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Arginine methylation sites on SepIVA help balance elongation and septation in <i>Mycobacterium smegmatis</i>

Angela H. Freeman, Karen Tembiwa, James R. Brenner, Michael R. Chase, Sarah M. Fortune, Yasu S. Morita, Cara C. Boutte

2022Molecular Microbiology15 citationsDOIOpen Access PDF

Abstract

The growth of mycobacterial cells requires successful coordination between elongation and septation. However, it is not clear which factors mediate this coordination. Here, we studied the function and post-translational modification of an essential division factor, SepIVA, in Mycobacterium smegmatis. We find that SepIVA is arginine methylated, and that alteration of its methylation sites affects both septation and polar elongation of Msmeg. Furthermore, we show that SepIVA regulates the localization of MurG and that this regulation may impact polar elongation. Finally, we map SepIVA's two regulatory functions to different ends of the protein: the N-terminus regulates elongation while the C-terminus regulates division. These results establish SepIVA as a regulator of both elongation and division and characterize a physiological role for protein arginine methylation sites for the first time in mycobacteria.

Topics & Concepts

Mycobacterium smegmatisBiologyElongationMethylationArginineCell biologyElongation factorRegulatorGeneticsDNAGeneAmino acidRNAMycobacterium tuberculosisPathologyMedicineRibosomeTuberculosisMetallurgyMaterials scienceUltimate tensile strengthCancer-related gene regulationBacterial Genetics and BiotechnologyRNA modifications and cancer