Molecular mechanisms of low temperature sensing bacteria

Both prokaryotes and eukaryotes respond to a decrease in temperature with the expression of a specific subset of proteins. We are investigating how Bacillus subtilis cells sense and transduce low-temperature signals to adjust its gene expression. One important step has been accomplished in the disse...

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Bibliographic Details
Published in:Annals of hepatology 2005-07, Vol.4 (3), p.216-217
Main Authors: Mansilla, MarĂ­a C, Albanesi, Daniela, Cybulski, Larisa E, de Mendoza, Diego
Format: Article
Language:English
Subjects:
Bacillus subtilis - physiology
Cold Temperature
Membrane Fluidity - physiology
Signal Transduction - physiology
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Summary:Both prokaryotes and eukaryotes respond to a decrease in temperature with the expression of a specific subset of proteins. We are investigating how Bacillus subtilis cells sense and transduce low-temperature signals to adjust its gene expression. One important step has been accomplished in the dissection of a novel pathway for the adjustment of unsaturated fatty acid synthesis in B.subtilis, termed the Des pathway. It responds to a decrease in growth temperature by enhancing the expression of the des gene, coding for an acyl-lipid desaturase. The Des pathway is uniquely and stringently regulated by a tw-component system composed of a membrane-associated kinase, DesK, and a soluble transcriptional activator, DesR. The temperature sensing ability of the DesK protein is regulated by the extent of disorder within the membrane lipid bilayer. In this work, we present the mechanism by which the sensor protein DesK controls the signal decay of its cognate partner, DesR, and how this response regulator activates transcription of its target promoter. The results of these analysis will be presented and discussed in the context of transcriptional regulation of membrane fluidity homeostasis.
ISSN:1665-2681