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An AMP nucleosidase gene knockout in Escherichia coli elevates intracellular ATP levels and increases cold tolerance.


ABSTRACT: Disparate psychrophiles (e.g. glacier ice worms, bacteria, algae and fungi) elevate steady-state intracellular ATP levels as temperatures decline, which has been interpreted as a compensatory mechanism to offset reductions in molecular motion and Gibb's free energy of ATP hydrolysis. In this study, we sought to manipulate steady-state ATP levels in the mesophilic bacterium, Escherichia coli, to investigate the relationship between cold temperature survivability and elevated intracellular ATP. Based on known energetic pathways and feedback loops, we targeted the AMP nucleotidase (amn) gene, which is thought to encode the primary AMP degradative enzyme in prokaryotes. By knocking out amn in wild-type E. coli DY330 cells using recombineering methodology, we generated a mutant (AMNk) that elevated intracellular ATP levels by more than 30% across its viable temperature range. As temperature was lowered, the relative ATP disparity between AMNk and DY330 cells increased to approximately 66% at 10 degrees C, and was approximately 100% after storage at 0 degrees C for 5-7 days. AMNk cells stored at 0 degrees C for 7 days displayed approximately fivefold higher cell viability than wild-type DY330 cells treated in the same manner.

SUBMITTER: Morrison BA 

PROVIDER: S-EPMC2412920 | biostudies-literature | 2008 Feb

REPOSITORIES: biostudies-literature

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An AMP nucleosidase gene knockout in Escherichia coli elevates intracellular ATP levels and increases cold tolerance.

Morrison Brittany A BA   Shain Daniel H DH  

Biology letters 20080201 1


Disparate psychrophiles (e.g. glacier ice worms, bacteria, algae and fungi) elevate steady-state intracellular ATP levels as temperatures decline, which has been interpreted as a compensatory mechanism to offset reductions in molecular motion and Gibb's free energy of ATP hydrolysis. In this study, we sought to manipulate steady-state ATP levels in the mesophilic bacterium, Escherichia coli, to investigate the relationship between cold temperature survivability and elevated intracellular ATP. Ba  ...[more]

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