Dependence of α-helical and β-sheet amino acid propensities on the overall protein fold type

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology
Kazuo Fujiwara, Hiromi Toda, Masamichi Ikeguchi
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引用次数: 132

Abstract

A large number of studies have been carried out to obtain amino acid propensities for α-helices and β-sheets. The obtained propensities for α-helices are consistent with each other, and the pair-wise correlation coefficient is frequently high. On the other hand, the β-sheet propensities obtained by several studies differed significantly, indicating that the context significantly affects β-sheet propensity.

We calculated amino acid propensities for α-helices and β-sheets for 39 and 24 protein folds, respectively, and addressed whether they correlate with the fold. The propensities were also calculated for exposed and buried sites, respectively. Results showed that α-helix propensities do not differ significantly by fold, but β-sheet propensities are diverse and depend on the fold. The propensities calculated for exposed sites and buried sites are similar for α-helix, but such is not the case for the β-sheet propensities. We also found some fold dependence on amino acid frequency in β-strands. Folds with a high Ser, Thr and Asn content at exposed sites in β-strands tend to have a low Leu, Ile, Glu, Lys and Arg content (correlation coefficient = ?0.90) and to have flat β-sheets. At buried sites in β-strands, the content of Tyr, Trp, Gln and Ser correlates negatively with the content of Val, Ile and Leu (correlation coefficient = ?0.93). "All-β" proteins tend to have a higher content of Tyr, Trp, Gln and Ser, whereas "α/β" proteins tend to have a higher content of Val, Ile and Leu.

The α-helix propensities are similar for all folds and for exposed and buried residues. However, β-sheet propensities calculated for exposed residues differ from those for buried residues, indicating that the exposed-residue fraction is one of the major factors governing amino acid composition in β-strands. Furthermore, the correlations we detected suggest that amino acid composition is related to folding properties such as the twist of a β-strand or association between two β sheets.

Abstract Image

α-螺旋和β-片状氨基酸倾向对蛋白质整体折叠类型的依赖性
为了获得α-螺旋和β-片的氨基酸倾向,已经进行了大量的研究。所得的α-螺旋倾向是一致的,成对相关系数往往很高。另一方面,几项研究得出的β-sheet倾向差异显著,表明环境对β-sheet倾向有显著影响。我们分别计算了39个和24个蛋白质折叠中α-螺旋和β-片的氨基酸倾向,并研究了它们是否与折叠相关。还分别计算了暴露点和埋藏点的倾向性。结果表明,α-螺旋倾向在不同褶皱间差异不显著,而β-薄片倾向在不同褶皱间存在差异。α-螺旋结构的暴露点和埋藏点的倾向相似,而β-薄片结构的倾向则不同。我们还发现β-链的氨基酸频率有一定的倍数依赖性。β-链暴露位点Ser、Thr和Asn含量高的褶皱往往具有较低的Leu、Ile、Glu、Lys和Arg含量(相关系数= 0.90),并具有平坦的β-片。在β-链的埋藏位点,Tyr、Trp、Gln和Ser含量与Val、Ile和Leu含量呈负相关(相关系数= 0.93)。“全-β”蛋白具有较高的Tyr、Trp、Gln和Ser含量,而“α/β”蛋白具有较高的Val、Ile和leu含量,所有褶皱以及暴露和掩埋残基的α-螺旋倾向相似。然而,暴露残留物的β-薄片倾向与埋藏残留物的β-薄片倾向不同,这表明暴露残留物分数是决定β-链氨基酸组成的主要因素之一。此外,我们检测到的相关性表明,氨基酸组成与折叠特性有关,如β链的扭曲或两个β片之间的关联。
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
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
发文量
0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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