Stripping Bacillus: ComK auto-stimulation is responsible for the bistable response in competence development

Wiep Klaas Smits; Caroline C. Eschevins; Kim A. Susanna; Sierd Bron; Oscar P. Kuipers; Leendert W. Hamoen

doi:10.1111/j.1365-2958.2005.04488.x

Stripping Bacillus: ComK auto-stimulation is responsible for the bistable response in competence development

Wiep Klaas Smits, Caroline C. Eschevins, Kim A. Susanna, Sierd Bron, Oscar P. Kuipers^*, Leendert W. Hamoen

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

In Bacillus subtilis competence for genetic transformation develops only in a subpopulation of cells in an isogenic culture. The molecular mechanisms underlying this phenotypic heterogeneity are unknown. In this study, we stepwise simplify the signal transduction cascade leading to competence, yielding a strain devoid of all regulatory inputs for this process that have been identified so far. We demonstrate that auto-stimulation of ComK, the master regulator for competence development, is essential and in itself can be sufficient to generate a bistable expression pattern. We argue that transcriptional regulation determines the threshold of ComK to initiate the auto-stimulatory response, and that the basal level of ComK (in a wild-type strain governed by MecA-mediated proteolytic control) determines the fraction of cells that reach this threshold, and thus develop competence.

Original language	English
Pages (from-to)	604-614
Number of pages	11
Journal	Molecular Microbiology
Volume	56
Issue number	3
DOIs	https://doi.org/10.1111/j.1365-2958.2005.04488.x
Publication status	Published - 1 May 2005
Externally published	Yes

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title = "Stripping Bacillus: ComK auto-stimulation is responsible for the bistable response in competence development",

abstract = "In Bacillus subtilis competence for genetic transformation develops only in a subpopulation of cells in an isogenic culture. The molecular mechanisms underlying this phenotypic heterogeneity are unknown. In this study, we stepwise simplify the signal transduction cascade leading to competence, yielding a strain devoid of all regulatory inputs for this process that have been identified so far. We demonstrate that auto-stimulation of ComK, the master regulator for competence development, is essential and in itself can be sufficient to generate a bistable expression pattern. We argue that transcriptional regulation determines the threshold of ComK to initiate the auto-stimulatory response, and that the basal level of ComK (in a wild-type strain governed by MecA-mediated proteolytic control) determines the fraction of cells that reach this threshold, and thus develop competence.",

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T2 - ComK auto-stimulation is responsible for the bistable response in competence development

AU - Smits, Wiep Klaas

AU - Eschevins, Caroline C.

AU - Susanna, Kim A.

AU - Bron, Sierd

AU - Kuipers, Oscar P.

AU - Hamoen, Leendert W.

PY - 2005/5/1

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AB - In Bacillus subtilis competence for genetic transformation develops only in a subpopulation of cells in an isogenic culture. The molecular mechanisms underlying this phenotypic heterogeneity are unknown. In this study, we stepwise simplify the signal transduction cascade leading to competence, yielding a strain devoid of all regulatory inputs for this process that have been identified so far. We demonstrate that auto-stimulation of ComK, the master regulator for competence development, is essential and in itself can be sufficient to generate a bistable expression pattern. We argue that transcriptional regulation determines the threshold of ComK to initiate the auto-stimulatory response, and that the basal level of ComK (in a wild-type strain governed by MecA-mediated proteolytic control) determines the fraction of cells that reach this threshold, and thus develop competence.

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Stripping Bacillus: ComK auto-stimulation is responsible for the bistable response in competence development

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