The wild-type flagellar filament of the Firmicute Kurthia at 2.8 Å resolution in vivo
Abstract
Bacteria swim and swarm by rotating the micrometers long, helical filaments of their flagella. They change direction by reversing their flagellar rotation, which switches the handedness of the filament’s supercoil. So far, all studied functional filaments are composed of a mixture of L- and R-state flagellin monomers. Here we show in a study of the wild type Firmicute Kurthia sp., that curved, functional filaments can adopt a conformation in...
Paper Details
Title
The wild-type flagellar filament of the Firmicute Kurthia at 2.8 Å resolution in vivo
Published Date
Oct 18, 2019
Journal
Volume
9
Issue
1
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