Transcriptional analysis has been investigated to detect the genes involved in organic solvent tolerance. A time course of gene expression profiles of Escherichia coli after exposure to organic solvents revealed that the expression levels of manX, manY, and manZ genes were strongly upregulated by 13.2-, 10.0-, and 7.0-folds, respectively, after 2 min and then decreased after 10 min. Organic solvent tolerance of E. coli was investigated by inducing overexpression of manX, manY, and manZ genes and manXYZ operon that encode a sugar transporter of the phosphotransferase system. Although the expression of manX, manY, and manZ alone was not effective, the organic solvent tolerance level was increased by the expression of manXYZ. The intracellular hexane level was kept lower in E. coli cells overexpressing manXYZ after 4 h of incubation with hexane.
Prefoldin is a jellyfish-shaped hexameric chaperone that captures a protein-folding intermediate and transfers it to the group II chaperonin for correct folding. In this work, we characterized the organic solvent tolerance of Escherichia coli cells that overexpress prefoldin and group II chaperonin from a hyperthermophilic archeaum, Pyrococcus horikoshii OT3. The colony-forming efficiency of E. coli cells overexpressing prefoldin increased by 1,000-fold and decreased the accumulation of intracellular organic solvent. The effect was impaired by deletions of the region responsible for the chaperone function of prefoldin. Therefore, we concluded that prefoldin endows E. coli cells by preventing accumulation of intracellular organic solvent through its molecular chaperone activity.
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