肺炎链球菌体内诱导基因的筛选及初步鉴定

为筛选鉴定肺炎链球菌宿主体内诱导的基因，寻找潜在的抗生素作用靶点和疫苗候选者，应用体内表达技术，以肺炎链球菌荚膜合成的关键基因galU作为体内报告基因，利用其缺陷体不能合成荚膜多糖，从而不能在宿主体内存活的特点，筛选鉴定肺炎链球菌体内诱导基因。首先，把肺炎链球菌基因组DNA的随机酶切片段（200～500bp）克隆到含有体内、体外双重报告基因（galU—lacZ）的报告载体pEVP3-galU的BlgⅡ位点，将获得的质粒库转化肺炎链球菌galU缺陷菌株，得到肺炎链球菌体内启动子诱捕文库，将此文库去感染BALB／c小鼠，经过两轮体内筛选，在涂布有X-gal的TSA血清平板上得到了165个白色菌落，对插入的随机片段进行测序及生物信息学分析，共证实15个不同的体内诱导基因片段，8个为单独的ORF，7个为含有多个ORFs的操纵子结构，它们分别参与细菌在宿主体内的定植与粘附、能量代谢、物质转运、转录调节、DNA复制与重组、细胞壁合成等，另外还包括功能不明的假想蛋白。其中部分ORFs可能与细菌毒力相关，可以作为候选疫苗和药物的靶标。

细菌毒力基因体内表达检测技术研究进展

病原菌入侵宿主是一个及其复杂的过程。为了深入了解病原菌的致病机理,人们需要鉴定那些在感染过程中特异表达的细菌毒力基因。为此,多种体内实验模型被建立起来分析细菌在宿主体内的基因表达,它们包括了体内表达技术、信号标签突变技术、差异荧光诱导、体外转座进行基因组分析和作图技术以及体内诱导抗原技术等。文章对目前运用的这些研究方法进展进行综述,并讨论了它们的优点与不足。

肺炎链球菌体内启动子诱捕文库的构建与初步分析

构建肺炎链球菌体内启动子诱捕文库（promoter-trap library），用于筛选肺炎链球菌体内诱导的基因。以穿梭质粒pEVP3为骨架，将无启动子的galU基因作为体内报告基因定向克隆到pEVP3上，与无启动子的体外报告基因lacZ基因融合，构建用于筛选体内诱导基因的载体pEVP3-galU；再把肺炎链球菌基因组DNA的随机酶切片段（200-500bp）克隆到此载体galU基因上游的BglⅡ位点，构建了启动子诱捕文库，并转化肺炎链球菌galU缺陷菌株，获得相应的菌株库。文库大约覆盖基因组全长的5倍，插入率达到90％以上，保持了较高的复杂性。对得到的约450000个肺炎链球菌转化子进行体内、外初步分析，那些从小鼠体内分离出的细菌，并在X-gal平板上为白色的菌落表明galU报告基因上游含仅在体内表达的启动子，提示所构建的启动子诱捕文库可用于筛选肺炎链球菌的体内诱导基因。

利用IVIAT技术初步筛选伤寒沙门菌的体内诱导基因

目的利用体内诱生抗原筛选技术初步筛选伤寒沙门菌的体内诱导基因。方法首先将3个伤寒病人恢复期的血清等体积混合,用体外培养的伤寒沙门菌全菌体、超声裂解产物及加热变性裂解产物充分吸收处理。然后采用pET-30a/b/c表达载体系统构建伤寒沙门菌Ty2菌株的基因组表达文库,并以吸收后的血清为探针,筛选伤寒沙门菌基因组表达文库。结果从5000个克隆中获得5个阳性克隆,对阳性克隆测序和序列检索分析表明,涉及6个开放阅读框。结论本实验利用IVIAT筛选体内诱导基因的各个程序是正确的,并初步筛选到伤寒沙门菌的体内诱导基因。

病原微生物的体内诱导基因及相关研究方法简介

为适应复杂多变的宿主体内环境,病原微生物入侵宿主后常会调整自身基因表达,启动一系列在体外环境生存时非必需蛋白质的表达以确保其在宿主体内的存活、增殖甚至致病。这类仅在病原微生物进入宿主体内后才被诱导表达而在体外生长时不表达的独特基因称为体内诱导基因(in vivo induced gene,ivi gene)。大量研究表明,ivi gene往往与病原菌在宿主体内的生存和致病密切相关,是抗菌药物、诊断试剂及疫苗设计及研究的良好靶标。为找寻和鉴定病原菌的ivi gene,人们成功发展了多种研究方法和手段,包括依赖动物模型的信号标签突变技术(signature-tagged mutagenesis,STM)、体内表达技术(in vivo expres-sion technology,IVET)、差异荧光诱导技术(differential fluorescence induction,DFI)及不依赖感染动物模型的体内诱导抗原技术(in vivo induced antigen technology,IVIAT)等。本综述即针对ivi gene及其相关研究方法的原理、运用和优缺点进行简单的介绍。

致病菌体内诱导基因的功能分析——体内表达技术的应用

病原菌体内诱导的基因在致病过程中起重要作用 ,体内表达技术是一类很有前景的研究体内诱导基因的技术。本文介绍了体内表达技术的基本原理、类型以及在致病菌体内诱导基因方面的研究进展和应用前景。

运用体内表达技术筛选霍乱弧菌感染成年小鼠体内诱导表达基因

为研究霍乱弧菌体内感染机制,寻找新的抗霍乱药物靶标和候选疫苗。以转座子上无启动子的kan-rpsL融合基因作为体内外双重抗生素报告基因,通过与霍乱弧菌埃尔托型C6706接合建立转座子突变库,经体内外各两轮筛选,获得对卡那霉素(Kan)体内抗性体外敏感、链霉素(Str)体外抗性体内敏感的突变株,即转座子插入位点上游包含了能够在体内被诱导激活的启动子。初步建立了筛选霍乱弧菌体内诱导表达基因的成年小鼠模型,最终获得5株阳性克隆。对转座子插入位点进行序列分析,分别为编码渗透敏感型钾离子通道组氨酸激酶的kdpD,谷氨酸合酶大亚基的gltB1,亮氨酰氨基肽酶的pepB以及核苷渗透酶的nupC。对kdpD基因融合lacZ报告基因进行表达调控研究,发现该基因在LB和霍乱毒素诱导培养基AKI中不能被诱导表达。以上结果表明霍乱弧菌通过调节氨基酸及核酸代谢,感知体内外环境来适应宿主体内环境的变化。

Screening Helicobacter pylori genes induced during infection of mouse stomachs

AIM:To investigate the effect of in vivo environment on gene expression in Helicobacter pylori(H.pylori) as it relates to its survival in the host.METHODS:In vivo expression technology(IVET) systems are used to identify microbial virulence genes.We modified the IVET-transcriptional fusion vector,pIVET8,which uses antibiotic resistance as the basis for selection of candidate genes in host tissues to develop two unique IVET-promoter-screening vectors,pIVET11 and pIVET12.Our novel IVET systems were developed by the fusion of random Sau3A DNA fragments of H.pylori and a tandem-reporter system of chloramphenicol acetyltransferase and beta-galactosidase.Additionally,each vector contains a kanamycin resistance gene.We used a mouse macrophage cell line,RAW 264.7 and mice,as selective media to identify specific genes that H.pylori expresses in vivo.Gene expression studies were conducted by infecting RAW 264.7 cells with H.pylori.This was followed by real time polymerase chain reaction(PCR) analysis to determine the relative expression levels of in vivo induced genes.RESULTS:In this study,we have identified 31 in vivo induced(ivi) genes in the initial screens.These 31 genes belong to several functional gene families,including several well-known virulence factors that are expressed by the bacterium in infected mouse stomachs.Virulence factors,vacA and cagA,were found in this screen and are known to play important roles in H.pylori infection,colonization and pathogenesis.Their detection validates the efficacy of these screening systems.Some of the identified ivi genes have already been implicated to play an important role in the pathogenesis of H.pylori and other bacterial pathogens such as Escherichia coli and Vibrio cholerae.Transcription profiles of allivi genes were confirmed by real time PCR analysis of H.pylori RNA isolated from H.pylori infected RAW 264.7 macrophages.We compared the expression profile of H.pylori and RAW 264.7 coculture with that of H.pylori only.Some genes such as cag A,vac A,lpx C,mur I,tlp C,trx B,sod B,tnp B,pgi,rbf A and inf B showed a 2-20 fold upregulation.Statistically significant upregulation was obtained for all the above mentioned genes(P < 0.05).tlp C,cag A,vac A,sod B,rbf A,inf B,tnp B,lpx C and mur I were also significantly upregulated(P < 0.01).These data suggest a strong correlation between results obtained in vitro in the macrophage cell line and in the intact animal.CONCLUSION:The positive identification of these genes demonstrates that our IVET systems are powerful tools for studying H.pylori gene expression in the host environment.

体内诱导抗原技术筛选病原菌体内诱导抗原的研究进展

体内诱导基因是病原菌在宿主体内能够表达而体外培养时却不能表达的功能基因,其对病原体在宿主体内的生存和致病具有重要意义。体内诱导抗原技术(in vivo induced antigen technology,IVIAT)已广泛应用于筛选病原体体内诱导基因,相较于其他用于筛选体内诱导基因的技术,IVIAT具有无需动物模型、检测病原菌在不同感染阶段产生的抗原等独特优势。IVIAT鉴定出的体内诱导抗原对病原体在宿主中的毒力、代谢及存活具有重要意义。现就IVIAT的原理、IVIAT筛选出的人类疾病相关病原菌的体内诱导抗原及其功能研究等作一概述。

副猪嗜血杆菌部分体内诱导基因的筛选

用Sau3AⅠ酶切副猪嗜血杆菌(HPS)SC-1株基因组,回收500～2000bp的片段,并与pRSETa/b/c载体连接,构建了HPSSC-1株基因组表达文库;将攻毒后不同时间的猪血清混合,分别与体外培养的HPSSC-1和大肠杆菌BL21的全菌、超声裂解产物及热变性裂解产物进行吸附,用ELISA检测吸附效果,并用Western-blot进一步验证;再用经过吸附的混合血清对HPSSC-1基因组表达文库进行菌落原位免疫杂交筛选;对筛选出来的阳性克隆进行测序和生物信息学分析。结果显示,构建的副猪嗜血杆菌基因组文库库容量为1.2×104CFU;混合血清经过吸附后,D450nm由0.384下降到0.220。Western-blot结果显示,经吸附的血清与HPSSC-1株超声裂解产物无任何条带;通过原位免疫印迹筛选获得5个阳性克隆;阳性克隆测序结果经DNAMAN分析初步推测出5个可能具有生物学意义的开放阅读框,BLAST分析表明,这些序列与GenBank中的副猪嗜血杆菌相应基因的同源性在99%以上,分别涉及副猪嗜血杆菌的酪氨酸磷酸酯酶、异亮氨酰-tRNA合成酶、荚膜多糖输出蛋白及2个假定蛋白。结果表明,应用体内诱导抗原技术从副猪嗜血杆菌SC-1株基因组表达文库中成功筛选出5个阳性克隆,其中部分基因可能与毒力相关。

筛选细菌致病基因的几种常用方法

以致病基因作为靶点的药物为我们提供了从基因水平预防、治疗疾病的可能,筛选致病基因,成为攻克细菌、病毒乃至遗传因素导致的疾病的一个重要课题。筛选方法不断地改革与创新,针对不同的研究目的需要合理地选择筛选方法,本文简要介绍几种常用的细菌致病基因的筛选方法。

Screening and identification of Shigella flexneri 2a virulence-related genes induced after invasion of epithelial cells

An in vivo expression technology (IVET) was applied to screen s.flexneri 2a genes induced after invasion of epithelial cells, and virulence-related genes were further identified by mutational analysis. Thirteen intracellular induced genes were identified with a HeLa cell infection model. Of these, two were identified as alkylation-related genes; one was related to metabolism; one encoded a transcriptional regulator; three were identified as insertion elements; three ap- peared to be antisense to genes involved in the transmethylation,biosyntheseis, and phos- photransferase system;and three were predicted to encode polypeptides with unknown functions. Intracellular survival assavs showed that the mutants of alkA,citC and wcaJ genes had lower capability of intracellular replication or survival than the the wild-type strain.The results indicated that alkA, citC and wcaJ genes could take part in the intracellular survival or replication of S. flexneri 2a and the capability of intracellular survival or replication could be one of the major virulence elements. However, the yaiC mutant was able to survive in the murine infection assay but almost not in HeLa cell infection assay. Very possibly, yaiC gene was involved in the other mechanism of S. flexneri virulence. This study might lead to a better understanding of the intra- cellular survival or proliferation process of S. flexneri 2a and perhaps provide insights into the pathogenicity of this pathogen.