一种能同时富集沙门氏菌、金黄色葡萄球菌和单增李斯特菌的培养基

摘要：【目的】设计制备一种能够同时富集沙门氏菌、金黄色葡萄球菌及单增李斯特菌的复合增菌肉汤。【方法】挑选合适的添加剂进行单因素实验,确定增菌肉汤的成分及配比,采用平板计数法及三重荧光PCR技术验证肉汤的增菌效果。【结果】结果得到一种能同时富集沙门氏菌、金黄色葡萄球菌及单增李斯特菌的选择性增菌肉汤（SSL）,经验证SSL可使得3种目标菌以相对一致的速度进行富集,经过37℃ 150r/min 振荡培养24h后,菌体浓度到达107~108CFU/mL,非目标菌生长受到抑制。应用荧光PCR扩增样品,可同时得到3种     

沙门氏菌、金黄色葡萄球菌、志贺氏菌、单增李斯特菌选择性共增菌培养基的研制

目的：研制一种对沙门氏菌（Salmonella）、金黄色葡萄球菌（Staphylococcus aureus）、志贺氏菌（Shigella）和单增李斯特菌（Listeria monocytogens）的选择性共增菌培养基（SSSL培养基）。方法：挑选添加成分进行单因素试验,确定SSSL培养基的成分及配比,采用平板计数法验证SSSL培养基的增菌效果。结果：确立了SSSL培养基配方,目标菌在SSSL增菌培养基中培养8 h后,菌体浓度都达到了105~106CFU/mL,而且抑制非目标菌的生长。结论：SSSL培养基能用于沙门氏菌、金黄色葡萄球菌、志贺氏菌和单增李斯特菌选择性共增菌,可望与多种检测方法联用,以提高检测率和准确性。     

免疫磁珠富集技术联合选择性培养基快速检测单增李斯特菌

单增李斯特菌是一种危害极大的食源性致病菌,建立快速及特异的检测方法对于食品安全监控尤为重要。文中联合免疫磁珠与选择性培养基对不同浓度(101~105CFU/mL)单增李斯特菌进行检测,并对3种李斯特菌、金黄色葡萄球菌及副溶血弧菌进行交叉试验;同时模拟食物污染,探索免疫磁珠-平板法检测样品的检测限以及该方法的最快检测时间。结果显示特异性免疫磁珠联合选择性平板法可检出浓度为103CFU/mL及以上的单增李斯特菌;牛奶样品仅需6 h增菌能被检出,检测限为0.7 CFU/mL。联合使用免疫磁珠富集技术与选择性培养基,能在30 h内完成对牛奶样品的检测,较国标法减少38 h以上,且具有同等的灵敏度。     

选择性富集沙门氏菌、副溶血弧菌和霍乱弧菌的共增菌培养基SVV

本研究通过单因素试验和响应面分析试验建立了能够选择性富集沙门氏菌、副溶血弧菌和霍乱弧菌的共增菌培养基SVV,采用平板计数法及三重荧光PCR技术验证了SVV的增菌效果。结果表明:SVV能同时富集以不同浓度比例混合的3种目标菌,37oC振荡培养18h后,菌体浓度达到105~108CFU/mL;SVV强烈抑制大部分的非目标菌;用荧光PCR方法检测经过37oC振荡培养18h的10份人工接种样品和608份实际样品,结果表明目标菌在SVV中增殖18h后菌量达到检测限以上,SVV联合荧光PCR检测方法的检出率为4.06%,比传统检测方法(3.78%)高,无假阴性和假阳性。SVV可望应用于水产品中沙门氏菌、副溶血弧菌和霍乱弧菌检测前的增菌处理,可简化检测过程,有效克服漏检,提高检出率。     

即食熟肉制品中主要致病菌的半定量风险评估

按照CAC推荐的致病菌风险评估步骤,利用Risk Ranger软件对即食熟肉制品中致病菌进行半定量风险评估和风险分级。结果显示,即食熟肉制品中检出的致病菌主要为金黄色葡萄球菌、单增李斯特菌、沙门氏菌及蜡样芽胞杆菌,其风险评分分别为42、44、38、40,均为中度风险,单增李斯特菌的风险较高。通过对即食熟肉制品加工后期染菌途径的有效控制及食用前轻微加热处理,可有效降低单增李斯特菌的风险评分,预计每年患病人数可分别降低70%、50%,2种措施联合实施则可以降低85%。     

一种能同时富集沙门菌、大肠杆菌和金黄色葡萄球菌的增菌培养基

研究设计出一种能同时富集培养沙门菌、大肠杆菌和金黄色葡萄球菌的缓冲盐水肉汤(buffed saline broth,BSB),主要组分和含量为:蛋白胨10g、牛肉膏3g、磷酸氢二钠9g、磷酸二氢钾1.5g、添加剂50g、蒸馏水定容至1000mL,pH7.2。将1cfu/mL的上述3种菌同时分别接种到97mLBSB、蛋白缓冲水、乳糖肉汤、营养肉汤、大肠杆菌肉汤、氯化镁孔雀绿增菌液、7.5%氯化钠肉汤增菌培养基中,37℃增菌18h。结果表明BSB能使这3种菌以相对一致的速度增殖,分别达到106、106、107cfu/mL,并且多重PCR能同时分别扩增沙门菌invA基因284bp、大肠杆菌phoA基因622bp和金黄色葡萄球菌nuc基因484bp的特异性条带。相反,其他几种培养基则不能同时协调增殖上述3种菌。这些结果表明,BSB有较好的应用前景。     

荧光重组酶介导等温扩增检测食品中单增李斯特菌

[背景] 单增李斯特菌为肉类及乳制品中常见的食源性致病菌,传统的培养法检测无法满足口岸大批量食品的快速检测要求,建立简便、灵敏、快速及现场可操作的技术至关重要。[目的] 建立快速简便的荧光重组酶介导等温扩增（Recombinase-Aided Amplification,RAA）法检测单增李斯特菌,以适应口岸快速通关及监管的实际需求。[方法] 根据单增李斯特菌hlyA基因保守区设计特异性引物、探针,通过引物两两组合结合探针筛选出扩增效率及灵敏度最佳的引物组合,优化反应温度及引物探针浓度,确定最佳反应条件。将建立的荧光RAA法应用于食品基质及实际样品检测中,同时与国标GB 4789.30-2016进行比对验证。[结果] 单增李斯特菌荧光RAA最佳反应温度为42 ℃,最佳引物、探针终浓度均为400 nmol/L。建立的荧光RAA法特异性强,纯菌灵敏度达到3×10² CFU/mL。加标食品基质牛肉、大西洋鲑鱼及再制干酪LB2增菌只需4 h,即可检测原始浓度分别达到0.3、3、30 CFU/mL的单增李斯特菌。荧光RAA法只需5 min即可观察结果,20-30 min完成扩增,速度及灵敏度明显高于国标法。[结论] 建立的荧光RAA法可用于口岸和其他场所进行单增李斯特菌的快速检测与监控。     

单增李斯特菌InternalinA的表达、纯化及多克隆抗体的制备

【目的】克隆表达单增李斯特菌膜表面蛋白InternalinA(InlA),经免疫家兔获得多克隆抗体,为建立其免疫磁珠富集快速检测方法奠定基础。【方法】利用生物软件设计单增李斯特菌inlA基因的引物,通过PCR扩增出inlA基因,并将其克隆至pET28a()原核表达载体,转化大肠杆菌BL21进行优化表达。镍柱纯化表达产物,质谱鉴定重组蛋白,ELISA分析其免疫原性。免疫家兔,制备其多克隆抗体。间接ELISA检测多抗的效价及交叉性,免疫荧光分析多抗与单增李斯特菌菌体结合的特异性。【结果】成功表达了InlA蛋白,融合表达产物分子量约为92 kD,质谱鉴定其为InlA蛋白;免疫家兔获得的抗血清效价为1:100 000,除与金黄色葡萄球菌约20%的交叉外,与副溶血弧菌等其它病源菌均无交叉;免疫荧光证实该多抗特异性结合于单增李斯特菌膜表面,与同种属的威尔斯李斯特菌不结合。【结论】成功制备了单增李斯特菌特异性的兔多克隆抗体,为单增李斯特菌免疫磁珠富集快速检测方法的建立奠定了基础。     

环介导等温扩增技术快速检测肉中单增李斯特菌

通过建立的环介导恒温扩增（Loop-Mediated Isothermal Amplification,LAMP）方法以达到肉中单增李斯特菌快速、灵敏的检出。以特异性的hlyA毒力基因作为靶基因,与6株非单增李斯特菌进行特异性试验,同时对不同培养浓度的单增李斯特菌进行了LAMP和PCR方法的灵敏度比较,进而应用LAMP法检测人工污染肉中的单增李斯特菌。结果表明：纯培养物中单增李斯特菌LAMP检出限为8.8×100CFU/mL,其灵敏度比普通PCR高100倍;在人工污染肉中单增李斯特菌的检出限为8.8×101CFU/mL,在1h内即可完成扩增反应。LAMP方法具备快速、特异、简单、灵敏度高等优势,在食品基质中单增李斯特菌的检测方面具有较好的应用前景。     

基于免疫磁分离的三重荧光定量PCR检测食品中沙门氏菌、志贺氏菌和金黄色葡萄球菌

【目的】开发一种同时对食品中沙门氏菌、志贺氏菌和金黄色葡萄球菌快速、灵敏、准确的检测方法。【方法】利用特异性免疫磁球,在37°C条件下从250 m L猪肉增菌液体系中边富集边循环捕获目标菌。快速提取DNA后,利用特异性的引物与探针,对3种食源性致病菌进行三重荧光定量PCR检测。【结果】针对沙门氏菌、志贺氏菌和金黄色葡萄球菌的检测限分别达到2.0、6.8和9.6 CFU/g。方法总体灵敏度、特异性和准确度达到99.2%、100%及99.5%。对151份实际样品进行检测,与国标(GB/T 4789.4-2010、GB 4789.5-2012和GB/T4789.10-2010)方法的检测结果相比,金黄色葡萄球菌有一例阴性偏差。【结论】开发的基于免疫磁分离的三重荧光定量PCR方法,能够在8 h内完成对食品中3种致病菌检测,并且灵敏度高、特异性好、检测准确,可以作为快速应对此类食品安全突发事件的检测手段。     

A multipathogen selective enrichment broth for simultaneous growth of Salmonella spp., Vibrio parahaemolyticus, and Vibrio cholerae

A selective enrichment broth (SVV) was formulated to allow concurrent growth of Salmonella spp., V. parahaemolyticus, and V. cholerae. Potassium tellurite and sodium citrate were added as the inhibitors, while glucose, mannitol, anhydrous sodium sulfite and sodium pyruvate were employed as the growth-promoters. When mixed in equal or varied proportions, the target pathogens in SVV had a great accumulation (10(5)-10(8) CFU/ml) and effectively inhibited the growth of competitive microflora. In the artificially contaminated samples, a high recovery of these 3 target pathogens was obtained in SVV. Finally, Salmonella spp., V. parahaemolyticus, and V. cholerae were detected from 608 suspicious food samples by SVV with real-time PCR, and no false-positive or -negative results were reported. In summary, SVV has been shown to be a suitable broth for the simultaneous detection of the 3 pathogens by multipathogen detection on a single-assay platform.     

Response surface methodology to design a selective co-enrichment broth of Escherichia coli, Salmonella spp. and Staphylococcus aureus for simultaneous detection by multiplex PCR

Escherichia coli, Salmonella spp. and Staphylococcus aureus are frequent co-visitors of contaminated foods to cause food-borne diseases. To achieve rapid detection of three organisms by multiplex PCR, a selective co-enrichment broth was considered to design using response surface methodology (RSM) in this work. NaCl, LiCl and KSCN as selective bacterial inhibitors were selected to optimize their concentrations for a matched composition of bacterial biomass with uniform amplification of three targets. Central composite design was employed to collect the data and fit the responses. Three quadratic polynomial models were derived by computer simulation. A statistical analysis was carried out to explore the effects of the variables on the composition of bacterial biomass and PCR amplification yields. In the end, a novel broth (ESS-3 broth) of NaCl 1.60%, LiCl 0.70%, KSCN 0.10% was formulated to allow co-enrichment of the target pathogens and suppress growth of some non-target pathogens. The simultaneous detection of E. coli, Salmonella spp. and S. aureus was developed on a rapid, convenient and sensitive method consisting of selective co-enrichment in ESS-3 broth, DNA extraction with the boiling method and robust test by multiplex PCR. Our work provided broader application of RSM for the simultaneous detection of other combinations of multiple pathogens.     

Response surface methodology to design a selective enrichment broth for rapid detection of Salmonella spp. by SYBR Green Ι real-time PCR

In order to meet dominant growth of Salmonella spp. in a composed system of five pathogens for accurate detection, designing an appropriate selective enrichment broth was clearly needed. First, we built a high-throughput assay procedure based on SYBR Green Ι real-time PCR, which possessed the necessary specificity for Salmonella spp., a good linear standard curve with typical R ² value (0.9984) and high amplification efficiency (99.0 %). Further, for the larger target biomass in the mixed microflora, acarbose, LiCl and bile salt were selected to optimize their concentrations using response surface methodology (RSM). A central composite design was employed to collect the data and fit the response. A quadratic polynomial model was derived by computer simulation. Statistical analysis was carried out to explore the action and interaction of the variables on the response. In the end, a novel broth (Sal-5) was formulated to allow the efficient enrichment of Salmonella spp. and inhibit the growth of other tested strains. A detection platform was developed, including selective enrichment in Sal-5, DNA extraction by the boiling lysis method and real-time PCR test based on SYBR Green Ι. This work could extend the application of RSM and real-time PCR in the design of other selective enrichment media for common pathogens.     

Novel multiplex PCR approaches for the simultaneous detection of human pathogens: Escherichia coli 0157:H7 and Listeria monocytogenes

Escherichia coli 0157:H7 and Listeria monocytogenes are the two most important food-borne human pathogens. To develop a single, rapid and sensitive PCR based test for simultaneous detection of both the organisms, fliCh7 and iap gene specific primers were used respectively for E. coli 0157:H7 and L. monocytogenes. Initially, with equal quantities of purified genomic DNAs of these organisms a multiplex PCR reaction was standardized to yield uniform amplification of both targets. Although, this assay detected E. coli 0157:H7 with high sensitivity, it failed to pick up L. monocytogenes after several hours of enrichment in broth medium initially spiked with equal numbers of live cells. This was found to be due to unequal growth of these organisms leading to disparity in the amount of template DNAs represented in the DNA preparation applied for conventional multiplex PCR amplification. To circumvent this, we have developed a modified method of enrichment and harvesting leading to highly sensitive and rapid single reaction PCR detection of both pathogens. We have also successfully developed two novel multiplex PCR formats for the generation of uniform PCR signals. Some of these methods might find broader application for the simultaneous detection of different combinations of multiple pathogens.     

A real-time PCR assay for the detection of Campylobacter jejuni in foods after enrichment culture

A real-time PCR assay was developed for the quantitative detection of Campylobacter jejuni in foods after enrichment culture. The specificity of the assay for C. jejuni was demonstrated with a diverse range of Campylobacter species, related organisms, and unrelated genera. The assay had a linear range of quantification over six orders of magnitude, and the limit of detection was approximately 12 genome equivalents. The assay was used to detect C. jejuni in both naturally and artificially contaminated food samples. Ninety-seven foods, including raw poultry meat, offal, raw shellfish, and milk samples, were enriched in blood-free Campylobacter enrichment broth at 37 degrees C for 24 h, followed by 42 degrees C for 24 h. Enrichment cultures were subcultured to Campylobacter charcoal-cefoperazone-deoxycholate blood-free selective agar, and presumptive Campylobacter isolates were identified with phenotypic methods. DNA was extracted from enrichment cultures with a rapid lysis method and used as the template in the real-time PCR assay. A total of 66 samples were positive for C. jejuni by either method, with 57 samples positive for C. jejuni by subculture to selective agar medium and 63 samples positive in the real-time PCR assay. The results of both methods were concordant for 84 of the samples. The total time taken for detection from enrichment broth samples was approximately 3 h for the real-time PCR assay, with the results being available immediately at the end of PCR cycling, compared to 48 h for subculture to selective agar. This assay significantly reduces the total time taken for the detection of C. jejuni in foods and is an important model for other food-borne pathogens.     

Simultaneous detection of Salmonella strains and Escherichia coli O157:H7 with fluorogenic PCR and single-enrichment-broth culture

A multiplex fluorogenic PCR assay for simultaneous detection of pathogenic Salmonella strains and Escherichia coli O157:H7 was developed and evaluated for use in detecting very low levels of these pathogens in meat and feces. Two sets of primers were used to amplify a junctional segment of virulence genes sipB and sipC of Salmonella and an intragenic segment of gene eae of E. coli O157:H7. Fluorogenic reporter probes were included in the PCR assay for automated and specific detection of amplified products. The assay could detect <10 CFU of Salmonella enterica serovar Typhimurium or E. coli O157:H7 per g of meat or feces artificially inoculated with these pathogens and cultured for 6 to 18 h in a single enrichment broth. Detection of amplification products could be completed in 相似文献   

Development of a m-PCR assay for simultaneous identification of Campylobacter jejuni and C. coli

Multiplex PCR assay (m-PCR) with three sets of primers was developed for simultaneous identification of Campylobacter jejuni and C. coli. Poultry faecal samples were enriched in Preston broth for 24 h and streaking on selective media was performed before and after enrichment. m-PCR was applied on bacterial cultures harvested from media plates. The data showed a selective effect of Preston broth which favoured the growth of C. coli. Identification of the species by the hippurate hydrolysis test and by the m-PCR was performed on 294 isolates of Campylobacter. The efficiency of the identification by the biochemical test is only 34% in comparison to 100% efficiency with the PCR. The use of our m-PCR in combination with the culture method allowed reliable detection and identification of C. jejuni and C. coli within 3-4 d.     

食源性变形杆菌簇致病菌的检测

为建立食源性变形杆菌簇致病菌的检测方法,对富集培养基、选择性平板分离培养基和生化特性进行了筛选比较。结果表明,肠杆菌富集肉汤培养基更有利于变形杆菌簇致病菌的检出,平板分离培养基可用EMB琼脂培养基和SS琼脂培养基(或麦康凯琼脂培养基),初筛方法为革兰氏反应和苯丙氨酸脱氨酶实验,最后用其他生化反应进行确认。该方法检出率高,检测范围较宽,可为建立变形杆菌簇致病菌的检验标准提供实验依据。     

A Real-Time PCR Assay for the Detection of Campylobacter jejuni in Foods after Enrichment Culture

A real-time PCR assay was developed for the quantitative detection of Campylobacter jejuni in foods after enrichment culture. The specificity of the assay for C. jejuni was demonstrated with a diverse range of Campylobacter species, related organisms, and unrelated genera. The assay had a linear range of quantification over six orders of magnitude, and the limit of detection was approximately 12 genome equivalents. The assay was used to detect C. jejuni in both naturally and artificially contaminated food samples. Ninety-seven foods, including raw poultry meat, offal, raw shellfish, and milk samples, were enriched in blood-free Campylobacter enrichment broth at 37°C for 24 h, followed by 42°C for 24 h. Enrichment cultures were subcultured to Campylobacter charcoal-cefoperazone-deoxycholate blood-free selective agar, and presumptive Campylobacter isolates were identified with phenotypic methods. DNA was extracted from enrichment cultures with a rapid lysis method and used as the template in the real-time PCR assay. A total of 66 samples were positive for C. jejuni by either method, with 57 samples positive for C. jejuni by subculture to selective agar medium and 63 samples positive in the real-time PCR assay. The results of both methods were concordant for 84 of the samples. The total time taken for detection from enrichment broth samples was approximately 3 h for the real-time PCR assay, with the results being available immediately at the end of PCR cycling, compared to 48 h for subculture to selective agar. This assay significantly reduces the total time taken for the detection of C. jejuni in foods and is an important model for other food-borne pathogens.