磁珠富集法分离刀鲚微卫星标记

利用磁珠富集法分离微卫星序列,以开发长江刀鲚微卫星分子标记。将长江刀鲚基因组DNA经限制内切酶Mse I酶切,回收400-1 000 bp片段,安装接头,构建长江刀鲚全基因组PCR文库。用生物素标记的微卫星探针(CA)12与其杂交,磁珠富集含有微卫星序列的DNA片段。将洗脱所得片段进行PCR扩增,然后进行克隆。经过菌落PCR检验后挑选出118个阳性克隆进行测序,其中97条含有微卫星序列。用设计合成59对微卫星引物对30尾养殖长江刀鲚进行引物的多态性筛选,得到9对多态性引物。     

背角无齿蚌基因组(GT)n微卫星DNA特征

利用磁珠富集法筛选背角无齿蚌(Anodonta woodiana)的微卫星分子标记,采用Sau3A1酶对完整DNA进行酶切,以生物素标记的(GT)15寡核苷酸探针从酶切片段中筛选微卫星序列.洗脱的杂交片段克隆到PGEM-T载体上构建富集微卫星基因组文库后,通过菌液PCR筛选检测出阳性克隆进行测序.结果表明:在筛选的18...     

黑斑原(鱼兆)微卫星DNA富集文库构建与鉴定

采用磁珠富集法,利用生物素标记的(CA)12寡核苷酸探针从黑斑原(鱼兆)基因组DNA MboI酶切的400—1000 bp片段中筛选CA/GT微卫星位点,洗脱的杂交片段克隆到pMD18-T载体上构建富集微卫星基因组文库后,通过PCR筛选检测出720个阳性克隆,占所有克隆的89.2%,从阳性克隆中随机选取139个进行测序,序列分析发现,124个克隆含有7个以上的重复序列,其中完全的为80个(64.5%),不完全的为40个(32.3%),复合的为15个(3.2%),重复次数范围为7—165次,平均为52次。在124条序列中共59条可以设计引物。     

磁珠富集法筛选大弹涂鱼CA微卫星序列

以大弹涂鱼(Boleophthalmus pectinirostris)基因组DNApool为材料,构建基因组PCR文库,采用链霉亲和素包被的磁珠富集法筛选目的片段.目的片段经克隆、测序验证后获得大弹涂鱼微卫星序列.在筛选的409个菌落中共获得209个阳性克隆,其中具有144个微卫星序列(GenBank登录号为HQ852252 - HQ852395),除去重复测序和侧翼链不足的序列,可以设计引物的微卫星序列有117条.     

磁珠富集法分离小黄李基因组微卫星DNA片段

将微卫星探针5′端生物素化后与链亲和素磁珠特异结合,用磁珠和探针的结合物与两端连接已知序列人工接头的中国李品种小黄李(Prunus salicinacv.Xiaohuangli)基因组DNA酶切片段杂交,以此杂交片段为模板用人工接头序列为引物进行PCR扩增,根据PCR产物测序结果设计引物作为微卫星DNA的标记引物.结果在随机挑选的36个克隆进行菌落PCR检测时,从31个阳性克隆中挑选18个克隆进行测序后获得了12条特异序列,设计的8对SSR引物均在5个中国李受试品种上获得了预期的扩增产物,其中4对引物在受试品种上表现出多态性.     

云南松基因组微卫星富集文库的构建

采用磁珠富集法构建云南松微卫星富集文库。云南松基因组DNA经RsaⅠ酶切,与特定接头连接,再用接头特异引物进行PCR扩增。连接扩增产物与用生物素标记的(AG)12、(AT)12、(CG)12、(GT)12、(ACG)12、(ACT)12和(CCA)8探针杂交,通过链霉亲和素偶联的磁珠捕捉含接头和微卫星序列的片段并扩增,将获得的片段连接到pMD-19T载体上,转化至大肠杆菌JM109感受态细胞中,成功构建了云南松微卫星富集文库。通过PCR检测从文库中筛选阳性克隆,在383富集阳性菌落中获得阳性克隆257个,经测序分析,在获得的159条序列中,有143条含有SSR,其中完美型占65.73%,非完美型占23.78%,混合型占10.49%。结果表明,磁珠富集法构建云南松基因组微卫星文库高效、可行的,文库的构建为微卫星位点的分离、遗传多样性的分析等奠定基础。     

巴氏蘑菇微卫星序列的分离及其对Co60辐射诱变菌株的鉴别

根据链霉素磁珠和生物素特异结合的特性,用生物素标记的二聚核苷酸重复序列探针从巴氏蘑菇的基因组中分离微卫星序列。将结合于链霉素磁珠上的标记探针同两端连接已知序列人工接头的巴氏蘑菇DNA酶切片段杂交。洗脱未杂交DNA片段后,用磁珠富集的片段建立微卫星文库。挑取522个菌落用对应重复序列为引物进行PCR筛选,得到48个阳性克隆,经测序有32个菌落含微卫星序列。微卫星富集效率为阳性克隆数的67%,总克隆数的6%。除去重复或无效的微卫星序列,在设计出的12对用于鉴别85个巴氏蘑菇的Co60辐射变异株微卫星引物中,有4对引物总共扩增出明显的变异菌株17个。证明有些微卫星位点可用于巴氏蘑菇辐射变异品种的指纹筛选与鉴别。     

磁珠富集法筛选实验豚鼠微卫星分子标记

目的直接从实验豚鼠基因组DNA中筛选获得微卫星分子标记。方法应用磁珠和生物素标记的微卫星探针与豚鼠基因组酶切片段杂交,捕获200～1000 bp含有微卫星序列的DNA片段,连接到pMD-18V载体中,转化到感受态细胞E.coli DH5α中构建富集微卫星序列的小片段插入文库。然后用PCR法进行筛选。结果从约2000个转化子中获得240个阳性克隆。对其中98个进行了测序,并成功设计豚鼠微卫星引物17对。结论经过优化的磁珠富集法能够稳定、高效地获得豚鼠微卫星标记。本研究获得的微卫星位点将成为豚鼠遗传学研究的有力工具。     

牦牛基因组微卫星富集文库的构建与分析

根据生物素与链亲和素的强亲和性原理,用链亲和素磁珠亲和捕捉与生物素标记的微卫星寡核苷酸探针(CA)12、(CCG)8、(CAG)8、(TTTC)8退火结合的含有接头和牦牛微卫星序列的单链限制性酶切片段,获得单链目的片段,经PCR扩增形成双链,然后克隆到pMD18-T载体上,转化至DH5α中,首次成功构建牦牛基因组微卫星富集文库。测序结果发现,阳性克隆率为77％(37／48),说明构建的牦牛基因组微卫星富集文库是一个高质量的文库。牦牛富集微卫星文库的建立和牦牛微卫星的筛选将为下一步进行牦牛基因组结构的分析、牦牛遗传连锁图谱的构建、分子进化和系统发育研究、标记辅助选择以及经济性状的QTL定位提供大量的微卫星标记。     

东方粘虫(Pseudaletia separata(Walker))微卫星富集文库的构建与分析

根据生物素与链亲和素的强亲和性原理,用包被链亲和素的磁珠亲和捕捉与生物素标记的微卫星寡核苷酸探针(CA)15、(GA)15、(GTT)12、(GAT)12、(TAGA)8 和 (GTGA)8退火结合的含接头和微卫星序列的单链粘虫基因组DNA限制性酶切片段,获得单链目的片段.经PCR扩增形成双链后连接到pGEM-T 载体上,再转化到DH5α热感受态细胞中,首次成功构建粘虫基因组微卫星富集文库.随机抽样(16次抽样,每库共12～114个克隆)测序发现,6个文库总的微卫星阳性克隆率30.07%,CA/GAT/GTT 等3个文库的阳性克隆率达到40%以上.单次抽样最高阳性克隆率达到56%.粘虫微卫星富集文库的建立和高多态性微卫星单拷贝位点的筛选将为粘虫的生态遗传学研究、连锁图谱构建、分子进化和系统发育研究等提供大量遗传标记,对昆虫迁飞的分子生态研究也有重大意义.     

Assessment of DNA fingerprinting for determining genetic diversity in sheep populations

Genomic DNA, prepared from 12 animals from four sheep flocks, was digested with either HaeIII or Hin fI and probed with three DNA fingerprinting probes. Mean DNA fingerprint band sharing and band frequency calculated for each flock were used to estimate genetic diversity. Each of the DNA fingerprinting systems showed the same trend in diversity within the sampled flocks, and greater diversity between the flocks than within the flocks. DNA fingerprinting therefore provides a useful measure of genetic diversity in sheep.     

基于磁珠富集法的绣线菊SSR分子标记分离与筛选

微卫星序列（SSR）具有多态性高、共显性遗传等特点,是一种极具价值的分子遗传标记。采用磁珠富集法从高山绣线菊基因组DNA中分离和筛选SSR标记。高山绣线菊基因组经限制性内切酶Mse I酶切后与接头连接,并与生物素标记SSR探针（AC）15和（AG）15杂交,然后通过链霉亲和素磁珠富集、洗脱、PCR扩增、克隆,完成微卫星文库构建。利用载体通用引物和探针序列引物进行PCR扩增,筛选重组克隆并测序,获得112条序列。随机挑选其中60条序列设计的引物,经初期筛选获得多态性引物16对。用所得16对引物对4个居群92个个体的蒙古绣线菊和高山绣线菊进行PCR扩增。统计分析PCR产物的毛细管电泳结果,发现4个居群的平均等位基因数、平均期望杂合度及平均观测杂合度都比较高。64个数据系列（4个居群×16个位点）中的26个显著偏离HardyWeinberg平衡,推测可能由于无效等位基因的存在所引起。分析显示研究开发的16对多态性SSR引物可以用于后续遗传多样性、物种进化与亲缘关系等方面研究,丰富了绣线菊遗传多样性研究的分子标记。     

DNA “fingerprints” detect genetic variation inAcer negundo (Aceraceae)

Genomic DNA samples from 21 box elder plants collected in Missouri (U.S.A.) were digested with restriction enzyme and southern blot hybridized with the M13 minisatellite probe. Each plant was found to have a unique DNA fragment pattern. Moreover, levels of genetic variation estimated from a similarity index appear to be related to sampling distances. However, size of the fragments utilized in the analysis affects the estimates of genetic variation to a considerable degree.     

应用AFLP技术对不同山羊种群进行遗传多样性检测的方法初探

7种不同山羊品种或种群的基因组DNA经限制性内切酶酶切 ,连接特异性接头 ,用 5条人工设计的与接头序列相识别的AFLP选择性引物 ,进行AFLP -PCR扩增 ,以琼脂糖凝胶电泳检测扩增结果。不同山羊种群基因组DNA的扩增结果具有差异。从而得出结论 :AFLP技术是一种适宜于山羊的遗传检测方法。     

The physical map of the chromosome of a serogroup A strain of Neisseria meningitidis shows complex rearrangements relative to the chromosomes of the two mapped strains of the closely related species N. gonorrhoeae.

A physical map of the chromosome of N. meningitidis Z2491 (serogroup A, subgroup IV-1) has been constructed. Z2491 DNA was digested with NheI, SpeI, SgfI, PacI, BglII, or PmeI, resulting in a limited number of fragments that were resolved by contour-clamped homogeneous electric field (CHEF) electrophoresis. The estimated genome size for this strain was 2,226 kb. To construct the map, probes corresponding to single-copy genes or sequences were used on Southern blots of chromosomal DNA digested with the different mapping enzymes and subjected to CHEF electrophoresis. By determining which fragments from different digests hybridized to each specific probe, it was possible to walk back and forth between digests to form a circular macrorestriction map. The intervals between mapped restriction sites range from 10 to 143 kb in size. A total of 117 markers have been placed on the map; 75 represent identified genes, with the remaining markers defined by anonymous cloned fragments of neisserial DNA. Comparison of the arrangement of genetic loci in Z2491 with that in gonococcal strain FA1090, for which a physical map was previously constructed, revealed complex genomic rearrangements between the two strains. Although gene order is generally conserved over much of the chromosome, a region of approximately 500 kb shows translocation and/or inversion of multiple blocks of markers between the two strains. Even within the relatively conserved portions of the maps, several genetic markers are in different positions in Z2491 and FA1090.     

Large-restriction-fragment polymorphism analysis of Mycobacterium chelonae and Mycobacterium terrae isolates

Mycobacterium chelonae and Mycobacterium terrae were reported to be frequently present in the environment of the Mycobacterium bovis BCG trial area in south India. Six isolates of M. chelonae and four isolates of M. terrae obtained from different sources in this area were analyzed by pulsed-field gel electrophoresis (PFGE) to examine large-restriction-fragment (LRF) polymorphism using the chromosomal DNA digested with DraI and XbaI restriction enzymes. With the exception of one isolate of M. terrae, DNA from all other isolates could be digested with DraI and XbaI and resulted in separable fragments. Visual comparison of the LRFs showed a unique pattern for each of the isolates tested. A computer-assisted dendrogram of the percent similarity demonstrated a high degree of genetic diversity in this group of isolates. This study demonstrates that species of nontuberculous mycobacteria, particularly M. chelonae and M. terrae, can be successfully typed by their LRF pattern using PFGE, which does not require species-specific DNA probes.     

水稻线粒体26S rRNA基因在大肠杆菌JM101中的克隆及分子鉴定

用BT型水稻喜峰A黄化苗为材料,按本实验过去报道经修改后的方法提取线粒体DNA,经EcoR1完全酶切后,随机克隆到pUC19载体上,转化大肠杆菌,在含氨苄青霉素(50μg/m1)和X-gal的LB固体平板上筛选白色转化子。随机提取重组子DNA,以玉米26S rRNA基因为探针,经Southern分子杂交鉴定,一个插入1.3kb水稻线粒体DNA片段的重组质粒杂交结果为阳性,并将这个含有26S rRNA基因片段的重组质粒命名为pXMT1。     

Assessment of genetic diversity and population structure of Xanthomonas oryzae pv. oryzae with a repetitive DNA element.

A repetitive DNA element cloned from Xanthomonas oryzae pv. oryzae was used to assess the population structure and genetic diversity of 98 strains of X. oryzae pv. oryzae collected between 1972 and 1988 from the Philippine Islands. Genomic DNA from X. oryzae pv. oryzae was digested with EcoRI and analyzed for restriction fragment length polymorphisms (RFLPs) with repetitive DNA element as a probe. Twenty-seven RFLP types were identified; there was no overlap of RFLP types among the six races from the Philippines. Most variability (20 RFLP types) was found in strains of races 1, 2, and 3, which were isolated from tropical lowland areas. Four RFLP types (all race 5) were found among strains isolated from cultivars grown in the temperate highlands. The genetic diversity of the total population of X. oryzae pv. oryzae was 0.93, of which 42% was due to genetic differentiation between races. The genetic diversities of strains collected in 1972 to 1976, 1977 to 1981, and 1982 to 1986, were 0.89, 0.90, and 0.92, respectively, suggesting a consistently high level of variability in the pathogen population over the past 15 years. Cluster analysis based on RFLP banding patterns showed five groupings at 85% similarity. The majority of strains from a given race were contained within one cluster, except for race 3 strains, which were distributed in three of the five clusters.     

Multiple components in restriction enzyme digests of mammalian (insectivore), avian and reptilian genomic DNA hybridize with murine immunoglobulin VH probes.

High molecular weight genomic DNAs isolated from an insectivore, Tupaia, and a representative reptilian, Caiman, and avian, Gallus, were digested with restriction endonucleases transferred to nitrocellulose and hybridized with nick-translated probes of murine VH genes. The derivations of the probes designated S107V (1) and mu 107V (2,3) have been described previously. Under conditions of reduced stringency, multiple hybridizing components were observed with Tupaia and Caiman; only mu mu 107V exhibited significant hybridization with the separated fragments of Gallus DNA. The nick-translated S107V probe was digested with Fnu4H1 and subinserts corresponding to the 5' and 3' regions both detected multiple hybridizing components in Tupaia and Caiman DNA. A 5' probe lacking the leader sequence identified the same components as the intact 5' probe, suggesting that VH coding regions distant as the reptilians may possess multiple genetic components which exhibit significant homology with murine immunoglobulin in VH regions.