Limits of sensing temporal concentration changes by single cells.
Publication Year
2010
Type
Journal Article
Abstract
Berg and Purcell [Biophys. J. 20, 193 (1977)] calculated how the accuracy of concentration sensing by single-celled organisms is limited by noise from the small number of counted molecules. Here we generalize their results to the sensing of concentration ramps, which is often the biologically relevant situation (e.g., during bacterial chemotaxis). We calculate lower bounds on the uncertainty of ramp sensing by three measurement devices: a single receptor, an absorbing sphere, and a monitoring sphere. We contrast two strategies, simple linear regression of the input signal versus maximum likelihood estimation, and show that the latter can be twice as accurate as the former. Finally, we consider biological implementations of these two strategies, and identify possible signatures that maximum likelihood estimation is implemented by real biological systems.
Keywords
Journal
Phys Rev Lett
Volume
104
Issue
24
Pages
248101
Date Published
06/2010
ISSN Number
1079-7114
Alternate Journal
Phys. Rev. Lett.
PMID
20867338