FtsZ Protofilament Curvature Is the Opposite of Tubulin Rings.

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2016-07

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Abstract

FtsZ protofilaments (pfs) form the bacterial cytokinetic Z ring. Previous work suggested that a conformational change from straight to curved pfs generated the constriction force. In the simplest model, the C-terminal membrane tether is on the outside of the curved pf, facing the membrane. Tubulin, a homologue of FtsZ, also forms pfs with a curved conformation. However, it is well-established that tubulin rings have the C terminus on the inside of the ring. Could FtsZ and tubulin rings have the opposite curvature? In this study, we explored the FtsZ curvature direction by fusing large protein tags to the FtsZ termini. Thin section electron microscopy showed that the C-terminal tag was on the outside, consistent with the bending pf model. This has interesting implications for the evolution of tubulin. Tubulin likely began with the curvature of FtsZ, but evolution managed to reverse direction to produce outward-curving rings, which are useful for pulling chromosomes.

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10.1021/acs.biochem.6b00479

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Housman, Max, Sara L Milam, Desmond A Moore, Masaki Osawa and Harold P Erickson (2016). FtsZ Protofilament Curvature Is the Opposite of Tubulin Rings. Biochemistry, 55(29). 10.1021/acs.biochem.6b00479 Retrieved from https://hdl.handle.net/10161/16450.

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Erickson

Harold Paul Erickson

James B. Duke Distinguished Professor Emeritus

Recent research has been on cytoskeleton (eukaryotes and bacteria); a skirmish to debunk the irisin story; a reinterpretation of proposed multivalent binders of the coronavirus spike protein. I have also published an ebook on "Principles of Protein-Protein Association" suitable for a course module or individual learning.


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