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Novel methods for genetic transformation of natural Bacillus subtilis isolates used to study the regulation of the mycosubtilin and surfactin synthetases

Duitman, E. H., Wyczawski, D., Boven, L. G., Venema, G., Kuipers, O. P. & Hamoen, L. W., Jun-2007, In : Applied and environmental microbiology. 73, 11, p. 3490-3496 7 p.

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  • SUPPLEMENTAL MATERIAL

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  • Novel Methods for Genetic Transformation of NaturalBacillus subtilisIsolates Used To Study the Regulation of the Mycosubtilin andSurfactin Synthetases

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DOI

Natural isolates of Bacillus subtilis are often difficult to transform due to their low genetic competence levels. Here we describe two methods that stimulate natural transformation. The first method uses plasmid pGSP12, which expresses the competence transcription factor ComK and stimulates competence development about 100-fold. The second method stimulates Campbell-type recombination of DNA ligation mixtures in B. subtilis by the addition of polyethylene glycol. We employed these novel methods to study the regulation of the synthetases for the lipopeptide antibiotics mycosubtilin (myc) and surfactin (srfA) in B. subtilis strain ATCC 6633. By means of lacZ reporter fusions, it was shown that the expression of srfA is > 100 times lower in strain ATCC 6633 than in the laboratory strain B. subtilis 168. Expression of the myc operon was highest in rich medium, whereas srfA expression reached maximal levels in minimal medium. Further genetic analyses showed that the srfA operon is mainly regulated by the response regulator ComA, while the myc operon is primarily regulated by the transition-state regulator AbrB. Although there is in vitro evidence for a synergistic activity of mycosubtilin and surfactin, the expression of both lipopeptide antibiotics is clearly not coordinated.

Original languageEnglish
Pages (from-to)3490-3496
Number of pages7
JournalApplied and environmental microbiology
Volume73
Issue number11
Publication statusPublished - Jun-2007

    Keywords

  • COMPETENCE TRANSCRIPTION FACTOR, SIGNAL-TRANSDUCTION, MACROCYCLIC PEPTIDES, SRFA OPERON, DNA-BINDING, ITURIN-A, SPORULATION, COMK, PROTEIN, SYSTEM

ID: 4570329