Whole-cell flagellum-based motility studied using back focal plane interferometry in a laser trap transducer

Author

Guilford, William H. ; Aust, Laura E. ; Bernd, Karen K.

Author_Institution

Dept. of Biomed. Eng., Virginia Univ., Charlottesville, VA

fYear

2006

fDate

Oct. 29 2006-Nov. 1 2006

Firstpage

178

Lastpage

182

Abstract

The biflagellated alga Chlamydomonas reinhardtii undergoes light-directed motility by controlling the beating patterns of its flagella. The molecular mechanisms of this control system are debated. To help understand the process we are using a laser trap transducer to capture single, swimming Chlamydomonas by their contractile vacuole - the organelle that allows them to regulate cell volume. Trapping the cell by this organelle enables us to accurately and reproducibly measure the swimming force, beat frequencies and waveforms generated by the flagella. This is a unique approach to understanding the motor mechanisms and regulation of flagella in intact cells.

Keywords

cell motility; light interferometry; radiation pressure; transducers; back focal plane interferometry; beating patterns; biflagellated alga Chlamydomonas reinhardtii; contractile vacuole; laser trap transducer; light-directed motility; whole-cell flagellum-based motility; Biological control systems; Cells (biology); Force measurement; Interferometry; Light sources; Lighting control; Mirrors; Organisms; Photoreceptors; Transducers;

fLanguage

English

Publisher

ieee

Conference_Titel

Signals, Systems and Computers, 2006. ACSSC '06. Fortieth Asilomar Conference on

Conference_Location

Pacific Grove, CA

ISSN

1058-6393

Print_ISBN

1-4244-0784-2

Electronic_ISBN

1058-6393

Type

conf

DOI

10.1109/ACSSC.2006.356610

Filename

4176539