Structure of Escherichia coli dnaC. Identification of a cysteine residue possibly involved in association with dnaB protein
- PMID: 3301836
Structure of Escherichia coli dnaC. Identification of a cysteine residue possibly involved in association with dnaB protein
Abstract
The nucleotide sequence of the Escherichia coli dnaC gene and the primary structure of the dnaC protein were determined. The NH2-terminal amino acid sequence of the dnaC protein matched that predicted from the nucleotide sequence of the 735-base pair coding region. The dnaC gene lacks characteristic promoter structures; neither the "Pribnow box" nor the "-35 sequence" was detected within 222 base pairs upstream from the initiator ATG codon. There is, however, a typical Shine-Dalgarno sequence 7-10 base pairs before the ATG codon. An upstream open reading frame, separated by just 2 base pairs from the coding region of dnaC, encodes the COOH-terminal half of the dnaT product (protein i; Masai, H., Bond, M. W., and Arai, K. (1986) Proc. Natl. Acad. Sci. U. S. A. 83, 1256-1260). The dnaC protein contains 245 amino acids with a calculated molecular weight of 27,894 consistent with the observed value (29,000). Similar to dnaG and dnaT, dnaC uses several minor codons; the significance of these minor codons to the low level expression of the protein product in E. coli cells remains to be determined. The in vitro site-directed mutagenesis method was employed to determine the functional region involved in interaction with dnaB protein. The first cysteine residue located in the NH2-terminal region of the dnaC protein (Cys69) was shown to be important for this activity. Overall sequence homology between dnaC protein and lambda P protein, functionally analogous to the dnaC protein in the lambda phage DNA replication, is not extensive. There are, however, several short stretches of homologous regions including the NH2-terminal eight amino acids and the Cys78 region of dnaC protein.
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