Genetics and sequence analysis of the pcnB locus, an Escherichia coli gene involved in plasmid copy number control.
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Liu JD, Parkinson JS
Genetics and sequence analysis of the pcnB locus, an Escherichia coli gene involved in plasmid copy number control.
J Bacteriol. 1989 Mar;171(3):1254-61.
- PubMed ID
- 2537812 [ View in PubMed]
- Abstract
Mutations at the Escherichia coli pcnB locus reduce the copy number of ColE1-like plasmids. We isolated additional mutations in this gene and conducted a preliminary characterization of its product. F-prime elements carrying the pcnB region were constructed and used to show that the mutations were recessive. The wild-type pcnB gene was cloned into a low-copy-number plasmid, and its nucleotide sequence was determined. The sequence analysis indicated that pcnB is probably the first gene in an operon that contains one or more additional genes of unknown function. The pcnB locus should encode a polypeptide of 47,349 daltons (Da). A protein of this size was observed in minicells carrying a pcnB+ plasmid, and transposon insertions and deletions that truncated this protein generally abolished pcnB function. One exceptional transposon insertion at the promoter-distal end of the pcnB gene truncated the 47-kDa protein by about 20% but did not abolish complementation activity, indicating that the C-terminus of the PcnB product is dispensable. The deduced amino acid sequence of PcnB revealed numerous charged residues and, with 10% arginines, an overall basic character, suggesting that PcnB might interact with DNA or RNA in a structural capacity. Disruption of the pcnB gene by insertional mutagenesis caused a reduction in growth rate, indicating that PcnB has an important cellular function.