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Phase separation modulates the assembly and dynamics of a polarity-related scaffold-signaling hub

Wei Tan, Sihua Cheng, Yingying Li, Xiaoyang Li, Ning Lü, Jingxian Sun, Guiyue Tang, Yujiao Yang, Kezhu Cai, Xuefei Li, Xijun Ou, Xiang Gao, Guoping Zhao, W. Seth Childers, Wei Zhao

2022Nature Communications45 citationsDOIOpen Access PDF

Abstract

Asymmetric cell division (ACD) produces morphologically and behaviorally distinct cells and is the primary way to generate cell diversity. In the model bacterium Caulobacter crescentus, the polarization of distinct scaffold-signaling hubs at the swarmer and stalked cell poles constitutes the basis of ACD. However, mechanisms involved in the formation of these hubs remain elusive. Here, we show that a swarmer-cell-pole scaffold, PodJ, forms biomolecular condensates both in vitro and in living cells via phase separation. The coiled-coil 4-6 and the intrinsically disordered regions are the primary domains that contribute to biomolecular condensate generation and signaling protein recruitment in PodJ. Moreover, a negative regulation of PodJ phase separation by the stalked-cell-pole scaffold protein SpmX is revealed. SpmX impedes PodJ cell-pole accumulation and affects its recruitment ability. Together, by modulating the assembly and dynamics of scaffold-signaling hubs, phase separation may serve as a general biophysical mechanism that underlies the regulation of ACD in bacteria and other organisms.

Topics & Concepts

Caulobacter crescentusScaffold proteinScaffoldAsymmetric cell divisionCell biologyCell polaritySignal transductionBiologyCell signalingCellCell divisionChemistryCell cycleBiochemistryMedicineBiomedical engineeringBacteriophages and microbial interactionsRNA Research and SplicingBacterial Genetics and Biotechnology