Publication: A Stochastic Single-Molecule Event Triggers Phenotype Switching of a Bacterial Cell
Open/View Files
Date
2008
Published Version
Journal Title
Journal ISSN
Volume Title
Publisher
American Association for the Advancement of Science
The Harvard community has made this article openly available. Please share how this access benefits you.
Citation
Choi, Paul J., Long Cai, Kirsten Frieda, and Xiaoliang Sunney Xie. 2008. A stochastic single-molecule event triggers phenotype switching of a bacterial cell. Science 322(5900): 442-446.
Research Data
Abstract
By monitoring fluorescently labeled lactose permease with single-molecule sensitivity, we investigated the molecular mechanism of how an Escherichia coli cell with the lac operon switches from one phenotype to another. At intermediate inducer concentrations, a population of genetically identical cells exhibits two phenotypes: induced cells with highly fluorescent membranes and uninduced cells with a small number of membrane-bound permeases. We found that this basal-level expression results from partial dissociation of the tetrameric lactose repressor from one of its operators on looped DNA. In contrast, infrequent events of complete dissociation of the repressor from DNA result in large bursts of permease expression that trigger induction of the lac operon. Hence, a stochastic single-molecule event determines a cell's phenotype.
Description
Other Available Sources
Keywords
Terms of Use
This article is made available under the terms and conditions applicable to Other Posted Material (LAA), as set forth at Terms of Service