在受到亚致死性抗生素治疗挑战时，胞质拥挤驱动基因组和胞质的动态变化。

Cytosolic Crowding Drives the Dynamics of Both Genome and Cytosol in Challenged with Sub-lethal Antibiotic Treatments.

作者信息

Wlodarski Michal, Mancini Leonardo, Raciti Bianca, Sclavi Bianca, Lagomarsino Marco Cosentino, Cicuta Pietro

机构信息

Biological and Soft Systems, Cavendish Laboratory, University of Cambridge, Cambridge, UK.

Dipartimento di Fisica and I.N.F.N., Università degli Studi di Milano, Via Celoria 16, 20133 Milano, Italy.

出版信息

iScience. 2020 Sep 15;23(10):101560. doi: 10.1016/j.isci.2020.101560. eCollection 2020 Oct 23.

DOI:10.1016/j.isci.2020.101560

PMID:33083729

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7522891/

Abstract

In contrast to their molecular mode of action, the system-level effect of antibiotics on cells is only beginning to be quantified. Molecular crowding is expected to be a relevant global regulator, which we explore here through the dynamic response phenotypes in , at single-cell resolution, under sub-lethal regimes of different classes of clinically relevant antibiotics, acting at very different levels in the cell. We measure chromosomal mobility through tracking of fast (<15 s timescale) fluctuations of fluorescently tagged chromosomal loci, and we probe the fluidity of the cytoplasm by tracking cytosolic aggregates. Measuring cellular density, we show how the overall levels of macromolecular crowding affect both quantities, regardless of antibiotic-specific effects. The dominant trend is a strong correlation between the effects in different parts of the chromosome and between the chromosome and cytosol, supporting the concept of an overall global role of molecular crowding in cellular physiology.

摘要

与抗生素的分子作用模式不同，抗生素对细胞的系统水平影响才刚刚开始被量化。分子拥挤预计是一个相关的全局调节因子，我们在此通过在单细胞分辨率下，在不同类别临床相关抗生素的亚致死剂量条件下，研究其动态反应表型来进行探索，这些抗生素在细胞中作用于非常不同的水平。我们通过追踪荧光标记染色体位点的快速（<15秒时间尺度）波动来测量染色体迁移率，并通过追踪胞质聚集体来探测细胞质的流动性。通过测量细胞密度，我们展示了大分子拥挤的总体水平如何影响这两个量，而与抗生素的特异性效应无关。主要趋势是染色体不同部分的效应之间以及染色体与细胞质之间存在强烈的相关性，这支持了分子拥挤在细胞生理学中具有整体全局作用的概念。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42d3/7522891/650a0d4ef274/fx1.jpg

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在受到亚致死性抗生素治疗挑战时，胞质拥挤驱动基因组和胞质的动态变化。

Cytosolic Crowding Drives the Dynamics of Both Genome and Cytosol in Challenged with Sub-lethal Antibiotic Treatments.

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