基于位点定向蛋白质重组的蛋白质工程中断点位置选择优化算法。

Wei Zheng, Xiaoduan Ye, A. Friedman, C. Bailey-Kellogg
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引用次数: 11

摘要

通过位点定向重组的蛋白质工程,通过从一组同源亲本蛋白中积累多个突变,寻求开发具有新功能或改进功能的蛋白质。通过在指定的断点位置重组亲本蛋白,建立杂交蛋白库;随后的筛选/选择鉴定出具有理想功能特征的杂种。为了提高产生新杂交种的频率,本文开发了第一种明确规划位点定向重组多样性的方法,包括描述计划混合库多样性的指标和相应优化实验的有效算法。目标是在重组过程和给定父集的约束下,尽可能统一地选择断点位置来采样序列空间(我们认为这最大化了多样性)。动态规划方法在多项式时间内选择最优断点位置。我们的方法在一个生物合成酶(purE)的断点优化中的应用,证明了多样性优化的重要性和我们算法的有效性。
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Algorithms for selecting breakpoint locations to optimize diversity in protein engineering by site-directed protein recombination.
Protein engineering by site-directed recombination seeks to develop proteins with new or improved function, by accumulating multiple mutations from a set of homologous parent proteins. A library of hybrid proteins is created by recombining the parent proteins at specified breakpoint locations; subsequent screening/selection identifies hybrids with desirable functional characteristics. In order to improve the frequency of generating novel hybrids, this paper develops the first approach to explicitly plan for diversity in site-directed recombination, including metrics for characterizing the diversity of a planned hybrid library and efficient algorithms for optimizing experiments accordingly. The goal is to choose breakpoint locations to sample sequence space as uniformly as possible (which we argue maximizes diversity), under the constraints imposed by the recombination process and the given set of parents. A dynamic programming approach selects optimal breakpoint locations in polynomial time. Application of our method to optimizing breakpoints for an example biosynthetic enzyme, purE, demonstrates the significance of diversity optimization and the effectiveness of our algorithms.
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