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Phys Rev Lett ; 127(13): 138101, 2021 Sep 24.
Artigo em Inglês | MEDLINE | ID: mdl-34623846

RESUMO

The spatiotemporal organization of bacterial cells is crucial for the active segregation of replicating chromosomes. In several species, including Caulobacter crescentus, the ATPase ParA binds to DNA and forms a gradient along the long cell axis. The ParB partition complex on the newly replicated chromosome translocates up this ParA gradient, thereby contributing to chromosome segregation. A DNA-relay mechanism-deriving from the elasticity of the fluctuating chromosome-has been proposed as the driving force for this cargo translocation, but a mechanistic theoretical description remains elusive. Here, we propose a minimal model to describe force generation by the DNA-relay mechanism over a broad range of operational conditions. Conceptually, we identify four distinct force-generation regimes characterized by their dependence on chromosome fluctuations. These relay force regimes arise from an interplay of the imposed ParA gradient, chromosome fluctuations, and an emergent friction force due to chromosome-cargo interactions.


Assuntos
DNA Bacteriano/metabolismo , Modelos Biológicos , Adenosina Trifosfatases/genética , Adenosina Trifosfatases/metabolismo , Transporte Biológico , Caulobacter crescentus/genética , Caulobacter crescentus/metabolismo , Segregação de Cromossomos , Cromossomos Bacterianos , DNA Primase/química , DNA Primase/genética , DNA Primase/metabolismo , DNA Bacteriano/química , DNA Bacteriano/genética
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