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1.
云南腾冲热泉土壤微生物基因组文库的构建与分析   总被引:9,自引:0,他引:9  
采用冻融、蛋白酶K、SDS-高盐-加热处理法联合的方法,直接从云南腾冲地区的一个弱碱性高温热泉沉积样品中提取和分离环境混合基因组DNA,产量为每克样品1~2μg DNA,用Promega试剂盒纯化后进行PstⅠ部分酶切处理,电泳回收3~8kb的片段后,构建了pSK( )为载体的基因组文库,共获得25000个阳性克隆,平均插入片段长度为4.6kb。通过随机DNA序列测定和基因注释,发现外源插入片段含有未见报道的序列。  相似文献   

2.
碱性土壤微生物基因的克隆和多样性分析   总被引:3,自引:0,他引:3  
胡婷婷  蒋承建  梁璇  隆文杰  武波 《遗传》2006,28(10):1287-1293
从碱性土壤样品中直接抽提和分离宏基因组DNA, 首先构建了包含5 562个阳性克隆的碱性土壤16S rDNA文库, 随机抽取9个克隆测序后构建的系统进化树表明了碱性土壤环境微生物种群基因的多样性。纯化土壤宏基因组DNA后采用EcoRⅠ酶部分酶切处理, 我们又构建了以pGEM-3Zf(+)为载体的DNA部分文库AL01。AL01文库包含23650个克隆, 随机插入载体的外源DNA片段平均大小为3.2 kb左右, DNA文库的总容量为75.68 Mb。建库效率为从每克环境样品中获得6 000个左右的含随机外源DNA片段插入载体的克隆。采用酶活筛选策略, 我们从AL01文库中筛选到一个编号为pGXAA2011的阳性克隆携带有一个完整的碱性蛋白酶基因。蛋白酶活性检测其酶活作用最佳温度为40℃, 最适作用pH 值为9.5。另外, 我们还克隆和表达了一个新型b-葡萄糖苷酶基因unglu01, 该基因和现有数据库中的b-葡萄糖苷酶基因没有任何DNA或者氨基酸水平的同源性。将unglu01基因的ORF与表达载体pETBlue-2连接后导入宿主菌株Tuner(DE3)pLacI中, 该重组表达克隆在含柠檬酸高铁铵和七叶苷的LA平板上表现清晰的b-葡萄糖苷酶活性, SDS-PAGE电泳可以检测到29 kDa大小的目的蛋白。  相似文献   

3.
本研究以雨生红球藻34-1n为材料,提取其基因组DNA,利用限制性内切酶Sau3AⅠ对基因组DNA进行酶解,回收6~8kb的基因组DNA片段,并浓缩至200ng/μL。该片段与经BamH Ⅰ酶切和去磷酸化处理后的pUC18载体连接,然后电击转化到受体菌Escherichia.coli DH5α中,获得雨生红球藻34-1n的基因组文库。该文库的平均插入片段长度约为6.5kb,获得6×105个克隆数。通过PCR筛选,由雨生红球藻基因组文库中获得含bkt1序列的单克隆菌,与β-胡萝卜素氧化酶序列(GenBank:DQ086233.1)进行比对,结果表明bkt1基因组序列含有6个外显子。本研究为进一步鉴定雨生红球藻相关基因提供了一个文库平台。  相似文献   

4.
以短间隔连续部分肝切除模型(0-4-40-76-112h)中0h肝组织材料做为驱动方,112h肝组织材料做为试验方,利用抑制性消减杂交技术构建了高效率的正向消减文库,从文库中随机挑取80个克隆进行PCR分析,有75个克隆中含外源插入片段,经测序表明他们代表了53个表达序列标记。在这些表达序列标记中,有9个与GenBank完全同源,有44个与GenBank不完全同源,其中有1个与GenBank无任何同源性,它可能代表了一个新基因。消减文库的建立为批量克隆和分析肝再生中上调表达基因奠定了基础。  相似文献   

5.
HCVNS3基因片段酵母展示文库的构建和鉴定   总被引:7,自引:0,他引:7  
 HCV NS3特异的 CD4+T细胞反应与 HCV感染的良性转归相关 .为了筛选其 CD4+T细胞表位 ,构建了 HCV NS3基因片段酵母展示文库 .首先 DNase 不完全酶切 HCV NS3基因产生长度为 1 0 0~ 30 0 bp的随机片段 ,然后在它们两端加上含限制性内切酶 Bam H 作用位点的接头 ,再以接头序列作引物进行 PCR扩增 .最后扩增产物用 Bam H 酶切后与 Bam H 线性化的穿梭载体 p YD1连接 ,转化大肠杆菌 (E.coli) DH5α,共得到 2× 1 0 6个转化子 .转化菌落的 PCR扩增结果表明 ,约 50 %转化子含插入片段 .随机选择 5个插入片段测序 ,然后与 DNA序列数据库中的序列比较 .结果显示它们分别与 HCV NS3序列有 96%~ 99%的同源性 .用从转化菌落中提取的质粒转化酵母 (S.cerevisiae)菌株 EBY1 0 0 ,得到含 2× 1 0 5个插入片段的 HCV NS3基因片段酵母展示文库 .半乳糖诱导的酵母细胞通过和 FITC标记的抗体结合 ,用 FACS可以在 2 0 %的细胞表面检测到融合蛋白的表达 .  相似文献   

6.
本文以噬菌体lambda EMBL3 DNA为载体,通过克隆绿色木酶(Trichoderma viride)高分子量基因组DNA的部分酶解片段,并将重组分子进行体外包装后侵染Escherichia.coli K802,由此构建了绿色木霉基因文库。以李氏木霉(Trichoderma reesei)纤维素酶CBHII基因的末端片段为探针,用轮迥噬菌斑原位杂交从文库中筛选出CBHII基因的阳性克隆5个,随机取其中3个克隆用上述探针作斑点杂交,结果进一步证明克隆了全长或近全长的绿色木霉CBHII基因,用李氏木霉CBHI基因的末端片段探针作斑点杂交,结果提示CBHI与CBHII基因的末端序列之间无同源性存在。从斑点杂交的阳性克隆中提取DNA,酶切鉴定插入片段的长度,并克隆于质粒pUC19,Southern杂交结果证明获得了含绿色木霉CBHII基因的重组质粒pCBHII-14。  相似文献   

7.
以草豆蔻花序原基为材料,构建了cDNA文库。原始文库滴度为0.8×106pfu/mL,扩增后滴度为4.23×1011pfu/mL。插入片段大小在500bp~1.5kb之间,重组率为95.3%。以水稻RAP1A基因中包含MADS-box保守区段的序列为探针对该文库进行筛选,获得的阳性克隆经测序及序列比对分析,确认其中共有10个含MADS-box的阳性克隆。  相似文献   

8.
从簇毛麦(Haynaldia villosa (L.) Schur.)组合CA9211/RW15(6D/6V异代换系)幼胚培养SC2后代中,用原位杂交方法鉴定出T240-6为6VS端体异代换系. 以此为材料,采用微细玻璃针切割法及"单管反应"技术体系,对6VS进行切割分离及LA (Linker adaptor)-PCR扩增.扩增带在100~3 000 bp 之间,大部分集中在600~1 500 bp.利用32P标记的簇毛麦基因组为探针进行Southern杂交,证实扩增产物来源于簇毛麦.扩增产物纯化后,连接到pGEM-T载体上,构建了6VS DNA质粒文库.对文库的分析表明,文库大约有17 000个白色克隆;插入片段分布在100~1 500 bp,平均600 bp.点杂交结果表明,37%克隆有中度到强烈的杂交信号,证明含有中度或高度重复序列;63%克隆有较弱的信号或没有信号,证明为单/低拷贝序列克隆.从文库中获得8个簇毛麦特异克隆,对其中两个克隆pHVMK22和 pHVMK134进行了RFLP分析和序列分析,并利用该探针对小麦抗白粉病基因Pm21进行了检测.RFLP 结果表明,两个克隆一个为低拷贝序列克隆(pHVMK22),另一个为高度重复序列克隆,均为簇毛麦专化DNA序列.以pHVMK22为探针对抗、感病小麦(Triticum aestivum L.)品系的Southern杂交发现抗病品系有一条2 kb的特征带, 该探针可能作为检测抗病基因Pm21的探针.  相似文献   

9.
基于嗜热菌Aquifex aeolicus的mbhS2基因,设计合成特异性引物,以Aquifex pyrophilus 的染色体DNA为模板,应用PCR技术扩增出目的片段.序列测定结果显示,其推导出的氨基酸序列与A.aeolicus的相应序列具有85%的同源性.以此PCR片段为探针,从A.pyrophilus 的Nco I部分基因组文库(4~6kb)中筛选出含5kb大小插入片段的阳性克隆,进而对其进行了亚克隆及测序.结果表明,该插入子包含A.pyrophilus mbj2基因簇的小亚基基因mbhS2、orf1基因和部分orf2基因.所推导出的氨基酸序列与A.aeolicus的MbhS2和Orf963相比较的同源性分别为81%和60%.  相似文献   

10.
用Nd:YAG激光微束将处于丝分裂中期的小麦(Triticum aestivum L.)6B染色体微切割为四段,并用微细玻璃针将每个片段分别回收.将分离的染色体片段DNA用Sau3A接头介导的多聚酶链式反应(LA-PCR)分别扩增.Southem杂交证明4个特定区域的DNA确实来自于小麦基因组.用一系列(42对引物)位于6B染色体上的微卫星序列对微切割的染色体片段的PCR产物进行了验证.结果表明,获得的染色体片段的PCR产物来自于小麦6B染色体.将6B染色体4个片段的第二轮PCR产物克隆到pGET-vector中,建立了4个染色体特定区域的基因组文库,命名为R1、R2、R3和R4,分别包含2.1×105、2.74×105和2.93×105个重组子克隆.每个文库均随机挑选150个克隆进行质粒的小量制备和酶切验证.结果显示;插入片段大小在300~1800之间,平均大小为820~870bp,其中43%~48%的克隆为低/单拷贝序列,42%~47%为中/高拷贝序列.本研究为详细分析植物单染色体的不同片段的分子遗传学研究提供了基础.  相似文献   

11.
A genomic DNA library was made from the alkaliphilic cellulase-producing Bacillus agaradhaerans in order to prove our technologies for gene isolation prior to using them with samples of DNA isolated directly from environmental samples. Clones expressing a cellulase activity were identified and sequenced. A new cellulase gene was identified. Genomic DNA libraries were then made from DNA isolated directly from the Kenyan soda lakes, Lake Elmenteita and Crater Lake. Crater Lake clones expressing a cellulase activity and Lake Elmenteita clones expressing a lipase/esterase activity were identified and sequenced. These were encoded by novel genes as judged by DNA sequence comparisons. Genomic DNA libraries were also made from laboratory enrichment cultures of Lake Nakuru and Lake Elmenteita samples. Selective enrichment cultures were grown in the presence of carboxymethylcellulose (CMC) and olive oil. A number of new cellulase and lipase/esterase genes were discovered in these libraries. Cellulase-positive clones from Lake Nakuru were isolated at a frequency of 1 in 15,000 from a library made from a CMC enrichment as compared to 1 in 60,000 from a minimal medium enrichment. Esterase/lipase-positive clones from Lake Elmenteita were isolated with a frequency of 1 in 30,000 from a library made from an olive-oil enrichment as compared to 1 in 100,000 from an environmental library.Communicated by K. Horikoshi  相似文献   

12.
Three large-insert genomic DNA libraries of common wheat, Triticum aestivum cv. Chinese Spring, were constructed in a newly developed transformation-competent artificial chromosome (TAC) vector, pYLTAC17, which accepts and maintains large genomic DNA fragments stably in both Escherichia coli and Agrobacterium tumefaciens. The vector contains the cis sequence required for Agrobacterium-mediated gene transfer into grasses. The average insert sizes of the three genomic libraries were approximately 46, 65 and 120 kbp, covering three haploid genome equivalents. Genomic libraries were stored as frozen cultures in a 96-well format, each well containing approximately 300-600 colonies (12 plates for small library, four for medium-size library and four for large library). In each of the libraries, approximately 80% of the colonies harbored genomic DNA inserts of >50 kbp. TAC clones containing gene(s) of interest were identified by the pooled PCR technique. Once the target TAC clones were isolated, they could be immediately transferred into grass genomes with the Agrobacterium system. Five clones containing the thionin type I genes (single copy per genome), corresponding to each of the three genomes (A, B and D), were successfully selected by the pooled PCR method, in addition to an STS marker (aWG464; single copy per genome) and CAB (a multigene family). TAC libraries constructed as described here can be used to isolate genomic clones containing target genes, and to carry out genome walking for positional cloning.  相似文献   

13.
14.
15.
Construction of tomato genomic DNA libraries in a binary-BAC (BIBAC) vector   总被引:12,自引:0,他引:12  
This is the first report of large insert genomic DNA libraries constructed in a binary-BAC (BIBAC) vector. Genomic DNA libraries containing approximately 4.6 haploid nuclear genomic equivalents were constructed for Lycopersicon esculentum (cv. Mogeor) and Lycopersicon pennellii (LA716) in the BIBAC2 vector. The L. esculentum library has an average insert size of 125 kb and is comprised of 42 272 individual colonies stored as frozen cultures in a 384-well format (108 plates). The L. pennellii library has an average insert size of 90 kb and is comprised of 53 760 individual clones (140 384-well plates). In each of the libraries, it is estimated that 90% of the colonies contain genomic DNA inserts. The composition of the L. esculentum and L. pennellii libraries was determined by analyzing a series of randomly selected clones. The L. esculentum library was surveyed for clones containing chloroplast DNA (1.4%), mitochondrial DNA (0.012%) and repetitive DNA motifs. BIBAC clones that may contain a gene of interest can be identified from these libraries by colony hybridization with homologous or heterologous probes or by PCR pooling techniques. Once identified, BIBAC genomic DNA library clones are immediately suitable for Agrobacterium tumefaciens-mediated plant transformation.  相似文献   

16.
Environmental DNA libraries prepared from three different soils were screened for genes conferring Na(+)(Li(+))/H(+) antiporter activity on the antiporter-deficient Escherichia coli strain KNabc. The presence of those genes was verified on selective LK agar containing 7.5 mM LiCl. Two positive E. coli clones were obtained during the initial screening of 1,480,000 recombinant E. coli strains. Both clones harbored a plasmid (pAM1 and pAM3) that conferred a stable Li(+)-resistant phenotype. The insert of pAM2 (1,886 bp) derived from pAM1 contained a gene (1,185 bp) which encodes a novel Na(+)/H(+) antiporter belonging to the NhaA family. The insert of pAM3 harbored the DNA region of E. coli K-12 containing nhaA, nhaR, and gef. This region is flanked by highly conserved insertion elements. The sequence identity with E. coli decreased significantly outside of the insertion sequence elements, indicating that the unknown organism from which the insert of pAM3 was cloned is different from E. coli. The products of the antiporter genes located on pAM2 and pAM3 revealed functional homology to NhaA of E. coli and enabled the antiporter-deficient E. coli mutant to grow on solid media in the presence of up to 450 mM NaCl or 250 mM LiCl at pH 8.0. The Na(+)/H(+) antiporter activity in everted membrane vesicles that were derived from the E. coli strains KNabc/pAM2 and KNabc/pAM3 showed a substantial increase between pHs 7 and 8.5. The maximal activity was observed at pHs 8.3 and 8.6, respectively. The K(m) values of both antiporters for Na(+) were approximately 10-fold higher than the values for Li(+).  相似文献   

17.
To isolate genes encoding coenzyme B(12)-dependent glycerol and diol dehydratases, metagenomic libraries from three different environmental samples were constructed after allowing growth of the dehydratase-containing microorganisms present for 48 h with glycerol under anaerobic conditions. The libraries were searched for the targeted genes by an activity screen, which was based on complementation of a constructed dehydratase-negative Escherichia coli strain. In this way, two positive E. coli clones out of 560,000 tested clones were obtained. In addition, screening was performed by colony hybridization with dehydratase-specific DNA fragments as probes. The screening of 158,000 E. coli clones by this method yielded five positive clones. Two of the plasmids (pAK6 and pAK8) recovered from the seven positive clones contained genes identical to those encoding the glycerol dehydratase of Citrobacter freundii and were not studied further. The remaining five plasmids (pAK2 to -5 and pAK7) contained two complete and three incomplete dehydratase-encoding gene regions, which were similar to the corresponding regions of enteric bacteria. Three (pAK2, -3, and -7) coded for glycerol dehydratases and two (pAK4 and -5) coded for diol dehydratases. We were able to perform high-level production and purification of three of these dehydratases. The glycerol dehydratases purified from E. coli Bl21/pAK2.1 and E. coli Bl21/pAK7.1 and the complemented hybrid diol dehydratase purified from E. coli Bl21/pAK5.1 were subject to suicide inactivation by glycerol and were cross-reactivated by the reactivation factor (DhaFG) for the glycerol dehydratase of C. freundii. The activities of the three environmentally derived dehydratases and that of glycerol dehydratase of C. freundii with glycerol or 1,2-propanediol as the substrate were inhibited in the presence of the glycerol fermentation product 1,3-propanediol. Taking the catalytic efficiency, stability against inactivation by glycerol, and inhibition by 1,3-propanediol into account, the hybrid diol dehydratase produced by E. coli Bl21/pAK5.1 exhibited the best properties of all tested enzymes for application in the biotechnological production of 1,3-propanediol.  相似文献   

18.
A gene coding for xylanase activity in the ruminal bacterial strain 23, the type strain of Bacteroides ruminicola, was cloned into Escherichia coli JM83 by using plasmid pUC18. AB. ruminicola 23 genomic library was prepared in E. coli by using BamHI-digested DNA, and transformants were screened for xylanase activity on the basis of clearing areas around colonies grown on Remazol brilliant blue R-xylan plates. Six clones were identified as being xylanase positive, and all six contained the same 5.7-kilobase genomic insert. The gene was reduced to a 2.7-kilobase DNA fragment. Xylanase activity produced by the E. coli clone was found to be greater than that produced by the original B. ruminicola strain. Southern hybridization analysis of genomic DNA from the related B. ruminicola strains, D31d and H15a, by using the strain 23 xylanase gene demonstrated one hybridizing band in each DNA.  相似文献   

19.
A gene coding for xylanase activity in the ruminal bacterial strain 23, the type strain of Bacteroides ruminicola, was cloned into Escherichia coli JM83 by using plasmid pUC18. AB. ruminicola 23 genomic library was prepared in E. coli by using BamHI-digested DNA, and transformants were screened for xylanase activity on the basis of clearing areas around colonies grown on Remazol brilliant blue R-xylan plates. Six clones were identified as being xylanase positive, and all six contained the same 5.7-kilobase genomic insert. The gene was reduced to a 2.7-kilobase DNA fragment. Xylanase activity produced by the E. coli clone was found to be greater than that produced by the original B. ruminicola strain. Southern hybridization analysis of genomic DNA from the related B. ruminicola strains, D31d and H15a, by using the strain 23 xylanase gene demonstrated one hybridizing band in each DNA.  相似文献   

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