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Membrane-partitioned cell wall synthesis in mycobacteria

Alam García-Heredia, Takehiro Kado, Caralyn E Sein, Julia Puffal, Sarah H Osman, Julius Judd, Todd A Gray, Yasu S Morita, M Sloan Siegrist

2021eLife49 citationsDOIOpen Access PDF

Abstract

Many antibiotics target the assembly of cell wall peptidoglycan, an essential, heteropolymeric mesh that encases most bacteria. In rod-shaped bacteria, cell wall elongation is spatially precise yet relies on limited pools of lipid-linked precursors that generate and are attracted to membrane disorder. By tracking enzymes, substrates, and products of peptidoglycan biosynthesis in Mycobacterium smegmatis , we show that precursors are made in plasma membrane domains that are laterally and biochemically distinct from sites of cell wall assembly. Membrane partitioning likely contributes to robust, orderly peptidoglycan synthesis, suggesting that these domains help template peptidoglycan synthesis. The cell wall-organizing protein DivIVA and the cell wall itself promote domain homeostasis. These data support a model in which the peptidoglycan polymer feeds back on its membrane template to maintain an environment conducive to directional synthesis. Our findings are applicable to rod-shaped bacteria that are phylogenetically distant from M. smegmatis , indicating that horizontal compartmentalization of precursors may be a general feature of bacillary cell wall biogenesis.

Topics & Concepts

PeptidoglycanCell wallCompartmentalization (fire protection)Bacterial cell structureLipid IICell biologyCell membraneMembraneBiologyBacterial outer membraneCellCell envelopeBacteriaChemistryBiophysicsBiochemistryCellular compartmentPenicillin binding proteinsSecondary cell wallCompartment (ship)ElongationBiosynthesisLipid microdomainMembrane proteinBacterial Genetics and BiotechnologyBacterial biofilms and quorum sensingBacterial Infections and Vaccines
Membrane-partitioned cell wall synthesis in mycobacteria | Litcius