Molecular flexibility in computational protein design: an algorithmic perspective

Younes Bouchiba; Juan Cortés; Thomas Schiex; Sophie Barbe

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Molecular flexibility in computational protein design: an algorithmic perspective

机译：计算蛋白质设计中的分子柔韧性：算法视角

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Computational protein design (CPD) is a powerful technique for engineering new proteins, with both great fundamental implications and diverse practical interests. However, the approximations usually made for computational efficiency, using a single fixed backbone and a discrete set of side chain rotamers, tend to produce rigid and hyper-stable folds that may lack functionality. These approximations contrast with the demonstrated importance of molecular flexibility and motions in a wide range of protein functions. The integration of backbone flexibility and multiple conformational states in CPD, in order to relieve the inaccuracies resulting from these simplifications and to improve design reliability, are attracting increased attention. However, the greatly increased search space that needs to be explored in these extensions deffnes extremely challenging computational problems. In this review, we outline the principles of CPD and discuss recent effort in algorithmic developments for incorporating molecular flexibility in the design process.

机译：计算蛋白质设计（CPD）是一种强大的蛋白质工程技术，具有重要的基础意义和广泛的实用价值。然而，为了提高计算效率，通常使用单个固定主干和一组离散的侧链转子流量计进行近似，往往会产生刚性和超稳定的褶皱，可能缺乏功能性。这些近似值与在广泛的蛋白质功能中证明的分子柔性和运动的重要性形成对比。在CPD中集成主链柔性和多个构象状态，以减轻这些简化带来的不精确性，并提高设计可靠性，正受到越来越多的关注。然而，在这些扩展中需要探索的搜索空间大大增加，这就解决了极具挑战性的计算问题。在这篇综述中，我们概述了CPD的原理，并讨论了在设计过程中结合分子灵活性的算法开发的最新成果。

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来源
《Protein engineering design & selection: PEDS》 |2021年第1期|共7页
作者
Younes Bouchiba; Juan Cortés; Thomas Schiex; Sophie Barbe;
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作者单位

Toulouse Biotechnology Institute TBI CNRS INRAE INSA ANITI Toulouse 31400 France;

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原文格式 PDF
正文语种 eng
中图分类蛋白质（朊）化学加工工业;
关键词
backbone perturbations; computational protein design; continuous flexibility; multistate design; provable and heuristic algorithms;

机译：骨干扰动;计算蛋白质设计;连续灵活性;多态设计;可提供的和启发式算法;

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机译：塑料蛋白质设计：一种使用骨干和侧链组件来模拟蛋白质灵活性的新颖设计算法
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机译：使用灵活的骨干计算蛋白质设计预测蛋白质-蛋白质界面序列的多样性
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机译：使用灵活的主链重塑和重铺表面的计算蛋白质设计：基于结构的抗原设计中的案例研究。
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机译：一种柔性蛋白质 - 蛋白质和蛋白质DNA对接的计算系统
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机译：蛋白质晶体的计算设计：通过蛋白质工程控制宏观分子取向。
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机译：基于高效的基于组合的计算蛋白设计及其应用于C-RAF-RBD的重新设计的新颖可提供的算法：KRAS蛋白蛋白界面
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机译：用于计算蛋白质设计的新力场和算法

Molecular flexibility in computational protein design: an algorithmic perspective

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