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Structural and genetic analyses reveal the protein SepF as a new membrane anchor for the Z ring

Lookup NU author(s): Ilkay Celik, Professor Henrik Strahl von SchultenORCiD, Dr Leendert Hamoen

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Abstract

A key step in bacterial cell division is the polymerization of the tubulin homolog FtsZ at midcell. FtsZ polymers are anchored to the cell membrane by FtsA and are required for the assembly of all other cell division proteins. In Gram-positive and cyanobacteria, FtsZ filaments are aligned by the protein SepF, which in vitro polymerizes into large rings that bundle FtsZ filaments. Here we describe the crystal structure of the only globular domain of SepF, located within the C-terminal region. Two-hybrid data revealed that this domain comprises the FtsZ binding site, and EM analyses showed that it is sufficient for ring formation, which is explained by the filaments in the crystals of SepF. Site-directed mutagenesis, gel filtration, and analytical ultracentrifugation indicated that dimers form the basic units of SepF filaments. High-resolution structured illumination microscopy suggested that SepF is membrane associated, and it turned out that purified SepF not only binds to lipid membranes, but also recruits FtsZ. Further genetic and biochemical analyses showed that an amphipathic helix at the N terminus functions as the membrane-binding domain, making SepF a unique membrane anchor for the FtsZ ring. This clarifies why Bacillus subtilis grows without FtsA or the putative membrane anchor EzrA and why bacteria lacking FtsA contain SepF homologs. Both FtsA and SepF use an amphipathic helix for membrane binding. These helices prefer positively curved membranes due to relaxed lipid density; therefore this type of membrane anchor may assist in keeping the Z ring positioned at the strongly curved leading edge of the developing septum.


Publication metadata

Author(s): Duman R, Ishikawa S, Celik I, Strahl H, Ogasawara N, Troc P, Lowe J, Hamoen LW

Publication type: Article

Publication status: Published

Journal: Proceedings of the National Academy of Sciences (PNAS

Year: 2013

Volume: 110

Issue: 48

Pages: E4601-E4610

Print publication date: 26/11/2013

Online publication date: 11/11/2013

Acceptance date: 26/07/2013

ISSN (print): 0027-8424

Publisher: National Academy of Sciences

URL: http://dx.doi.org/10.1073/pnas.1313978110

DOI: 10.1073/pnas.1313978110

PubMed id: 24218584


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Funding

Funder referenceFunder name
Newcastle University Microscopy Research Centre
095514/Z/11/ZWellcome Trust
12128Netherlands Technology Foundation Vici Grant
BB/I01327X/1Biological Sciences Research Council
U105184326Medical Research Council

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