菜花（甘蓝）线粒体 DNA 的物理和基因图谱。

Physical and gene mapping of cauliflower (Brassica oleracea) mitochondrial DNA.

机构信息

Equipe de Biologic Cellulaire Végétale, Laboratoire de Cytophysiologie de la Photosynthése, France.

出版信息

Curr Genet. 1984 Aug;8(6):413-21. doi: 10.1007/BF00433907.

Abstract

A physical map of the mitochondrial DNA isolated from B. oleracea (cauliflower) inflorescences was constructed with the restriction endonucleases Sall, Kpnl and Bgll. Physical mapping was made using the multi enzyme method with either unlabeled or labeled DNA fragments isolated by preparative electrophoresis and a clone bank prepared by inserting incomplete Sall restriction digests of mitochondrial DNA into a cosmid vector.The different mapping studies led to a circular map, about 217 kb in size, containing the entire sequence complexity of the genome. The 26S and 18S - 5S ribosomal RNA genes appeared to be separated by about 75 kb in this map. However, the particular cross-hybridization between several restriction fragments and the sequential diversity of some cosmids indicated that intra molecular recombination may occur naturally in higher plant mitochondria. Namely, one recombinational event resulted in the ribosomal RNA genes mapping closer together.

摘要

用 Sall、Kpnl 和 Bgll 三种限制内切酶对从花椰菜（菜花）花序中分离出来的线粒体 DNA 进行物理作图。物理作图采用多酶法，用未经标记或用经制备性电泳分离出的标记 DNA 片段，以及将不完全 Sall 内切酶消化的线粒体 DNA 插入到粘粒载体而制成的克隆库。不同的作图研究导致一个约 217kb 的环状图谱，它包含基因组的全部序列复杂性。在这个图谱中，26S 和 18S-5S 核糖体 RNA 基因似乎被隔开约 75kb。然而，一些限制片段之间的特殊杂交和一些粘粒的顺序多样性表明，分子内重组可能在高等植物线粒体中自然发生。即，一个重组事件导致核糖体 RNA 基因的图谱彼此靠得更近。

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菜花（甘蓝）线粒体 DNA 的物理和基因图谱。

Physical and gene mapping of cauliflower (Brassica oleracea) mitochondrial DNA.

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