Volume 275, Issue 2 pp. 214-220

Metal-dependent repression of siderophore and biofilm formation in Actinomyces naeslundii

Cas Moelling

Cas Moelling

Department of Biology, Ripon College, Ripon, WI, USA

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Ross Oberschlacke

Ross Oberschlacke

Department of Biology, Ripon College, Ripon, WI, USA

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Price Ward

Price Ward

Department of Biology, Ripon College, Ripon, WI, USA

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John Karijolich

John Karijolich

Department of Biology, Ripon College, Ripon, WI, USA

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Ksenia Borisova

Ksenia Borisova

Department of Biology, Ripon College, Ripon, WI, USA

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Nikola Bjelos

Nikola Bjelos

Department of Biology, Ripon College, Ripon, WI, USA

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Lori Bergeron

Lori Bergeron

Department of Biology, Ripon College, Ripon, WI, USA

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First published: 07 September 2007
Citations: 4
Correspondence: Lori Bergeron, 300 Seward St, Ripon, WI 54971, USA. Tel.: 920 279 0019; e-mail: [email protected]

Editor: William Wade

Abstract

Actinomyces naeslundii is a pioneer of the oral cavity and forms a biofilm on the tooth's surface. Most bacteria require iron for survival and in pathogenic bacteria iron availability regulates virulence gene expression. Metal-dependent repressors control gene expression involved in metal transport and uptake including siderophores. Siderophores are small molecules synthesized by bacteria and fungi to acquire iron. The A. naeslundii genome was searched for a gene encoding a metal-dependent repressor. Actinomyces metal-dependent repressor or amdR was identified. The AmdR protein was examined for its ability to bind to the promoter sequence of a gene encoding the siderophore uptake (sid gene). According to gel shift assays, AmdR binds to the sid gene promoter sequences. In the authors' model, when iron is available AmdR binds to the sid promoter and represses sid gene expression. To further explore the role of AmdR, an amdR-defective strain of A. naeslundii was constructed and biofilm formation and siderophore production were evaluated. When iron is removed from the medium A. naeslundii increases biofilm and siderophore production. However, amdR-defective A. naeslundii is less sensitive to metal ion concentrations in the growth medium.

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