Why does the first protein repeat often become the only one?

IF 3 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of structural biology Pub Date : 2023-09-01 DOI:10.1016/j.jsb.2023.108014

Simona Manasra , Andrey V. Kajava

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Abstract

Proteins with two similar motifs in tandem are one of the most common cases of tandem repeat proteins. The question arises: why is the first emerged repeat frequently fixed in the process of evolution, despite the ample opportunities to continue its multiplication at the DNA level? To answer this question, we systematically analyzed the structure and function of these proteins. Our analysis showed that, in the vast majority of cases, the structural repetitive units have a two-fold (C2) internal symmetry. These closed structures provide an internal structural limitation for the subsequent growth of the repeat number. Frequently, the units “swap” their secondary structure elements with each other. Moreover, the duplicated domains, in contrast to other tandem repeat proteins, form binding sites for small molecules around the axis of C2 symmetry. Thus, the closure of the C2 structures and the emergence of new functional sites around the axis of C2 symmetry provide plausible explanations for why a repeat, once appeared, becomes fixed in the evolutionary process. We have placed these structures within the general structural classification of tandem repeat proteins, classifying them as either Class IV or V depending on the size of the repetitive unit.

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为什么第一个重复的蛋白质经常成为唯一一个?

具有两个相似基序串联的蛋白质是串联重复蛋白质最常见的情况之一。问题来了：为什么第一个出现的重复序列在进化过程中经常被固定，尽管有足够的机会在DNA水平上继续繁殖？为了回答这个问题，我们系统地分析了这些蛋白质的结构和功能。我们的分析表明，在绝大多数情况下，结构重复单元具有双重（C2）内部对称性。这些封闭结构为重复数的后续增长提供了内部结构限制。这些单元经常相互“交换”它们的二级结构元素。此外，与其他串联重复蛋白相比，重复结构域在C2对称轴周围形成小分子的结合位点。因此，C2结构的闭合和C2对称轴周围新功能位点的出现，为为什么重复一旦出现，就会在进化过程中变得固定提供了合理的解释。我们将这些结构置于串联重复蛋白的一般结构分类中，根据重复单元的大小将其分类为IV类或V类。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of structural biology 生物-生化与分子生物学

CiteScore

6.30

自引率

3.30%

发文量

审稿时长

65 days

期刊介绍： Journal of Structural Biology (JSB) has an open access mirror journal, the Journal of Structural Biology: X (JSBX), sharing the same aims and scope, editorial team, submission system and rigorous peer review. Since both journals share the same editorial system, you may submit your manuscript via either journal homepage. You will be prompted during submission (and revision) to choose in which to publish your article. The editors and reviewers are not aware of the choice you made until the article has been published online. JSB and JSBX publish papers dealing with the structural analysis of living material at every level of organization by all methods that lead to an understanding of biological function in terms of molecular and supermolecular structure. Techniques covered include: • Light microscopy including confocal microscopy • All types of electron microscopy • X-ray diffraction • Nuclear magnetic resonance • Scanning force microscopy, scanning probe microscopy, and tunneling microscopy • Digital image processing • Computational insights into structure