与 LHCII 三维分子结构相关的光捕获和应激响应蛋白的序列保守性。

Sequence conservation of light-harvesting and stress-response proteins in relation to the three-dimensional molecular structure of LHCII.

机构信息

Department of Botany, University of British Columbia, V6T 1Z4, Vancouver, B.C., Canada.

出版信息

Photosynth Res. 1995 May;44(1-2):139-48. doi: 10.1007/BF00018304.

Abstract

The structure of pea light-harvesting complex LHCII determined to 3.4 Å resolution by electron crystallography (Kühlbrandt, Wang and Fujiyoshi (1994) Nature 367: 614-621) was examined to determine the relationship between structural elements and sequence motifs conserved in the extended family of light-harvesting antennas (Chl a/b, fucoxanthin Chl a/c proteins) and membrane-intrinsic stress-induced proteins (ELIPs) to which LHCII belongs. It is predicted that the eukaryotic ELIPs can bind at least four molecules of Chl. The one-helix prokaryotic ELIP of Synechococcus was modelled as a homodimer based on the high degree of conservation of residues involved in the interactions of the first (B) and third (A) helices of LHCII.

摘要

通过电子晶体学（Kühlbrandt、Wang 和 Fujiyoshi（1994）Nature 367: 614-621）将豌豆光捕获复合物 LHCII 的结构解析至 3.4 Å 的分辨率，以确定结构元件与在光捕获天线（叶绿素 a/b、叶黄素叶绿素 a/c 蛋白）和膜内在应激诱导蛋白（ELIPs）的家族中保守的序列基序之间的关系，LHCII 属于 ELIPs。预测真核 ELIP 可以结合至少四个叶绿素分子。根据参与 LHCII 第一（B）和第三（A）螺旋相互作用的残基的高度保守性，将 Synechococcus 的单螺旋原核 ELIP 模拟为同源二聚体。

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与 LHCII 三维分子结构相关的光捕获和应激响应蛋白的序列保守性。

Sequence conservation of light-harvesting and stress-response proteins in relation to the three-dimensional molecular structure of LHCII.

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