小麦和豌豆叶绿体蛋白和三个叶绿体基因核苷酸序列的差异。

Idengaku zasshi Pub Date : 1992-04-01 DOI:10.1266/jjg.67.111
T M Ikeda, T Terachi, K Tsunewaki
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引用次数: 6

摘要

两个异质小麦系具有相同的共同小麦细胞核,但长穗小麦和白穗小麦的细胞质不同。利用柱状体和相应的法线(对照)对叶绿体可溶性膜蛋白和类囊体膜蛋白进行双向凝胶电泳。三种叶绿体多肽:Rubisco大亚基、ATP合成酶β亚基和一种未知的31 kDa蛋白,在普通小麦和两种盾叶草细胞质中存在差异。对分别编码ATP合成酶β亚基和tRNA(met)亚基的3个叶绿体基因atpB、atpE和trnM进行了测序。atpB基因通过两个同义碱基替换而不同,而其他两个基因在两个Aegilops细胞质中是相同的。从预测的氨基酸序列来看,与普通小麦细胞质相比,Aegilops细胞质中ATP合成酶的β亚基有三个氨基酸取代:Ala被Val取代,Asp-被Ala取代,Gln被Lys+取代。这就解释了在普通小麦和盾叶草细胞质中发现的pI值的差异。普通小麦的atpE基因的两个碱基替换与盾叶草细胞质的atpE基因是同义的。在编码ATP合成酶的两个亚基的基因中检测到的差异似乎不能归因于普通小麦和甜菜细胞质的表型效应差异。atpB-atpE-trnM基因簇的碱基取代率与rbcL基因相似。仅从atpB基因的速率来看,小麦- aegilops复合体的进化分化被假定开始于大约3.0 x 10(6)年前,而小麦- aegilops复合体和大麦的分化则开始于大约8.0 x 10(6)年前。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Variations in chloroplast proteins and nucleotide sequences of three chloroplast genes in Triticum and Aegilops.

Two alloplasmic wheat lines having the same common wheat nucleus but the cytoplasms of Aegilops crassa and Ae. columnaris together with the corresponding normal line (control) were used in the two-dimensional gel electrophoresis of soluble and thylakoid membrane proteins of the chloroplast. Three chloroplast polypeptides: the Rubisco large subunit, the beta subunit of ATP synthase, and an unidentified 31 kDa protein, differed in the common wheat and two Aegilops cytoplasms. Three chloroplast genes, atpB, atpE and trnM, that respectively encode the beta and epsilon subunits of ATP synthase and tRNA(met), were sequenced. The atpB gene differed by two synonymous base substitutions, whereas the other two genes were identical in the two Aegilops cytoplasms. From the predicted amino acid sequences, the beta subunits of the ATP synthase in the Aegilops cytoplasms were assumed to have three amino acid substitutions: Ala by Val, Asp- by Ala, and Gln by Lys+, in contrast to the cytoplasm of common wheat. This accounts for the difference in pI values found for the common wheat and Aegilops cytoplasms. The two base substitutions for the atpE genes of common wheat and the Aegilops cytoplasms were synonymous. The differences detected in the genes encoding the two subunits of ATP synthase do not appear to be ascribable to the differences in phenotypic effects for the common wheat and Aegilops cytoplasms. The base substitution rate of the atpB-atpE-trnM gene cluster was similar to that of the rbcL gene. From the rate for the atpB gene alone, evolutionary divergence of the wheat-Aegilops complex is assumed to have begun ca. 3.0 x 10(6) years ago, as compared to ca. 8.0 x 10(6) years ago for the divergence of the wheat-Aegilops complex and barley.

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