预测蛋白质中的构象转换。
Predicting conformational switches in proteins.
作者信息
Young M, Kirshenbaum K, Dill K A, Highsmith S
机构信息
Department of Pharmaceutical Chemistry, University of California, San Francisco 94143-0446, USA.
出版信息
Protein Sci. 1999 Sep;8(9):1752-64. doi: 10.1110/ps.8.9.1752.
Abstract
We describe a new computational technique to predict conformationally switching elements in proteins from their amino acid sequences. The method, called ASP (Ambivalent Structure Predictor), analyzes results from a secondary structure prediction algorithm to identify regions of conformational ambivalence. ASP identifies ambivalent regions in 16 test protein sequences for which function involves substantial backbone rearrangements. In the test set, all sites previously described as conformational switches are correctly predicted to be structurally ambivalent regions. No such regions are predicted in three negative control protein sequences. ASP may be useful as a guide for experimental studies on protein function and motion in the absence of detailed three-dimensional structural data.
摘要
我们描述了一种新的计算技术,可从氨基酸序列预测蛋白质中的构象转换元件。该方法称为ASP(矛盾结构预测器),它分析二级结构预测算法的结果以识别构象矛盾区域。ASP在16个测试蛋白质序列中识别出矛盾区域,这些蛋白质的功能涉及大量主链重排。在测试集中,所有先前被描述为构象开关的位点都被正确预测为结构矛盾区域。在三个阴性对照蛋白质序列中未预测到此类区域。在缺乏详细三维结构数据的情况下,ASP可作为蛋白质功能和运动实验研究的指导。
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