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Propulsion of African trypanosomes is driven by bihelical waves with alternating chirality separated by kinks.


ABSTRACT: Trypanosoma brucei, a parasitic protist with a single flagellum, is the causative agent of African sleeping sickness. Propulsion of T. brucei was long believed to be by a drill-like, helical motion. Using millisecond differential interference-contrast microscopy and analyzing image sequences of cultured procyclic-form and bloodstream-form parasites, as well as bloodstream-form cells in infected mouse blood, we find that, instead, motility of T. brucei is by the propagation of kinks, separating left-handed and right-handed helical waves. Kink-driven motility, previously encountered in prokaryotes, permits T. brucei a helical propagation mechanism while avoiding the large viscous drag associated with a net rotation of the broad end of its tapering body. Our study demonstrates that millisecond differential interference-contrast microscopy can be a useful tool for uncovering important short-time features of microorganism locomotion.

SUBMITTER: Rodriguez JA 

PROVIDER: S-EPMC2780783 | biostudies-literature | 2009 Nov

REPOSITORIES: biostudies-literature

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Propulsion of African trypanosomes is driven by bihelical waves with alternating chirality separated by kinks.

Rodríguez Jose A JA   Lopez Miguel A MA   Thayer Michelle C MC   Zhao Yunzhe Y   Oberholzer Michael M   Chang Donald D DD   Kisalu Neville K NK   Penichet Manuel L ML   Helguera Gustavo G   Bruinsma Robijn R   Hill Kent L KL   Miao Jianwei J  

Proceedings of the National Academy of Sciences of the United States of America 20091030 46


Trypanosoma brucei, a parasitic protist with a single flagellum, is the causative agent of African sleeping sickness. Propulsion of T. brucei was long believed to be by a drill-like, helical motion. Using millisecond differential interference-contrast microscopy and analyzing image sequences of cultured procyclic-form and bloodstream-form parasites, as well as bloodstream-form cells in infected mouse blood, we find that, instead, motility of T. brucei is by the propagation of kinks, separating l  ...[more]

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