Thermal regulation of membrane lipid fluidity by a two-component system in Bacillus subtilis

Abstract

This article describes a simple and robust laboratory exercise on the regulation of membrane unsaturated fatty acid composition in bacteria by a decrease in growth temperature. We take advantage of the well characterized Des pathway of Bacillus subtilis, composed of a Δ5-desaturase (encoded by the des gene) and the canonical two-component system DesK-DesR, to study the transcriptional regulation of des during cold shock. Students analyze the expression of a reporter transcriptional fusion between the des promoter and the bacterial lacZ gene in a wild-type B. subtilis strain and in des or desK-desR mutants grown under different culture conditions. Measurements of β-galactosidase activity allow them to investigate how the Des pathway works and to assess the role of each component of this regulatory system. © 2011 International Union of Biochemistry and Molecular Biology, Inc.