Receptor sensitivity in bacterial chemotaxis
- Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138; and Rowland Institute for Science, Cambridge, MA 02142
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Contributed by Howard C. Berg
Abstract
Chemoreceptors in Escherichia coli are coupled to the flagella by a labile phosphorylated intermediate, CheY∼P. Its activity can be inferred from the rotational bias of flagellar motors, but motor response is stochastic and limited to a narrow physiological range. Here we use fluorescence resonance energy transfer to monitor interactions of CheY∼P with its phosphatase, CheZ, that reveal changes in the activity of the receptor kinase, CheA, resulting from the addition of attractants or repellents. Analyses of cheR and/or cheB mutants, defective in receptor methylation/demethylation, show that response sensitivity depends on the activity of CheB and the level of receptor modification. In cheRcheB mutants, the concentration of attractant that generates a half-maximal response is equal to the dissociation constant of the receptor. In wild-type cells, it is 35 times smaller. This amplification, together with the ultrasensitivity of the flagellar motor, explains previous observations of high chemotactic gain.
Footnotes
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↵ * To whom reprint requests should be addressed. E-mail: hberg{at}biosun.harvard.edu.
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See commentary on page 7.
- Abbreviations:
- FRET,
- fluorescence resonance energy transfer;
- YFP,
- yellow fluorescent protein;
- CFP,
- cyan fluorescent protein;
- MeAsp,
- α-methylaspartate
- Copyright © 2002, The National Academy of Sciences
