由多肽组成的新型催化生物分子的理论框架

IF 1.5 4区 医学 Q4 CHEMISTRY, MEDICINAL
Akihiro Ambo, Shiho Ohno, Yoshiki Yamaguchi, Masayuki Seki
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引用次数: 0

摘要

以蛋白质为基础的酶是地球上最有效的催化剂之一。蛋白质酶的一个共同特点是,所有催化氨基酸都占据有限的狭窄空间,并且相互面对。在这项研究中,我们创造了一种理论上新颖的生物仿生分子,其中含有不同的多重催化肽。虽然单一肽的催化效率远低于蛋白酶,但含有八种不同肽的章鱼臂模拟生物分子(Octopuzymes)却能高效催化有机反应。由于现存蛋白酶、基于基因组数据预测的酶以及人工设计的酶的结构信息均可用于设计 Octopuzymes,因此理论上它们可以模拟地球上所有的蛋白酶反应。此外,除了 L-氨基酸外,肽还可以含有 D-氨基酸、非天然氨基酸、化学修饰氨基酸、核苷酸、维生素和人造催化剂,与现存的蛋白质酶相比,催化空间大大扩展。一旦确定了八肽酶催化的反应,就可以通过在八肽酶的八条肽上进行多种氨基酸置换而迅速进化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theoretical Framework for Novel Catalytic Biomolecules Composed of Multiple Peptides

Protein-based enzymes are among the most efficient catalysts on our planet. A common feature of protein enzymes is that all catalytic amino acids occupy a limited, narrow space and face each other. In this study, we created a theoretical novel biomimetic molecule containing different multiple catalytic peptides. Although single peptides are far less catalytically efficient than protein enzymes, Octopus-arms-mimicking biomolecules containing eight different peptides (Octopuzymes) can efficiently catalyze organic reactions. Since structural information for extant protein enzymes, predicted enzymes based on genome data, and artificially designed enzymes is available for designing Octopuzymes, they could in theory mimic all protein enzyme reactions on our planet. Moreover, besides L-amino acids, peptides can contain D-amino acids, non-natural amino acids, chemically modified amino acids, nucleotides, vitamins, and manmade catalysts, leading to a huge expansion of catalytic space compared with extant protein enzymes. Once a reaction catalyzed by an Octopuzyme is defined, it could be rapidly evolvable via multiple amino acid substitutions on the eight peptides of Octopuzymes.

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来源期刊
CiteScore
3.20
自引率
5.90%
发文量
132
审稿时长
1.7 months
期刊介绍: The CPB covers various chemical topics in the pharmaceutical and health sciences fields dealing with biologically active compounds, natural products, and medicines, while BPB deals with a wide range of biological topics in the pharmaceutical and health sciences fields including scientific research from basic to clinical studies. For details of their respective scopes, please refer to the submission topic categories below. Topics: Organic chemistry In silico science Inorganic chemistry Pharmacognosy Health statistics Forensic science Biochemistry Pharmacology Pharmaceutical care and science Medicinal chemistry Analytical chemistry Physical pharmacy Natural product chemistry Toxicology Environmental science Molecular and cellular biology Biopharmacy and pharmacokinetics Pharmaceutical education Chemical biology Physical chemistry Pharmaceutical engineering Epidemiology Hygiene Regulatory science Immunology and microbiology Clinical pharmacy Miscellaneous.
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