芯片上核糖体亚基的自主合成与组装。

Autonomous synthesis and assembly of a ribosomal subunit on a chip.

作者信息

Levy Michael, Falkovich Reuven, Daube Shirley S, Bar-Ziv Roy H

机构信息

Department of Chemical and Biological Physics Weizmann Institute of Science, Rehovot 7610001, Israel.

出版信息

Sci Adv. 2020 Apr 15;6(16):eaaz6020. doi: 10.1126/sciadv.aaz6020. eCollection 2020 Apr.

DOI:10.1126/sciadv.aaz6020

PMID:32494616

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7159907/

Abstract

Ribosome biogenesis is an efficient and complex assembly process that has not been reconstructed outside a living cell so far, yet is the most critical step for establishing a self-replicating artificial cell. We recreated the biogenesis of small ribosomal subunit by synthesizing and capturing all its ribosomal proteins and RNA on a chip. Surface confinement provided favorable conditions for autonomous stepwise assembly of new subunits, spatially segregated from original intact ribosomes. Our real-time fluorescence measurements revealed hierarchal assembly, cooperative interactions, unstable intermediates, and specific binding to large ribosomal subunits. Using only synthetic genes, our methodology is a crucial step toward creation of a self-replicating artificial cell and a general strategy for the mechanistic investigation of diverse multicomponent macromolecular machines.

摘要

核糖体生物合成是一个高效且复杂的组装过程，迄今为止尚未在活细胞外重建，但它是建立自我复制人工细胞的最关键步骤。我们通过在芯片上合成并捕获小核糖体亚基的所有核糖体蛋白和RNA，重现了小核糖体亚基的生物合成过程。表面限制为新亚基的自主逐步组装提供了有利条件，使其与原始完整核糖体在空间上分离。我们的实时荧光测量揭示了分层组装、协同相互作用、不稳定中间体以及与大核糖体亚基的特异性结合。仅使用合成基因，我们的方法是朝着创建自我复制人工细胞迈出的关键一步，也是对多种多组分大分子机器进行机理研究的通用策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bcd/7159907/7c5f4a8c9460/aaz6020-F1.jpg

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芯片上核糖体亚基的自主合成与组装。

Autonomous synthesis and assembly of a ribosomal subunit on a chip.

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