排序方式: 共有12条查询结果,搜索用时 15 毫秒
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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
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Michael J. Sandery John W. Forster Simon R. Macadam Richard Blunden R. Neil Jones Stephen D. M. Brown 《Plant Molecular Biology Reporter》1991,9(1):21-30
The techniques of microdissection and microcloning have been applied to the isolation of B-chromosome DNA from rye. We have
identified a DNA sequence on the rye B-chromosome which is homologous to an A-chromosome sequence, and which is dispersed
and moderately repeated on the A- and B-chromosomes. This demonstrates that the rye B-chromosome is heterogeneous in the nature
of its DNA sequence composition, containing sequences which are present on the A-chromosomes in addition to those not present
on the A-chromosomes. 相似文献
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通过玻璃针分离法从大豆 (GlycinemaxL .)根尖细胞中期分裂相中显微分离出一条染色体 ,经Sau3A人工接头介导的两轮PCR后 ,将其第二轮扩增产物克隆到质粒载体上 ,构建了单染色体质粒文库。经分析 ,该微克隆文库包含约 2 0 0 0 0 0个重组子。随机挑选 1 78个重组子进行鉴定 ,证明该文库的插入片段主要介于 2 0 0~ 1 80 0bp之间 ,平均大小 830bp ;其中 ,中、高拷贝重复序列占 44% ,单、低拷贝序列占 56%。微分离染色体体外扩增产物的原位杂交分析表明它们来自于大豆基因组 ,然而却未能将其只标记在该条微分离的染色体上 相似文献
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显微分离出黑麦(SecalecerealeL.)1R染色体,用CohesiveadapterssingleprimerPCR(CASPPCR)方法进行体外扩增,以DIG11dUTP标记扩增产物为探针,进行Southern分子杂交,结果表明扩增产物来自黑麦1R染色体。用1/10体积的连接物转化E.coliDH5α,获得10000多个重组菌落。经酶切分析,克隆子的插入片段为250~500bp,为进一步筛选1R染色体的分子标记打下了基础 相似文献
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介绍了染色体显微切割及微克隆技术的原理和主要方法,综述了显微切割及微克隆的研究进展,并讨论了其在植物中的应用. 相似文献
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水仙单染色体特异文库的构建 总被引:2,自引:0,他引:2
采用玻璃针分离法,通过显微操作系统成功地分离到一个多花水仙(N arcissus tazetta L.,2n=22)品种的中着丝粒单染色体,将分离到的单染色体放入0.2 mL Eppendorf管中,经去蛋白、S au3A酶切,并在染色体DNA片段两端加上S au3A人工接头后,进行两轮PCR扩增,得到0.3~3.0 kb之间的DNA片段.用水仙基因组DNA标记作探针,与扩增产物进行Sou thern杂交,从而证明单染色体DNA确实已被成功地扩增.将第二轮PCR产物构建质粒文库,随机挑取90个重组子进行分析,发现插入片段主要在600~2 500 bp之间. 相似文献
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Two 1R chromosomes of Secale cereale L. were isolated from one metaphase cell by means of chromosome micro-isolation, and the chromosomal DNA was amplified adopting the cohesive adapters single primer polymerase chain reaction (CASP-PCR) technique. The CASP-PCR products were labeled as probes. The results of Southern blot hybridization confirmed that the CASP- PCR products derived from the chromosome IR were homologous with the genomic DNA of S. cereale. The clones of PCR products were obtained with high efficiency. Over 10 000 recombinant clones were obtained from one-tenth of the ligation mixture which was transferred into the competent E. coli DH5a. The size of the inserted fragments of clones ranged from 250 bp to 500 bp. This research has established the foundation for further selection of chromosome 1R markers. 相似文献
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染色体微切割、微分离、微克隆技术及其研究进展 总被引:3,自引:0,他引:3
自1981年染色体微切割及微克隆技术创建以来,该技术已广泛应用于人类及动植物遗传学、医学、进化学等研究领域,主要包括构建特定染色体或染色体区域的DNA文库、制备染色体描绘探针池以研究染色体重排和染色体进化等。本文对该技术的产生、发展及某些研究进展作一综述。
Abstract: Since chromosome microdissection and microcloning technique was developed in 1981,it has been wide ly used in genetics,medicine,evolution and other fields,mainly in establishing chromosome or chromosone specific region DNA libraries,preparing chromosome painting probe pools to study chromosome rearrangement and evolution.In the paper,the development and research progress of the technique are discussed. 相似文献