入死细胞DNA并且光解溶液中游离EMA的最佳曝光时间为20min;不抑制副溶血弧菌活细胞DNA扩增的最大EMA质量浓度为2.0μg/mL;完全抑制热致死细胞DNA扩增的最小EMA质量浓度为1.0μg/mL;人工污染牡蛎样品,不经过富集,在2.0×103～2.0×107CFU范围内细胞数的常用对数值与Ct值之间呈严格的负相关性,并且纯培养与人工污染牡蛎样品的RT-PCR检测限均为2×103CFU,即人工污染牡蛎样品的RT-PCR检测灵敏度为每克牡蛎样品400个活细胞;冻融实验表明,在温度低于55℃的水浴中对冷冻海产品进行解冻时,冻融过程对副溶血弧菌活细胞几乎没有影响。该方法是一种快速、灵敏且能有效鉴别并定量检测病原活细胞的新方法。     

食源性副溶血性弧菌的检测方法研究进展

副溶血性弧菌(Vibrio parahaemolyticus,VP)是一种食源性致病菌,由其引发的食品安全事件已跃居我国食源性致病菌中毒数量首位。目前检测食品中致病微生物的方法主要有:传统生化培养方法、以抗原抗体反应为基础的免疫学检测方法、以PCR为基础的DNA分子检测方法等。本文总结了当前VP主要检测方法,包括免疫磁珠分离、酶联免疫吸附反应、免疫层析测试、免疫传感器、PCR技术、环介导等温扩增技术、DNA适配体传感器、DNA杂交技术等,以期为VP的快速检测方法提供借鉴和参考。     

上海市零售梭子蟹中副溶血性弧菌的污染状况及风险评估

目的 研究上海市场零售梭子蟹中副溶血性弧菌的污染状况,并对副溶血性弧菌可能引发的公共卫生风险进行初步评估.方法 采用最可能数(MPN)法检测上海和宁波市售梭子蟹中副溶血性弧菌的带菌量,采用膳食回顾性调查方法对上海居民梭子蟹消费量进行调查,采用Risk Ranger软件对梭子蟹中副溶血性孤菌进行丰定量风险评估.结果 上海和宁波市零售梭子蟹中副溶血性弧菌阳性率分别为60.5%和13.3%,阳性试样平均菌量分别为0.75 MPN/g和5.50 MPN/g.膳食调查结果显示,上海居民梭子蟹人均日摄入量为2.95 g/d.风险评估结果显示,风险评分为36分,梭子蟹食用者每人每天的发病概率为8.22×10-9,每年上海地区预期发生42.5例副溶血性弧菌感染病例.通过改变评估模型中某些风险的选择,如采取良好的控制措施,风险可降低至原来的1/10.结论 上海市售梭子蟹副溶血性弧菌污染状况较为严重,可能对人群健康造成较高的风险,未来有必要进一步加强监测.     

Occurrence of Vibrio and other pathogenic bacteria in Mytilus galloprovincialis (mussels) harvested from Adriatic Sea, Italy.

Sixty-two samples of Mytilus galloprovincialis (mussels) harvested from approved shellfish waters in the Adriatic Sea were examined for the presence of Vibrio, Salmonella, Campylobacter, and verocytotoxin producing Escherichia coli. Vibrio spp. were isolated from 48.4% of samples; the species most frequently found were V. alginolyticus (32.2%) and V. vulnificus (17.7%), followed by V. cincinnatiensis (3.2%), V. parahaemolyticus (1.6%), V. fluvialis (1.6%) and V. cholerae non-O1 (1.6%). V. parahaemolyticus resulted negative to Kanagawa-phenomenon and to PCR amplification of tdh gene. V. cholerae resulted negative to PCR amplification of sto gene. No Salmonella, Campylobacter, or E. coli verocytotoxin-producing strains were isolated. The results of this study suggest the potential risk of ingesting raw or undercooked mussels due to the frequent presence of potentially pathogenic Vibrio species.     

福建省带壳牡蛎中副溶血性弧菌的市场调查

为了解零售带壳牡蛎中副溶血性弧菌(VP)的污染情况，2003年4月～2004年3月每月在福建省福州和厦门两地收集带壳牡蛎，样品共252份，分别来自水产品批发市场(11％)、零售市场(50％)和饭店(39％)。采用Vitek鉴定系统和最可能数(MPN)法进行VP的定性和定量分析。结果显示，带壳牡蛎VP几何平均密度为46MPN，100g，46％的试样VP密度低于30MPN/100g的最低检出限，仅厦门2个试样菌量超过104MPIN/100g。两个地区、不同采样点和不同季节之间试样vP平均密度差别均有显性。厦门试样菌量高于福州；批发市场试样菌量最高；春季试样菌量(93MPN/100g)高于其它季节(约为40MPN/100g)。研究结果可以用于估计生食牡蛎人群VP的暴露量。     

温暖月份零售带壳牡蛎中副溶血性弧菌的定量研究

为了解温暖月份零售带壳牡蛎中副溶血性弧菌 (VP)的污染情况 ,2 0 0 3年 4～ 8月在福建省福州和厦门两地共收集带壳牡蛎 113份 ,样品分别来自水产品批发市场 (18% ) ,零售市场 (4 6 % )和饭店 (36 % )。采用Vitek鉴定系统和最可能数法进行VP的定量分析。结果显示 ,带壳牡蛎中VP密度的几何均数为 6 0MPN 10 0g ,4 1 6 %的样品VP密度低于 30MPN 10 0g的最低检出限 ,仅厦门2个样品菌量超过 2 4 0 0 0MPN 10 0g。两个地区、不同采样点和不同月份之间样品VP密度的几何均数差别均有统计学意义 (P <0 0 1)。厦门样品污染菌量高于福州 ;批发市场样品菌量最高 ;5月份样品菌量最高 ,为 14 9MPN 10 0g ,而 6～ 8月样品菌量约为 4 0MPN 10 0g。零售环节带壳牡蛎VP的检出率较高。未来应加强对生食海产品中VP污染状况的监测。     

多重荧光定量PCR法检测海产品中副溶血性弧菌、沙门菌和单增李斯特菌

目的建立检测海产品中副溶血性弧菌、沙门菌和单增李斯特菌的多重荧光定量PCR体系。方法针对副溶血性弧菌tlh基因,沙门菌Ompc基因和单增李斯特菌hly基因设计引物和Taq Man探针,建立多重荧光定量PCR体系,进行特异性与敏感性研究;利用该体系检测海产品中的副溶血性弧菌、沙门菌和单增李斯特菌。结果副溶血性弧菌、沙门菌和单增李斯特菌可得到特异性扩增,而共存于海产品中的其他细菌均未见扩增曲线。敏感性试验显示,该体系对副溶血性弧菌、沙门菌和单增李斯特菌的最低检测限分别为72、40、80 cfu/ml。对舟山采集的150份样品进行检测,检出32份副溶血性弧菌、11份沙门菌、5份单增李斯特菌,与国标法检测结果一致。结论本研究建立的基于Taq Man探针的多重荧光定量PCR检测方法可以特异、灵敏、简单快速地实现对海产品中副溶血性弧菌、沙门菌和单增李斯特菌的检测。     

北部湾茅尾海副溶血性弧菌的分离鉴定与致病性分析

为解析北部湾海域及水产品中副溶血性弧菌的多样性特征与安全风险,本研究采集了北部湾茅尾海养殖区域海水和水产经济动物样品,利用硫代硫酸盐柠檬酸盐胆盐蔗糖琼脂培养基(TCBS)对所采样品进行海洋弧菌的分离和纯化,共分离获得109株疑似弧菌菌株。通过16S rDNA和特异功能基因toxR的PCR扩增并测序鉴定,共检出副溶血性弧菌20株,检出率为18.3%。此外,通过系统发育分析还发现副溶血性弧菌的toxR和tdh基因序列都存在水平基因转移现象,呈现出较大的多样性。对20个副溶血性弧菌菌株的毒力基因tdh进行分析,结果表明有4株携带了tdh毒力基因,检出率为20%,易引起食物中毒,对公共卫生造成的威胁较大。因此,本研究建议采用PCR技术开展副溶血性弧菌特异种属基因和毒力基因检测,准确评估北部湾区域海水及其水产品的卫生安全性,降低爆发水产养殖业病害和食源性疾病的风险。