Author: Li, Jiacheng; Ma, Xiaoliang; Zhang, Hongchi; Hou, Chengyu; Shi, Liping; Guo, Shuai; Liao, Chenchen; Zheng, Bing; Ye, Lin; Yang, Lin; He, Xiaodong
Title: The role of hydrophobic interactions in folding of $\beta$-sheets Cord-id: 8nflpnmh Document date: 2020_9_16
ID: 8nflpnmh
Snippet: Exploring the protein-folding problem has been a long-standing challenge in molecular biology. Protein folding is highly dependent on folding of secondary structures as the way to pave a native folding pathway. Here, we demonstrate that a feature of a large hydrophobic surface area covering most side-chains on one side or the other side of adjacent $\beta$-strands of a $\beta$-sheet is prevail in almost all experimentally determined $\beta$-sheets, indicating that folding of $\beta$-sheets is mo
Document: Exploring the protein-folding problem has been a long-standing challenge in molecular biology. Protein folding is highly dependent on folding of secondary structures as the way to pave a native folding pathway. Here, we demonstrate that a feature of a large hydrophobic surface area covering most side-chains on one side or the other side of adjacent $\beta$-strands of a $\beta$-sheet is prevail in almost all experimentally determined $\beta$-sheets, indicating that folding of $\beta$-sheets is most likely triggered by multistage hydrophobic interactions among neighbored side-chains of unfolded polypeptides, enable $\beta$-sheets fold reproducibly following explicit physical folding codes in aqueous environments. $\beta$-turns often contain five types of residues characterized with relatively small exposed hydrophobic proportions of their side-chains, that is explained as these residues can block hydrophobic effect among neighbored side-chains in sequence. Temperature dependence of the folding of $\beta$-sheet is thus attributed to temperature dependence of the strength of the hydrophobicity. The hydrophobic-effect-based mechanism responsible for $\beta$-sheets folding is verified by bioinformatics analyses of thousands of results available from experiments. The folding codes in amino acid sequence that dictate formation of a $\beta$-hairpin can be deciphered through evaluating hydrophobic interaction among side-chains of an unfolded polypeptide from a $\beta$-strand-like thermodynamic metastable state.
Search related documents:
Co phrase search for related documents- Try single phrases listed below for: 1
Co phrase search for related documents, hyperlinks ordered by date