Chemical Mechanisms and Biological Effects of Chiral Nanomaterials

IF 14 Q1 CHEMISTRY, MULTIDISCIPLINARY
Gaoyang Wang, Aihua Qu, Maozhong Sun, Jun Xu, Hua Kuang
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引用次数: 0

Abstract

Chirality exerts significant roles in biological systems and physiological processes; amino acids, sugars, peptides with multilevel structures, macromolecular proteins, and nucleic acids are all known to exhibit a single chiral structure. The characteristics of intrinsic chirality in a biological system determine the specificity of interactions between biomolecules and also influence a series of key processes in biological systems. Consequently, investigating chirality and the biogenesis of life is critical if we are to understand how the human body works. Although the influential role of chiral materials on biological processes has been investigated for several decades, the specific relationships between chirality and biological functionality have yet to be determined. In order to elucidate the specific role played by chirality in living processes, researchers have tended to focus on three essential aspects: (1) the origin of chirality and breaking the symmetry of life; (2) the amplification of chirality and the realization of high levels of homogeneous chirality in living systems, and (3) chirality transfer mechanisms in vivo.

Abstract Image

手性纳米材料的化学机制和生物效应
手性在生物系统和生理过程中发挥着重要作用;氨基酸、糖类、具有多层次结构的肽类、大分子蛋白质和核酸都表现出单一的手性结构。生物系统的固有手性特征决定了生物分子之间相互作用的特异性,同时也影响着生物系统的一系列关键过程。因此,要想了解人体是如何工作的,研究手性和生命的生物起源至关重要。虽然手性材料对生物过程的影响作用已经研究了几十年,但手性与生物功能之间的具体关系仍有待确定。为了阐明手性在生命过程中的具体作用,研究人员倾向于关注三个重要方面:(1) 手性的起源和打破生命的对称性;(2) 手性的放大和在生命系统中实现高水平的同质手性;以及 (3) 手性在体内的传递机制。
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来源期刊
CiteScore
17.70
自引率
0.00%
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