利用T载体克隆快速构建布鲁氏菌缺失突变株

目的：建立一种基于T载体快速克隆构建布鲁氏菌突变株的方法,提高布鲁氏菌突变株构建的效率;方法：采用融合PCR的方法,将待缺失基因上下游的同源臂与卡那霉素抗性基因融合起来,构建突变盒,然后将突变盒直接与T载体连接,构建突变载体,将载体转入布鲁氏菌感受态细胞并筛选抗性克隆,进而获得布鲁氏菌的缺失突变株。结果：结合融合PCR和T载体快速克隆,能够在48h之内构建好突变载体,与传统的酶切连接相比,效率高、周期短。结论：基于T载体快速克隆是一种非常高效的构建突变株的方法,为布鲁氏菌突变株的构建提供了一种新方法。     

pUC19K质粒的构建及其在布鲁氏菌突变株构建中的应用

突变株的构建是细菌基因功能研究的前提。本研究构建了一个可用于布鲁氏菌突变株构建的自杀质粒。在pUC19质粒的多克隆位点插入卡那霉素抗性基因,在该基因两侧添加多个酶切位点,构建成为pUC19K。利用该质粒,我们构建了布鲁氏菌外膜蛋白Omp25基因的突变株。结果表明,利用该自杀质粒,通过一轮筛选即可得到目标基因被抗性基因替换的突变株。pUC19K质粒的构建及成功应用,为布鲁氏菌突变株的构建提供了一个快速有效的手段,也为布鲁氏菌的基因功能研究奠定了基础。     

布鲁氏菌2308ery基因启动子缺失株的构建及鉴定

目的:构建布鲁氏菌2308株ery基因启动子缺失株。方法:用PCR方法从亲本株2308上扩增ery基因启动子侧翼序列,将该片段与pMD19-T连接,亚克隆为自杀载体pGEM-7zf-Δery-sacB。将自杀载体电转化布鲁氏菌感受态细胞中经同源重组后,分别用100 mg/L氨苄和7%蔗糖筛选。对获得的基因缺失株进行RT-PCR鉴定和遗传稳定性检测。结果:成功获得ery基因启动子缺失株,2308Δery基因启动子缺失株未扩增出eryA基因。并且该缺失株在10代以内未发生回复突变。结论:成功构建2308Δery基因启动子缺失株,为研究布鲁氏菌的毒力基因及其流产机制奠定基础。     

布鲁氏菌M5-90疫苗株virB2基因缺失株的构建及鉴定

【目的】构建布鲁氏菌M5-90疫苗株virB2基因缺失株。【方法】利用常规分子生物学技术构建自杀载体pGEM-7zf-ΔvirB2-sacB,通过同源重组的方法,将电转化后的布鲁氏菌分别经100 mg/L氨苄抗性筛选和5%蔗糖敏感性筛选,获得基因缺失株。对获得的基因缺失株进行PCR鉴定和稳定性检测。【结果】成功构建M5-90ΔvirB2基因缺失株,并且该缺失株在10代以内未发生回复突变。【结论】为研发新型布鲁氏菌弱毒基因缺失活苗奠定基础。     

Pseudomonas plecoglossicida NyZ12基因无痕敲除方法的建立

旨在建立一种适合环己胺降解菌NyZ12基因无痕敲除的可靠方法。通过overlapping PCR技术将目的基因上下游同源臂融合并克隆到自杀载体pEX18km上,将重组质粒转化到大肠杆菌S17pir中,再通过接合转移到假单胞菌NyZ12菌株内,经pEX18km质粒上sacB基因的反向筛选得到突变株并通过PCR方法和测序鉴定。结果显示,成功构建了假单胞菌NyZ12菌株orf4637的基因突变株(NyZ12Δ4637)。通过自杀载体同源重组可以成功获得敲除的无痕突变株,且突变株基因组上没有任何抗性筛选标记残留,为环己胺降解菌NyZ12基因功能研究提供了可靠的基因敲除技术。     

pilO基因对鲍曼不动杆菌运动能力的影响

目的:构建无标记的鲍曼不动杆菌pil O基因缺失突变株,通过表型鉴定pil O基因缺失对鲍曼不动杆菌运动能力的影响。方法:PCR扩增pil O基因上下游各1 kb同源臂,连接至p MO130-TelR自杀质粒,质粒转化大肠杆菌S17-1后再接合至鲍曼不动杆菌4294中;蔗糖诱导自杀质粒与基因组同源重组,以获得基因缺失突变株;蹭行实验观察pil O基因缺失对鲍曼不动杆菌运动能力的影响。结果:构建了pil O基因缺失鲍曼不动杆菌4294菌株突变株;缺失株与野生株生长曲线无明显差异,但蹭行能力显著下降。结论:pil O基因与细菌蹭行能力密切相关,提示其编码鲍曼不动杆菌Ⅳ型菌毛结构蛋白。     

猪霍乱沙门氏菌C500株△crp△asd缺失株平衡致死载体系统的构建及鉴定

猪霍乱沙门氏菌C500株是用化学方法致弱、用于预防仔猪副伤寒的弱毒疫苗株,虽具有较好的免疫原性,但仍有一定的残余毒力。为了研制更加安全并保持C500株良好免疫原性的弱毒株,及将C500开发为适于粘膜免疫的疫苗活载体,本文构建了猪霍乱沙门氏菌C500株△crp△asd双缺失株平衡致死载体系统。首先构建含缺失320bp的crp(cAMP受体蛋白)基因与蔗糖敏感基因(sacB)的重组自杀性质粒,与C500接合转移,两步法筛选无抗性的△crp缺失株,用PCR证实基因组crp基因的缺失突变。用同样方法在crp缺失株基础上构建asd(天冬氨酸β-半乳糖脱氢酶)基因缺失株。该缺失株生长必需外源DAP(二氨基庚二酸)。进一步鉴定△crp缺失株的表型、生长特性、毒力等,结果表明△crp△asd缺失株构建成功。△crp△asd缺失株可以用来作为宿主载体平衡致死系统来高效表达外源基因,为深入研究以C500株为载体的口服多价疫苗奠定了基础。     

兽疫链球菌中与透明质酸合成相关新基因的高通量筛选及克隆

【目的】兽疫链球菌(Streptococcus equi subsp. zooepidemicus)中透明质酸主要的生物合成途径和相关基因已经被研究得比较透彻,探究一种挖掘与透明质酸合成相关新基因的策略。【方法】利用自杀质粒pSET4s::sacB在宿主基因组中的随机整合作用,筛选具有表型差异突变菌株构建突变体库,进一步利用连接介导PCR (Ligation mediated PCR,LM-PCR)方法和全基因组重测序,检测质粒整合位点,通过基因无痕敲除和回补实验验证插入位点。【结果】构建了包含150株具有表型差异突变株的突变体库;以荚膜合成能力缺失的1号突变株(M1)作为基础研究对象,检测到自杀质粒整合到基因组458 960位点上,破坏了编码塔格糖-6-磷酸激酶的lacC基因;无痕敲除lacC基因得到ΔlacC,表型分析发现ΔlacC表现为粘性荚膜特性;进一步全基因组重测序发现,除了lacC基因位点存在插入突变,206 613位点存在碱基G缺失,导致编码透明质酸合成酶的hasA基因发生移码突变,且回补hasA基因后,M1恢复粘性荚膜合成能力。【结论】M1突变株粘性荚膜合成能力的缺失由hasA基因功能缺失引起,与lacC基因功能缺失无关。初步建立了兽疫链球菌中高通量筛选与透明质酸合成相关新基因的策略,为今后挖掘新基因奠定了基础。     

副溶血性弧菌基因敲除方法的建立及应用

目的摸索出一套副溶血性弧菌基因敲除的可靠方案,副溶血性弧菌致病相关基因的敲除对深入研究其致病机制有重要意义。方法通过融合PCR技术将目的基因上下游同源臂融合并克隆到自杀载体pDS132上,将重组质粒转化大肠杆菌S17λpir中,再接合转移到副溶血性弧菌菌株内,经pDS132质粒上sacB基因的反向筛选得到突变株。结果成功构建了副溶血性弧菌RIMD2210633菌株ΔopaR,ΔtoxR和ΔaphA三个基因突变株。结论通过自杀载体同源重组成功获得精确敲除的无痕突变株更有利于基因功能的研究,使后续副溶血性弧菌突变株与野生株的对比研究成为可能。     

布鲁氏菌vjbR突变株的构建及其毒力表型分析

为分析vjbR在布鲁氏菌毒力中的作用,构建了vjbR的突变株和互补株,并分析了它们在巨噬细胞和小鼠体内的存活能力。利用同源重组的方法,用卡那抗性基因替换了16M的vjbR(BMEII1116)基因,得到了vjbR的缺失突变株16M△vjbR。将vjbR基因的ORF克隆到pMD18-T载体中,然后将其转入到突变株16M△vjbR中得到互补株16M△vjbR-C。用16M、16M△vjbR和16M△vjbR-C侵染巨噬细胞和感染小鼠,比较分析它们在巨噬细胞内的生存能力及小鼠毒力。研究结果表明vjbR突变株在巨噬细胞和小鼠体内的毒力减弱,存活能力下降,说明vjbR基因是布鲁氏菌16M的毒力相关基因,对于布鲁氏菌建立慢性感染是必要的。     

Transduction-Mediated Transfer of Unmarked Deletion and Point Mutations through Use of Counterselectable Suicide Vectors

A challenge in strain construction is that unmarked deletion and nucleotide substitution alleles generally do not confer selectable phenotypes. We describe here a rapid and efficient strategy for transferring such alleles via generalized transduction. The desired allele is first constructed and introduced into the chromosome by conventional allelic-exchange methods. The suicide vector containing the same allele is then integrated into the mutant chromosome, generating a tandem duplication homozygous for that allele. The resulting strain is used as a donor for transductional crosses, and selection is made for a marker carried by the integrated suicide vector. Segregation of the tandem duplication results in haploid individuals, each of which carries the desired allele. To demonstrate this mutagenesis strategy, we used bacteriophage P22HTint for generalized transduction-mediated introduction of unmarked mutations to Salmonella enterica serovar Typhimurium. This method is applicable to any species for which generalized transduction is established.     

Rapid construction of mycobacterial mutagenesis vectors using ligation-independent cloning

Targeted mutagenesis is one of the major tools for determining the function of a given gene and its involvement in bacterial pathogenesis. In mycobacteria, gene deletion is often accomplished by using allelic exchange techniques that commonly utilise a suicide delivery vector. We have adapted a widely-used suicide delivery vector (p1NIL) for cloning two flanking regions of a gene using ligation independent cloning (LIC). The pNILRB plasmid series produced allow a faster, more efficient and less laborious cloning procedure. In this paper we describe the making of pNILRB5, a modified version of p1NIL that contains two pairs of LIC sites flanking either a sacB or a lacZ gene. We demonstrate the success of this technique by generating 3 mycobacterial mutant strains. These vectors will contribute to more high-throughput methods of mutagenesis.     

sacB-5-Fluoroorotic acid-pyrE-based bidirectional selection for integration of unmarked alleles into the chromosome of Rhodobacter capsulatus

The gram-negative, purple nonsulfur, facultative photosynthetic bacterium Rhodobacter capsulatus is a widely used model organism and has well-developed molecular genetics. In particular, interposon mutagenesis using selectable gene cartridges is frequently employed for construction of a variety of chromosomal knockout mutants. However, as the gene cartridges are often derived from antibiotic resistance-conferring genes, their numbers are limited, which restricts the construction of multiple knockout mutants. In this report, sacB-5-fluoroorotic acid (5FOA)--pyrE-based bidirectional selection that facilitates construction of unmarked chromosomal knockout mutations is described. The R. capsulatus pyrE gene encoding orotate phosphoribosyl transferase, a key enzyme of the de novo pyrimidine nucleotide biosynthesis pathway, was used as an interposon in a genetic background that is auxotrophic for uracil (Ura-) and hence resistant to 5FOA (5FOA(r)). Although Ura+ selection readily yielded chromosomal allele replacements via homologous recombination, selection for 5FOA(r) to replace pyrE with unmarked alleles was inefficient. To improve the latter step, 5FOA(r) selection was combined with sucrose tolerance selection using a suicide plasmid carrying the Bacillus subtilis sacB gene encoding levansucrase that induces lethality upon exposure to 5% (wt/vol) sucrose in the growth medium. Sucrose-tolerant, 5FOA(r) colonies that were obtained carried chromosomal unmarked mutant alleles of the target gene via double crossovers between the resident pyrE-marked and incoming unmarked alleles. The effectiveness of this double selection was proven by seeking insertion and deletion alleles of helC involved in R. capsulatus cytochrome c biogenesis, which illustrated the usefulness of this system as a genetic means for facile construction of R. capsulatus unmarked chromosomal mutants.     

质粒拯救法克隆细菌基因组大片段

[目的]细菌基因组大片段尤其是基因簇的克隆与操作,是细菌基因功能分析的一个难点.基因组测序工作的不断完成和序列信息的大量积累,为细菌基因组:DNA的操作提供了方便.本文报道了利用细菌的全基因组信息和质粒拯救法的原理建立的一种克隆细菌基因组大片段的方法.[方法]首先,根据基因组序列信息,在待克隆片段的一侧扩增一段DNA,并将其克隆到自杀载体上构建打靶质粒,然后,将打靶质粒整合到细菌的基因组中构建重组菌,提取重组菌的基因组DNA,酶切,自连,转化,将自杀质粒与待克隆的目的片段一起拯救出来.最后,根据需要将拯救的DNA片段亚克隆到新的载体中.[结果]我们利用该方法克隆了布鲁氏菌中长度为11kb的virB操纵子,并构建了互补质粒.将该质粒导入到virB的突变株中后使virB操纵子的转录活性得到了恢复,表明该策略切实可行.[结论]这种重组克隆策略给我们提供了一种新的对细菌基因组大片段进行操作的方法.     

Rapid generation of directed and unmarked deletions in Xanthomonas

We have devised a rapid four-step procedure for the generation of directed and unmarked chromosomal deletions in bacteria, based on the use of a novel cloning vector containing the Bacillus subtilis sacB gene that encodes levansucrase and confers sucrose sensitivity, which can be used for counter-selection. Using this technique, we describe the construction of a 6.5 kb directed and unmarked deletion in a phytopathogenicity region of the chromosome in Xanthomonas campestris. This procedure allows rapid and easy transfer of a wide variety of mutant allelic DNA to the bacterial chromosome, and should be adaptable to various bacteria besides Xanthomonas spp.