Design of artificial cells: artificial biochemical systems, their thermodynamics and kinetics properties

Egyptian Journal of Basic and Applied Sciences Pub Date : 2022-08-07 DOI:10.1080/2314808X.2022.2104071

A. Ugya, Lin Pohan, Qifeng Wang, K. Meguellati

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引用次数: 1

Abstract

ABSTRACT From the top-down view, an organism is constituted by an assembly of cells where a network of molecules interacts to create a regulated complex system. Cells are a universe of molecular interactions maintained under non-equilibrium regimes. The complex network of interactions drives life where DNA and epigenetic signals are considered as the memory of a cell. The full understanding of these interactions is the first step toward the design of artificial synthetic pathways controlling a program. In our review, we present some insights into the different methods and designs applicable for the development of synthetic artificial cells. A self-replicative process of these cells, thermodynamic and kinetic features, as well as equilibrium systems of artificial cells, will enable scientists to have an in-depth knowledge of this domain. Furthermore, the cascade of encoded molecular chemical interactions orchestrated by the genetic program DNA, biomolecules, epigenetic signals, and nano-factory modulation will be discussed in terms of their application in the entire set of interactomes within a cell.

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人造细胞的设计:人造生化系统及其热力学和动力学性质

从自上而下的观点来看，生物体是由细胞集合构成的，其中分子网络相互作用创造了一个受调节的复杂系统。细胞是维持在非平衡状态下的分子相互作用的宇宙。复杂的相互作用网络驱动着生命，其中DNA和表观遗传信号被认为是细胞的记忆。充分理解这些相互作用是设计控制程序的人工合成途径的第一步。在本文的综述中，我们对适用于合成人工细胞的不同方法和设计提出了一些见解。这些细胞的自我复制过程，热力学和动力学特征，以及人工细胞的平衡系统，将使科学家对这一领域有深入的了解。此外，由遗传程序DNA、生物分子、表观遗传信号和纳米工厂调制编排的编码分子化学相互作用的级联将讨论它们在细胞内整个相互作用组中的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Egyptian Journal of Basic and Applied Sciences

CiteScore

2.20

自引率

0.00%

发文量