脐橙基因组DNA文库的构建

研究构建了一个脐橙基因组DNA文库。以‘大山岛’脐橙幼叶为试材 ,CTAB法制备基因组DNA ,经CsCl密度梯度离心纯化 ,获得了大片段 ( >10 0kb)高纯度基因组DNA。以Sau3AI部分酶切 ,酶切片段 3’凹端不完全补平后与LambdaGEM 12XhoIHalf SiteArms连接 ,连接产物用Packagene Extract包装 ,所得噬菌体在KW2 51寄主上铺平板。文库经过扩增并保存。对该文库特性研究表明 ,该文库包含了 2 .15× 10 6个单个克隆 ,背景低于10 0pfu/ μgDNA ,插入片段平均大小约为 17kb ,证明是一个较为完整的脐橙基因组DNA文库。

猪肺炎支原体基因组DNA文库的构建

将猪肺炎支原体Z菌株接种于A2 6液体培养基中培养 ,在收获菌体细胞后 ,提取和纯化其基因组DNA。并经EcoRI大量酶切获得 4 .0～ 8.0kb的DNA片段 ,与λgt11载体臂连接为重组λDNA ,然后进行包装 ,感染于Y10 90宿主菌 ,构建了猪肺炎支原体基因组DNA文库 ,并得以表达。

猕猴桃基因组DNA文库的构建

采用改良CTAB法提取美味猕猴桃(Actinidiadeliciosacv.Bruno)基因组DNA,经CsCl密度梯度离心纯化后用Sau3AI部分酶切,通过透析袋电泳的方法分级回收,剔除14kb以下的片段,回收长为14～23kb的酶切片段。部分酶切片段经dATP和dGTP部分补平后与LambdaFIXII载体连接,连接产物用GigapackⅢPackagingExtract进行包装,最后得到含有1.05×106pfu的基因组文库,扩增后文库滴度为2.5×109pfu/mL。利用6对根据植物基因保守区或猕猴桃基因序列设计的专一引物对基因组文库和基因组DNA进行PCR扩增,均得到与预计长度相符的目的基因片段。

新疆管花肉苁蓉DNA片段的克隆、序列分析及其基因组DNA文库的构建

根据新疆肉苁蓉的RAPD分析结果，结合新疆肉苁蓉的有效成份及药用价值，筛选出新疆肉苁蓉的优良种质—管花肉苁蓉。对新疆管花肉苁蓉517bp的DNA片段进行了克隆、序列测定与分析，构建了新疆管花肉苁蓉的基因组DNA文库。

新疆甘草DNA片段的克隆、序列分析及其基因组DNA文库的构建

目的克隆新疆甘草DNA片段 ,构建新疆甘草基因组DNA文库。方法对新疆产 4种甘草进行随机扩增多态性DNA(RAPD)分析 ,回收甘草随机引物s12 1的PCR产物中 5 0 0bp左右的带 ,克隆到pMD18 T载体中 ,经电泳鉴定后测定序列 ,进行序列分析。用Sau3AI对所提新疆甘草基因组DNA进行酶切 ,回收 15～ 2 3kb之间的酶切产物片段 ,然后与LambdavectorBamHIArms进行连接、包装形成文库 ,计算文库重组噬菌体滴度、包装效率。结果获得了甘草 4 90bp的DNA片段 ,所建文库的重组噬菌体滴度为 3× 10 6pfu/ml、包装效率为 6× 10 6重组子 /μg载体DNA。结论成功克隆了新疆甘草DNA片段 ,并构建了基因组DNA文库 ,为进一步研究奠定了基础。

毛足棒角蝗基因组DNA文库的构建

纯化毛足棒角蝗 (Dasyhippusbarbipes)虫体组织的高分子量基因组DNA ,经限制性内切酶Sau3AI部分消化后 ,10 %～ 4 0 %蔗糖密度梯度离心分离 10～ 2 0kb的DNA片段。以λEMBL3为克隆载体 ,与 10～ 2 0kb的DNA片段进行连接和包装 ,构建了毛足棒角蝗的基因组DNA文库。经测定该文库的滴度是 2× 10 5pfu/mL ,根据计算 ,99%的毛足棒角蝗的基因包含在该基因组文库中。

高盐极端环境土壤基因组DNA的分离纯化方法研究及基因文库的构建

以钦州市犀牛角镇晒盐池内（盐浓度〉25％）的土壤样品为研究对象，对土壤混合基因组DNA的提取和纯化方法进行了深入研究，结果表明。冻融法、十二烷基磺酸钠（SDS）和蛋白酶K联合使用的提取法，能有效提高DNA得率，DNA的产量达到每克土壤样品10～15μg。交联聚乙烯吡咯烷酮（PVPP）、SeDhadex G-200树脂以及大量胶回收的使用，可有效纯化DNA。纯化的DNA产量可达每克土壤样品4～6μg，DNA片段大小〉30kb，将纯化的DNA用BamH Ⅰ部分酶切后构建以pLAFR3为载体的混合基因组文库，该文库包含15600个克隆，外源片段DNA平均大小为18kb。通过DNA序列测定和同源性比较，对从文库中随机挑取的10个克隆进行了序列分析，发现9个外源插入片段包含未知DNA序列。

水稻二化螟和三化螟基因组ddRADseq文库的构建

本文介绍了构建水稻二化螟和三化螟"双酶切限制性酶切位点关联DNA测序"(Double digest restrictionsite associated DNA sequencing,ddRADseq)文库的方法。利用安捷伦2100生物分析仪对4种单酶切及2种双酶切的酶切产物片段大小及分布范围进行分析,筛选出Mlu C I和Nla III两种限制性内切酶组合对螟虫基因组DNA进行酶切。酶切后的DNA片段两端连接上特定的P1、P2接头后,用Pippin Prep回收大小为285-435 bp的DNA片段。通过PCR扩增进行文库的富集并引入index序列。构建好的ddRADseq文库用琼脂糖凝胶电泳和生物分析仪进行质量检测。本方法所构建的文库DNA片段长度、分布和摩尔浓度能够达到Illumina平台测序的技术要求。本研究证实了利用Mlu C I和Nla III组合酶切构建水稻螟虫基因组ddRADseq文库的可行性,为在水稻螟虫中利用ddRADseq技术开展生物地理学、种群遗传学和系统发育重建等方面的研究奠定基础。

通过石蜡包埋组织标本构建肝细胞癌基因组文库的研究

目的探讨通过石蜡包埋组织标本构建肝细胞癌（hepatocellular carcinoma,HCC）肿瘤组织基因组DNA文库的方法。方法收集符合要求的石蜡包埋HCC肿瘤组织标本,运用组织裂解改良法提取基因组DNA,构建HCC肿瘤组织基因组DNA文库,通过SmartSpecTM核酸蛋白测量法、TaqMan-MGB-PCR及琼脂糖凝胶电泳法等分析评估所得文库质量。结果本研究共收集到2 108例合格石蜡包埋HCC肿瘤组织标本,构建了HCC组织标本基因组DNA文库,经质量监控分析所得DNA的浓度大于或接近0.1μg/μl,对应A260/A280比值介于1.6~2.0,TaqMan-MGB-PCR实时定量曲线光滑、波峰单一,琼脂糖凝胶电泳条带单一、清晰、无拖尾现象,所构建的文库DNA质量较好,与对照DNA质量相比差异无显著性（P〉0.05）。结论通过石蜡包埋组织标本可构建用于HCC研究的肿瘤组织基因组DNA文库。

环境基因组技术在微生物多样性研究中的应用

环境中的微生物具有极大的生物多样性,但99%的微生物不能通过标准的实验技术加以培养,不依赖于培养的环境基因组技术由于适合分析生态系统中整个复杂的微生物基因组而迅速发展起来。文章针对环境基因组技术的原理、方法以及目前该技术在环境微生物多样性研究中的应用等作一综述。

泥鳅抑制性消减DNA文库的构建及质量分析

为筛选、克隆泥鳅性别特异基因奠定基础,以黄河中下游雌性和雄性成体泥鳅为材料,采用抑制性消减杂交技术(SSH)构建基因组DNA文库,并结合蓝白斑筛选和PCR方法鉴定文库质量。结果表明:雌雄泥鳅基因组DNA的正反向抑制消减文库构建成功,其中,正向文库包含240个克隆,反向文库包含216个克隆,阳性克隆率为95.61%,插入片段范围为0.2～1.0kb。

Dig标记Era用于相应结合蛋白基因的钓取

Era是大肠杆菌生存繁殖必需的era基因产物,属G蛋白。作者推测它与其它G蛋白一样,有相应的结合蛋白存在。为了寻找Era结合蛋白及其基因。

耐辐射奇球菌基因组DNA表达文库的构建与鉴定

目的:构建耐辐射奇球菌(Deinococcus radioduransR1)基因组DNA表达文库,为进一步研究耐辐射奇球菌高抗辐射的调控网络奠定基础。方法:提取耐辐射奇球菌基因组DNA,用Sau3AI酶将基因组DNA部分酶切成0.5-5kb大小的片段,用T4DNA连接酶将部分酶切片段与经BamHⅠ和碱性磷酸酶(CIAP)处理的pGADT7载体进行连接后电击转化大肠杆菌DH5α。结果:得到重组子数为2.2×104,扩增后的文库滴度为108cfu/mL。结论:构建了耐辐射奇球菌基因组pGADT7表达文库,为进一步筛选与高抗辐射相关基因产物的互作蛋白奠定了基础。

运用多元性基因库方法揭示克罗恩病患者粪便中微生物种群多样性减少

Background and aim: A role for the intestinal microbial community (microbiota) in the onset and chronicity of Crohn’s disease (CD) is strongly suspected. However, investigation of such a complex ecosystem is difficult, even with culture independent molecular approaches. Methods: We used, for the first time, a comprehensive metagenomic approach to investigate the full range of intestinal microbial diversity. We used a fosmid vector to construct two libraries of genomic DNA isolated directly from faecal samples of six healthy donors and six patients with CD. Bacterial diversity was analysed by screening the two DNA libraries, each composed of 25 000 clones, for the 16S rRNA gene by DNA hybridisation. Results: Among 1190 selected clones, we identified 125 non-redundant ribotypes mainly represented by the phyla Bacteroidetes and Firmicutes. Among the Firmicutes, 43 distinct ribotypes were identified in the healthy microbiota, compared with only 13 in CD (p < 0.025). Fluorescent in situ hybridisation directly targeting 16S rRNA in faecal samples analysed individually (n = 12) confirmed the significant reduction in the proportion of bacteria belonging to this phylum in CD patients (p < 0.02). Conclusion: The metagenomic approach allowed us to detect a reduced complexity of the bacterial phylum Firmicutes as a signature of the faecal microbiota in patients with CD. It also indicated the presence of new bacterial species.

Preparation of high molecular weight （HMW） genomic DNA from tea plant （Camellia sinensis） for BAC library construction

A bacterial artificial chromosome （BAC） library is an invaluable resource tool to initiate tea plant genomics research, and the preparation of high molecular weight （HMW） genomic DNA is a crucial first step for constructing a BAC Library. In order to construct a BAC library for enhancing tea plant genomics research, a new method for the preparation of tea pant high molecular weight （HMW） genomic DNA must be developed due to young tea plant leaves and shoots are notably rich in both tea polyphenols and tea polysaccharides. In this paper, a modified method for preparing high quality tea plant HMW genomi~ DNA was optimized, and the quality of tea plant genomic DNA was evaluated. The results were as follows： Critical indicators of HMW DNA preparation were the appearance of the smooth nuclei in solution （as opposed to sticky-gummy） before agarose plug solidification, non-dark colored nuclei plugs after lysis with an SDS/proteinase K solution, and the quality and quantity of HMW DNA fragments after restriction enzyme digestion. Importantly, 1% dissolved PVP-40 and 1% un-dissolved PVP-40 during the nuclei extraction steps, in conjunction with the removal of PVP-40 from the plug washing and nuclei lysis steps, were critical for achieving HWM tea plant DNA suitable for BAC library construction. Additionally, a third PFGE fraction selection step to eliminate contaminating small DNA fragments. The modifications provided parameters that may have prevented deleterious interactions from tea polyphenols and tea polysaccharides. The HMW genomic DNA produced by this new modified method has been used to successfully construct a large-insert tea plant BAC library, and thus may be suitable for BAC library construction from other plant species that contain similarly interfering compounds.

耐甲氧西林金黄色葡萄球菌PBP2a相互作用蛋白的筛选

目的通过建立细菌双杂交技术,筛选MRSA中与PBP2a相互作用的蛋白。方法利用PCR扩增,获得PBP2a蛋白转肽酶活性区(TPase)的编码基因,插入pRBR构建成诱饵质粒pBR-PBP2a。提取MRSA N315株基因组DNA,经Sau3AⅠ部分酶切后连接到pRAC质粒的BamHⅠ位点,获得基因组DNA表达文库;将文库质粒转化入含诱饵质粒pBR-PBP2a的报告菌株KS1,利用细菌双杂交技术进行筛选,获得与诱饵质粒编码的融合蛋白相互作用的猎物,对猎物中编码序列进行DNA测序和生物信息学分析,确定与PBP2a发生相互作用的蛋白质或多肽。结果成功构建了pBR-PBP2a诱饵质粒,可表达PBP2a TPase与大肠埃希菌RNA聚合酶α亚单位N端序列的融合蛋白。所构建的MRSA N315株基因组文库覆盖率达9倍,满足文库筛选的需要。将文库转化含诱饵质粒和报告基因的KS1宿主菌,利用细菌双杂交技术经3次筛选,共获得9个猎物克隆,其报告基因的活性均升高2倍以上,对9个猎物质粒进行了测序,信息学分析表明它们均来自于MRSA N315株基因组,插入片段最长者648 bp,最短者334 bp,9个插入片段中含14个编码基因,其中10个功能未知,1个编码二氢吡啶二羧酸合酶、1个编码二氢吡啶二羧酸还原酶,2个编码染色体解离稳定(SMC)蛋白。9个克隆中介导与PBP2a相互作用的多肽由14～46个氨基酸组成。结论利用细菌双杂交技术从MRSA基因组文库中成功筛选到与PBP2a相互作用的多肽。

Isolation and Characterization of Microsatellites in Snap Bean

The objectives of this study were to isolate and characterize microsatellites from a heat tolerant variety of snap bean (Phaseolus vulgaris L.) in order to generate polymorphic genetic markers linked to quantitative trait loci for heat tolerance. A genomic library contained 400-800 bp inserts was constructed and screened for the presence of (GA/CT) n and (CA/GT) n repeats. The proportion of positive clones yielded estimated of 3.72×10 4 such dinucleotide repeats per genome, roughly comparable to the abundance reported in other eukaryotic genomes. Twenty_six positive clones were sequenced. In contrast to mammalian genomes, the (GA/CT) n motif was much more abundant than the (CA/GT) n motif in these clones. The (GA/CT) n repeats also showed longer average repeat length (mean n =10.4 versus 6.5), suggesting that they are better candidates for yielding polymorphic genetic markers in the snap bean genome.