操纵来自大肠杆菌的F1F0 ATP合酶中b亚基F1结合结构域的长度。

Manipulating the length of the b subunit F1 binding domain in F1F0 ATP synthase from Escherichia coli.

作者信息

Bhatt Deepa, Cole Stephanie P, Grabar Tammy Bohannon, Claggett Shane B, Cain Brian D

机构信息

Department of Biochemistry and Molecular Biology, University of Florida, Gainesville, FL 32605, USA.

出版信息

J Bioenerg Biomembr. 2005 Apr;37(2):67-74. doi: 10.1007/s10863-005-4129-7.

DOI:10.1007/s10863-005-4129-7

PMID:15906151

Abstract

The peripheral stalk of F(1)F(0) ATP synthase is composed of a parallel homodimer of b subunits that extends across the cytoplasmic membrane in F(0) to the top of the F(1) sector. The stalk serves as the stator necessary for holding F(1) against movement of the rotor. A series of insertions and deletions have been engineered into the hydrophilic domain that interacts with F(1). Only the hydrophobic segment from val-121 to ala-132 and the extreme carboxyl terminus proved to be highly sensitive to mutation. Deletions in either site apparently abolished enzyme function as a result of defects is assembly of the F(1)F(0) complex. Other mutations manipulating the length of the sequence between these two areas had only limited effects on enzyme function. Expression of a b subunit with insertions with as few as two amino acids into the hydrophobic segment also resulted in loss of F(1)F(0) ATP synthase. However, a fully defective b subunit with seven additional amino acids could be stabilized in a heterodimeric peripheral stalk within a functional F(1)F(0) complex by a normal b subunit.

摘要

F(1)F(0) ATP合酶的外周柄由b亚基的平行同型二聚体组成，该二聚体在F(0)中穿过细胞质膜延伸至F(1)扇区的顶部。该柄作为固定F(1)以防止其随转子移动所必需的定子。已对与F(1)相互作用的亲水区进行了一系列的插入和缺失改造。结果发现，只有从val-121到ala-132的疏水片段和极端羧基末端对突变高度敏感。由于F(1)F(0)复合体组装缺陷，这两个位点中的任何一个发生缺失显然都会使酶功能丧失。其他改变这两个区域之间序列长度的突变对酶功能只有有限的影响。在疏水片段中插入少至两个氨基酸的b亚基的表达也会导致F(1)F(0) ATP合酶丧失。然而，带有七个额外氨基酸的完全缺陷型b亚基可以通过正常的b亚基稳定在功能性F(1)F(0)复合体内的异源二聚体外周柄中。

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操纵来自大肠杆菌的F1F0 ATP合酶中b亚基F1结合结构域的长度。

Manipulating the length of the b subunit F1 binding domain in F1F0 ATP synthase from Escherichia coli.

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