Engineering a Synthetic RNA Segregation System

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY ChemSystemsChem Pub Date : 2023-01-22 DOI:10.1002/syst.202200028

Dr. Daniel Hürtgen, Dr. Judita Mascarenhas, Dr. Mahesh A. Vibhute, Laura I. Weise, Viktoria S. Mayr, Prof. Dr. Victor Sourjik, Prof. Dr. Hannes Mutschler

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Abstract

Cells possess a number of active segregation machineries for both chromosomal and large extrachromosomal DNA elements to avoid stochastic loss during cell division. In contrast, system that can be exploited for active, general segregation of RNA molecules including mRNAs or self-replicating RNA constructs are currently lacking. Here, we present an artificial RNA segregation system derived from the bacterial type II ParMRC plasmid segregation system and the RNA coliphage MS2. We show that fusing the partition protein ParR with the MS2 RNA coat protein enables specific binding to microbeads decorated with RNA-repeats of the archetypical MS2 RNA operator hairpin. Addition of the actin homologue ParM protein triggers efficient and rapid microbeads segregation via ATP-dependent ParM polymerization. Our new RNA partitioning system could be used for specific localization of mRNAs and/or the stable maintenance of self-replicating RNA vectors in various contexts such as living and artificial cells.

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构建合成RNA分离系统

细胞对染色体和大的染色体外DNA元件具有许多主动分离机制，以避免细胞分裂过程中的随机丢失。相比之下，目前缺乏可用于RNA分子(包括mrna或自我复制RNA构建物)的活性、一般分离的系统。在这里，我们提出了一种人工RNA分离系统，该系统来源于细菌II型ParMRC质粒分离系统和RNA噬菌体MS2。我们发现，将分割蛋白ParR与MS2 RNA外壳蛋白融合，可以与带有典型MS2 RNA操作员发夹的RNA重复序列修饰的微珠特异性结合。加入肌动蛋白同源物ParM蛋白通过atp依赖的ParM聚合触发高效和快速的微珠分离。我们的新RNA分配系统可用于mrna的特异性定位和/或在各种环境下(如活细胞和人工细胞)稳定维持自我复制的RNA载体。

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来源期刊

ChemSystemsChem

CiteScore

7.00

自引率

0.00%

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