Global Characterization of Disulfide Stress in Bacillus subtilis

doi:10.1128/JB.185.6.1967-1975.2003

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Journal of Bacteriology, March 2003, p. 1967-1975, Vol. 185, No. 6
0021-9193/03/$08.00+0 DOI: 10.1128/JB.185.6.1967-1975.2003
Copyright © 2003, American Society for Microbiology. All Rights Reserved.

Global Characterization of Disulfide Stress in Bacillus subtilis

Lars Ingo Ole Leichert, Christian Scharf, and Michael Hecker^*

Institut für Mikrobiologie, Ernst-Moritz-Arndt-Universität, 17487 Greifswald, Germany

Received 30 September 2002/ Accepted 30 December 2002

We used DNA macroarray and proteome analysis to analyze theregulatory networks in Bacillus subtilis that are affected bydisulfide stress. To induce disulfide stress, we used the specificthiol oxidant diamide. After addition of 1 mM diamide to anexponentially growing culture, cell growth stopped until themedium was cleared of diamide. Global analysis of the mRNA expressionpattern during growth arrest revealed 350 genes that were inducedby disulfide stress by greater than threefold. Strongly inducedgenes included known oxidative stress genes that are under thecontrol of the global repressor PerR and heat shock genes controlledby the global repressor CtsR. Other genes that were stronglyinduced encode putative regulators of gene expression and proteinsprotecting against toxic elements and heavy metals. Many geneswere substantially repressed by disulfide stress, among themmost of the genes belonging to the negative stringent response.Two-dimensional gels of radioactively labeled protein extractsallowed us to visualize and quantitate the massive changes inthe protein expression pattern that occurred in response todisulfide stress. The observed dramatic alteration in the proteinpattern reflected the changes found in the transcriptome experiments.The response to disulfide stress seems to be a complex combinationof different regulatory networks, indicating that redox-sensingcysteines play a key role in different signaling pathways sensingoxidative stress, heat stress, toxic element stress, and growthinhibition.

* Corresponding author. Mailing address: Institut für Mikrobiologie, Ernst-Moritz-Arndt-Universität, Greifswald, Friedrich-Ludwig-Jahn-Str. 15, 17487 Greifswald, Germany. Phone: 49-3834-864200. Fax: 49-3834-864202. E-mail: hecker{at}biologie.uni-greifswald.de.

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