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Cryo-electron microscopy of cytoskeletal ‘fibril’ involved in Spiroplasma swimming
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Abstract
Spiroplasma
, parasitic or commensal bacteria, can swim by switching the handedness of its helical cell body. A helical cell body is formed by an internal ribbon of MreB, an actin superfamily, and
Spiroplasma
-specific fibril proteins. Here we have solved the structure of the fibril filament by single-particle cryo-electron microscopy at 3.6 Å resolution and built its atomic structure. The structure is composed of repeated rings and cylinders. The N-terminal cylinder of the fibril protein shows a structure similar to that of S-adenosylhomocysteine nucleosidase, while the C-terminal ring does not show similarity to other proteins. The filament is nonpolar and flexible, possessing a helical pitch of 700 nm, consistent with cell helicity. Cryo-electron tomography revealed aligned several MreB filaments in the center of the ribbon, flanked by membrane-binding fibril filaments through electrostatic interactions. This study discusses the evolution and roles of the fibril filament.
Title: Cryo-electron microscopy of cytoskeletal ‘fibril’ involved in
Spiroplasma
swimming
Description:
Abstract
Spiroplasma
, parasitic or commensal bacteria, can swim by switching the handedness of its helical cell body.
A helical cell body is formed by an internal ribbon of MreB, an actin superfamily, and
Spiroplasma
-specific fibril proteins.
Here we have solved the structure of the fibril filament by single-particle cryo-electron microscopy at 3.
6 Å resolution and built its atomic structure.
The structure is composed of repeated rings and cylinders.
The N-terminal cylinder of the fibril protein shows a structure similar to that of S-adenosylhomocysteine nucleosidase, while the C-terminal ring does not show similarity to other proteins.
The filament is nonpolar and flexible, possessing a helical pitch of 700 nm, consistent with cell helicity.
Cryo-electron tomography revealed aligned several MreB filaments in the center of the ribbon, flanked by membrane-binding fibril filaments through electrostatic interactions.
This study discusses the evolution and roles of the fibril filament.
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