Prediction of fragile points of coiled coils

IF 0.4 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Hideki Tanizawa, M. Taniguchi, Ganga D. Ghimire, S. Mitaku
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引用次数: 4

Abstract

A prediction system for identifying the region of flexible regions of the coiled coil was developed to determine the bending positions of the myosin rods using atomic force microscopy (AFM) and to analyze the molecular structures of proteins containing coiled coils. The prediction system comprises two modules: identification of heptad break points and prediction of fragile points in the coiled coil due to the hydrophilic core or hydrophobic outfield region. Here, we investigated the myosin rods using this prediction system. The results of AFM imaging showed four main flexible regions in a single myosin rod and of the 17 possible fragile points predicted, 16 were located in the four experimental bending regions. Next, we examined the enhanced fluctuation around these predicted fragile points using the B-factor for the three dimensional structure of coiled coil proteins from the SCOP database and found that the fluctuations in the hydrophilic core regions were significantly larger than those in the regions of the normal coiled coil. In contrast, the fluctuations in the hydrophobic outfield regions were reduced, suggesting a structural change of the coiled coils to balance these regions. Thus, the dynamic changes in the structure of the coiled coils around the fragile points may be related to the biological functions of the proteins. The prediction tool which developed in this work was incorporated in the SOSUIcoil system which predicts the coiled coil regions.
卷材易碎点预测
为了利用原子力显微镜(AFM)确定肌球蛋白棒的弯曲位置,并分析含有卷曲线圈的蛋白质的分子结构,开发了一种用于确定卷曲线圈柔性区域区域的预测系统。该预测系统包括两个模块:七轴断裂点的识别和由于亲水性核心或疏水性外场区导致的线圈脆性点的预测。在这里,我们使用这个预测系统来研究肌凝蛋白棒。AFM成像结果显示单个肌球蛋白棒有四个主要的柔性区域,在预测的17个可能的脆性点中,有16个位于四个实验弯曲区域。接下来,我们使用来自SCOP数据库的螺旋状线圈蛋白三维结构的b因子检查了这些预测脆弱点周围的增强波动,发现亲水性核心区域的波动明显大于正常螺旋状线圈区域的波动。相比之下,疏水外场区域的波动减小,表明线圈的结构变化以平衡这些区域。因此,脆性点周围线圈结构的动态变化可能与蛋白质的生物学功能有关。本工作开发的预测工具被纳入SOSUIcoil系统,用于预测线圈区域。
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
Chem-Bio Informatics Journal
Chem-Bio Informatics Journal BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
0.60
自引率
0.00%
发文量
8
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