重新审视 310-螺旋:生物学意义、仿生学和应用

Diego Núñez-Villanueva
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摘要

310 螺旋是二级结构蛋白质中含量第三高的结构。数十年来,310-螺旋结构一直被α-螺旋所掩盖,但它在蛋白质科学中的重要性正在慢慢恢复。过去十年的研究报告强调了这种二级结构在生物过程中的关键作用。此外,310-螺旋被认为是蛋白质折叠的关键中间体,也是天然七叶皂苷抗菌活性的关键结构。因此,310-螺旋显然是生物仿生学领域需要考虑的相关支架。在此背景下,本综述涵盖了为稳定肽链中的 310 螺旋结构而开发的策略,从加入受限氨基酸到订书机方法。最后一部分讨论了如何利用 310 螺旋作为支架,开发生物活性化合物、对映选择反应催化剂、超分子受体和膜嵌入式信号转换器。本研究旨在强调 310 螺旋在化学生物学和蛋白质科学中的相关性(有时被低估),为开发具有广泛潜在应用的功能生物仿生学提供工具。
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Revisiting 310-helices: biological relevance, mimetics and applications
310-Helices represent the third most abundant secondary structure proteins. Although understandably overshadowed by α-helices for decades, the 310-helix structure is slowly regaining certain relevance in protein science. The key role of this secondary structure in biological processes has been highlighted in reports over the last decade. In addition, 310-helices are considered key intermediates in protein folding as well as a crucial structure for the antimicrobial activity of naturally occurring peptaibols. Thus, it is clear that 310-helices are relevant scaffolds to take into consideration in the field of biomimetics. In this context, this review covers the strategies developed to stabilize the 310-helix structure in peptide chains, from the incorporation of constrained amino acids to stapling methodologies. In the last section, the use of 310-helices as scaffolds of interest in the development of bioactive compounds, catalysts for enantioselective reactions, supramolecular receptors, and membrane-embedded signal transducers are discussed. The present work aims to highlight the relevance, sometimes underestimated, of 310-helices in chemical biology and protein science, providing the tools to develop functional biomimetics with a wide range of potential applications.
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