Cloning and analysis of translational control for genes encoding the Cfr9I restriction-modification system.
Lubys A., Menkevicius S., Timinskas A., Butkus V., Janulaitis A.
The complete type-II Cfr9I restriction-modification (R-M) system of Citrobacter freundii strain RFL9, recognizing the DNA sequence CCCGGG, has been cloned and expressed, and functionally active enzymes have been produced in Escherichia coli. Both the methyltransferase (MTase; M.Cfr9I) and restriction endonuclease (ENase; R.Cfr9I) were found to be encoded on a 2.3-kb cloned fragment in the same transcriptional orientation, but differing in translational phases. The last codon (underlined) (ATGA) of the MTase-encoding gene (Cfr9IM) overlaps with the start codon for the ENase-encoding gene (overlined) (cfr9IR). A nucleotide sequence complementary to a predicted Shine-Dalgarno sequence preceding cfr9IR is within this gene. Predicted free energy (delta G) for formation of the mRNA secondary structure involving these complementary sequences was found to be -16.1 kcal/mol. Amino-acid sequence homology of 80% was found between R.Cfr9I and R.XcyI.
Gene 141:85-89(1994) [ PubMed | SRS | CiteXplore ]
