P22 Arc阻遏物二聚体折叠与稳定性的序列决定因素。

Sequence determinants of folding and stability for the P22 Arc repressor dimer.

作者信息

Sauer R T, Milla M E, Waldburger C D, Brown B M, Schildbach J F

机构信息

Department of Biology, Massachusetts Institute of Technology, Cambridge 02139, USA.

出版信息

FASEB J. 1996 Jan;10(1):42-8. doi: 10.1096/fasebj.10.1.8566546.

DOI:10.1096/fasebj.10.1.8566546

PMID:8566546

Abstract

The Arc repressor is a small, homodimeric protein. Studies of mutant proteins show that the side chains that form the hydrophobic core are the most important determinants of structure. A variety of hydrogen bonds and salt bridges also contribute to stabilization of the native structure, but these can often be replaced by hydrophobic interactions. The transition state for folding/unfolding is dimeric and contains a large amount of buried hydrophobic surface, but the beta-sheet of native Arc is not formed. Moreover, relatively little side chain information appears to be used in the transition state, suggesting that tight packing of the hydrophobic core and optimization of hydrogen-bond geometry are events that occur later in folding.

摘要

Arc阻遏蛋白是一种小型同二聚体蛋白。对突变蛋白的研究表明，形成疏水核心的侧链是结构的最重要决定因素。各种氢键和盐桥也有助于天然结构的稳定，但这些常常可以被疏水相互作用所取代。折叠/去折叠的过渡态是二聚体，含有大量埋藏的疏水表面，但天然Arc的β折叠并未形成。此外，在过渡态中似乎较少使用侧链信息，这表明疏水核心的紧密堆积和氢键几何结构的优化是在折叠后期发生的事件。

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P22 Arc阻遏物二聚体折叠与稳定性的序列决定因素。

Sequence determinants of folding and stability for the P22 Arc repressor dimer.

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