Anchors: A way for FtsZ filaments to stay membrane bound.
Autor: | Naha A; Department of Microbiology and Molecular Genetics, UTHealth-Houston, Houston, Texas, USA., Haeusser DP; Department of Microbiology and Molecular Genetics, UTHealth-Houston, Houston, Texas, USA.; Department of Biology, Canisius College, Buffalo, New York, USA., Margolin W; Department of Microbiology and Molecular Genetics, UTHealth-Houston, Houston, Texas, USA. |
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Jazyk: | angličtina |
Zdroj: | Molecular microbiology [Mol Microbiol] 2023 Oct; Vol. 120 (4), pp. 525-538. Date of Electronic Publication: 2023 Apr 28. |
DOI: | 10.1111/mmi.15067 |
Abstrakt: | Most bacteria use the tubulin homolog FtsZ to organize their cell division. FtsZ polymers initially assemble into mobile complexes that circle around a ring-like structure at the cell midpoint, followed by the recruitment of other proteins that will constrict the cytoplasmic membrane and synthesize septal peptidoglycan to divide the cell. Despite the need for FtsZ polymers to associate with the membrane, FtsZ lacks intrinsic membrane binding ability. Consequently, FtsZ polymers have evolved to interact with the membrane through adaptor proteins that both bind FtsZ and the membrane. Here, we discuss recent progress in understanding the functions of these FtsZ membrane tethers. Some, such as FtsA and SepF, are widely conserved and assemble into varied oligomeric structures bound to the membrane through an amphipathic helix. Other less-conserved proteins, such as EzrA and ZipA, have transmembrane domains, make extended structures, and seem to bind to FtsZ through two separate interactions. This review emphasizes that most FtsZs use multiple membrane tethers with overlapping functions, which not only attach FtsZ polymers to the membrane but also organize them in specific higher-order structures that can optimize cell division activity. We discuss gaps in our knowledge of these concepts and how future studies can address them. (© 2023 John Wiley & Sons Ltd.) |
Databáze: | MEDLINE |
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