Designed Complex Peptide-Based Adaptive Systems: A Bottom-Up Approach

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY ChemSystemsChem Pub Date : 2022-11-03 DOI:10.1002/syst.202200040
Dr. Salma Kassem, Prof. Dr. Rein V. Ulijn
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引用次数: 1

Abstract

Systems chemistry represents a shift from studying molecules in isolation to studying the collective behavior of mixtures or ensembles of reacting and interacting molecules. This research direction provides new ways to build and understand collective chemical properties and emergent functions that are inaccessible using conventional, reductionist, chemistry approaches. This field exemplifies fundamental connections between chemistry and biology, and has the potential to give rise to completely new ways for chemists to approach and resolve wide-ranging issues related to all aspects of living systems, that themselves are complex systems. Short peptides, while simple in design, carry rich and versatile information encoded in sequence specific side-chain interactions, that makes it possible to access a high level of complex, information rich systems with emergent properties from Life's simplified building blocks. This review focuses on recent developments in the synthesis of complex adaptive systems based on peptides, where multiple components are designed to cooperatively interact, react and collectively adapt to their context.

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设计复杂的基于肽的自适应系统:一种自下而上的方法
系统化学代表了从研究孤立分子到研究反应和相互作用分子的混合物或集合的集体行为的转变。这个研究方向提供了新的方法来构建和理解集体化学性质和紧急功能,这是使用传统的还原论化学方法无法实现的。该领域体现了化学和生物学之间的基本联系,并有可能为化学家提供全新的方法来处理和解决与生命系统各个方面相关的广泛问题,而生命系统本身就是复杂的系统。短肽,虽然设计简单,携带丰富的和通用的信息编码在序列特定的侧链相互作用,这使得有可能访问一个高层次的复杂的,信息丰富的系统,从生命的简化构建块的紧急属性。本文综述了基于多肽的复杂适应系统合成的最新进展,其中多个组分被设计为协同相互作用,反应和集体适应其环境。
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