合成最小细胞的概念:信息分子、代谢途径和囊泡繁殖。

IF 1.6 Q4 BIOPHYSICS
Biophysics and physicobiology Pub Date : 2023-12-19 eCollection Date: 2024-01-01 DOI:10.2142/biophysico.bppb-v21.0002
Minoru Kurisu, Masayuki Imai
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引用次数: 0

摘要

生命系统是如何从非生命分子组合体中产生的?是什么物理和化学原理支持了这一过程?为了解决这些问题,一种很有前途的策略是以自下而上的方式人工重构活细胞。最近,作者开发了 "合成最小细胞 "系统,该系统显示了递归生长和分裂周期,信息分子、新陈代谢途径和细胞繁殖等概念都是通过基于囊泡的系统人为地、简洁地重新设计的。我们有意避免使用生物细胞中复杂的分子机制,而试图以最简单的形式重新设计细胞。本综述将重点讨论生物细胞与我们合成的最小细胞在细胞的各个概念上的异同。自然细胞和人工细胞之间的这种比较将为合成生物学、人工细胞和原细胞研究领域的广大读者提供有关如何组装分子以创建生命系统的见解。本评论文章是发表于《SEIBUTSU-BUTSURI》第 61 卷第 378-381 页(2021 年)的日文文章 "与信息分子耦合的囊泡的生长和分裂 "的扩展版。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Concepts of a synthetic minimal cell: Information molecules, metabolic pathways, and vesicle reproduction.

How do the living systems emerge from non-living molecular assemblies? What physical and chemical principles supported the process? To address these questions, a promising strategy is to artificially reconstruct living cells in a bottom-up way. Recently, the authors developed the "synthetic minimal cell" system showing recursive growth and division cycles, where the concepts of information molecules, metabolic pathways, and cell reproduction were artificially and concisely redesigned with the vesicle-based system. We intentionally avoided using the sophisticated molecular machinery of the biological cells and tried to redesign the cells in the simplest forms. This review focuses on the similarities and differences between the biological cells and our synthetic minimal cell concerning each concept of cells. Such comparisons between natural and artificial cells will provide insights on how the molecules should be assembled to create living systems to the wide readers in the field of synthetic biology, artificial cells, and protocells research. This review article is an extended version of the Japanese article "Growth and division of vesicles coupled with information molecules," published in SEIBUTSU-BUTSURI vol. 61, p. 378-381 (2021).

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