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Molecular cloning and characterization of comC, a late competence gene of Bacillus subtilis.

Department of Microbiology, Public Health Research Institute of the City of New York, Inc., New York 10016.

ABSTRACT

comC is a Bacillus subtilis gene required for the development of genetic competence. We have cloned a fragment from the B. subtilis chromosome that carries comC and contains all the information required to complement a Tn917lac insertion in comC. Genetic tests further localized comC to a 2.0-kilobase HindIII fragment. Northern (RNA) blotting experiments revealed that an 800-base-pair comC-specific transcript appeared at the time of transition from exponential to stationary phase during growth through the competence regimen. The DNA sequence of the comC region revealed two open reading frames (ORFs), transcribed in the same direction. The upstream ORF encoded a protein with apparent sequence similarity to the folC gene of Escherichia coli. Insertion of a chloramphenicol resistance determinant into this ORF and integration of the disrupted construct into the bacterial chromosome by replacement did not result in competence deficiency. The downstream ORF, which contained the Tn917lac insertion that resulted in a lack of competence, is therefore the comC gene. The predicted protein product of comC consisted of 248 amino acid residues and was quite hydrophobic. The comC gene product was not required for the expression of any other com genes tested, and this fact, together with the marked hydrophobicity of ComC, suggests that it may be a component of the DNA-processing apparatus of competent cells.

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