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Title: Site-specific recombination functions of bacteriophage lambda: DNA sequence of regulatory regions and overlapping structural genes for Int and Xis. Author: Hoess RH, Foeller C, Bidwell K, Landy A. Journal: Proc Natl Acad Sci U S A; 1980 May; 77(5):2482-6. PubMed ID: 6446713. Abstract: Site-specific recombination in bacteriophage lambda is mediated by two phage-encoded proteins, Int and Xis. The structural genes encoding these proteins are located immediately to the right of their site of action, the phage att site. The DNA sequence for both the structural and regulatory regions of these genes has been determined. The location and reading frame of the xis gene were ascertained by sequence comparisons with the b538 deletion (that ends within xis) and with the xis6 amber mutation. From the DNA sequence Xis has a molecular weight of 8630; it is rich in basic amino acids with lysine and arginine comprising 25% of the 72 amino acids. Identification of the int reading frame was also unambiguous. From the DNA sequence, Int has a molecular weight of 40,330; of the 356 amino acids, 69 are basic and 46 are acidic. In the NH(2)-terminal portion of Int, 35% of the first 20 amino acids are basic. The site-specific recombination functions form a very tight cluster (att-int-xis) on the lambda chromosome. The combined protein-encoding sequences of xis and int start 1347 base pairs, and terminate 84 base pairs, from the center of the phage att site. The two genes overlap one another by 20 base pairs (xis is upstream of int) and a possible means of controlling the relative synthesis rates of Int and Xis at the level of translation is proposed. Control at the level of transcription is also considered. The mutation intc226 leads to constitutive production of Int, independent of cII/cIII activator proteins normally required for transcription from the p(I) promoter. It is shown that this mutation is the result of a single base change (in the fMet codon of the xis gene) that generates an improved promoter heptamer sequence. This result, in conjunction with comparisons with other promoter sequences and other sequences responding to cII/cIII action, leads to a tentative identification of the p(I) promoter and site of cII/cIII action.[Abstract] [Full Text] [Related] [New Search]