Journal
APPLIED AND ENVIRONMENTAL MICROBIOLOGY
Volume 77, Issue 9, Pages 2863-2868Publisher
AMER SOC MICROBIOLOGY
DOI: 10.1128/AEM.01915-10
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Funding
- NIH [RO1 EB 009115-01 A1]
- State of Colorado
- Leadership Alliance
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In response to needs for in situ thermometry, a temperature-sensitive vector was adapted to report changes in the intracellular heat content of Escherichia coli in near-real time. This model system utilized vectors expressing increasing quantities of beta-galactosidase in response to stepwise temperature increases through a biologically relevant range (22 to 45 degrees C). As judged by calibrated fluorometric and colorimetric reporters, both whole E. coli cells and lysates expressed significant repeatable changes in beta-galactosidase activity that were sensitive to temperature changes of less than 1 degrees C (35 to 45 degrees C). This model system suggests that changes in cellular heat content can be detected independently of the medium in which cells are maintained, a feature of particular importance where the medium is heterogeneous or nonaqueous, or otherwise has a low heat transfer capacity. We report here that the intracellular temperature can be reliably obtained in near-real time using reliable fluorescent reporting systems from cellular scales, with a 20 degrees C range of detection and at least 0.7 degrees C sensitivity between 35 and 45 degrees C.
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