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Literature DB >> 12225172

Periodic chirality transformations propagating on bacterial flagella.

Daniel Coombs¹, Greg Huber, John O Kessler, Raymond E Goldstein.

Abstract

When a helical bacterial flagellum, clamped at one end, is placed in an external flow, it has been observed that regions of the flagellum transform to the opposite chirality, and travel as pulses down the length of the filament, the process repeating periodically [H. Hotani, J. Mol. Biol. 156, 791 (1982)]]. We propose a theory for this phenomenon based on a treatment of the flagellum as an elastic object with multiple stable configurations. The simplest possible implementation of the model accurately reproduces key features seen in experiment.

Entities: Disease

Mesh：

Year: 2002 PMID： 12225172 DOI： 10.1103/PhysRevLett.89.118102

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

8 in total

1. The motility of mollicutes.

Authors: Charles W Wolgemuth; Oleg Igoshin; George Oster
Journal: Biophys J Date: 2003-08 Impact factor: 4.033

2. Force-extension curves of bacterial flagella.

Authors: R Vogel; H Stark
Journal: Eur Phys J E Soft Matter Date: 2010-11-04 Impact factor: 1.890

3. Strain-dependent twist-stretch elasticity in chiral filaments.

Authors: M Upmanyu; H L Wang; H Y Liang; R Mahajan
Journal: J R Soc Interface Date: 2008-03-06 Impact factor: 4.118

4. Bacterial flagellar microhydrodynamics: Laminar flow over complex flagellar filaments, analog archimedean screws and cylinders, and its perturbations.

Authors: Shlomo Trachtenberg; Dalia Fishelov; Matania Ben-Artzi
Journal: Biophys J Date: 2003-09 Impact factor: 4.033

5. Genetic analysis of spirochete flagellin proteins and their involvement in motility, filament assembly, and flagellar morphology.

Authors: Chunhao Li; Charles W Wolgemuth; Michael Marko; David G Morgan; Nyles W Charon
Journal: J Bacteriol Date: 2008-06-13 Impact factor: 3.490

Periodic chirality transformations propagating on bacterial flagella.

1. The motility of mollicutes.

2. Force-extension curves of bacterial flagella.

3. Strain-dependent twist-stretch elasticity in chiral filaments.

4. Bacterial flagellar microhydrodynamics: Laminar flow over complex flagellar filaments, analog archimedean screws and cylinders, and its perturbations.

5. Genetic analysis of spirochete flagellin proteins and their involvement in motility, filament assembly, and flagellar morphology.

6. Modeling polymorphic transformation of rotating bacterial flagella in a viscous fluid.

7. Structural dynamics of an actin spring.

8. Torque correlation length and stochastic twist dynamics of DNA.