The interplay between the polar growth determinant DivIVA, the segregation protein ParA, and their novel interaction partner PapM controls the Mycobacterium smegmatis cell cycle by modulation of DivIVA subcellular distribution

The interplay between the polar growth determinant DivIVA, the segregation protein ParA, and their novel interaction partner PapM controls the Mycobacterium smegmatis cell cycle by modulation of DivIVA subcellular distribution

The genus of includes important clinical pathogens ( ). Bacteria of this genus share the unusual features of their cell cycle such as asymmetric polar cell elongation and long generation time. Markedly, control of the mycobacterial cell cycle still remains not fully understood. The main cell growth...

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Published in:Microbiology spectrum Vol. 11; no. 6; p. e0175223
Main Authors: Matusiak, Izabela, Strzałka, Agnieszka, Wadach, Patrycja, Gongerowska-Jac, Martyna, Szwajczak, Ewa, Szydłowska-Helbrych, Aleksandra, Kepplinger, Bernhard, Pióro, Monika, Jakimowicz, Dagmara
Format: Journal Article
Language:English
Published: United States American Society for Microbiology 12-12-2023
Subjects:
chromosome segregation
Genetics and Molecular Biology
mycobacteria
ParA
polar growth
Research Article
chromosome segregation
ParA
mycobacteria
polar growth
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Summary:The genus of includes important clinical pathogens ( ). Bacteria of this genus share the unusual features of their cell cycle such as asymmetric polar cell elongation and long generation time. Markedly, control of the mycobacterial cell cycle still remains not fully understood. The main cell growth determinant in mycobacteria is the essential protein DivIVA, which is also involved in cell division. DivIVA activity is controlled by phosphorylation, but the mechanism and significance of this process are unknown. Here, we show how the previously established protein interaction partner of DivIVA in mycobacteria, the segregation protein ParA, affects the DivIVA subcellular distribution. We also demonstrate the role of a newly identified DivIVA and ParA interaction partner, a protein named PapM, and we establish how their interactions are modulated by phosphorylation. Demonstrating that the tripartite interplay affects the mycobacterial cell cycle contributes to the general understanding of mycobacterial growth regulation.
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The authors declare no conflict of interest.
ISSN:2165-0497
2165-0497
DOI:10.1128/spectrum.01752-23