Two juxtaposed tyrosyl-OH groups participate in phi X174 gene A protein catalysed cleavage and ligation of DNA.

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RESUMO

Bacteriophage phi X174 encoded gene A protein is an enzyme required for initiation and termination of successive rounds of rolling circle phi X DNA replication. This enzyme catalyses cleavage and ligation of a phosphodiester bond between nucleotide residues G and A at the phi X origin. The cleavage reaction which occurs during initiation involves formation of a free GOH residue at one end and a covalent bond between tyrosine-OH of the gene A protein and 5' phosphate of the A residue, at the other end of the cleavage site. During termination the covalently bound gene A protein cleaves the phosphodiester bond between G and A at the regenerated origin and ligates the 3' and 5' ends of the displaced genome-length viral DNA to form a circle. Since tyrosyl-OH mediated rearrangements of phosphodiester bonds in DNA may also apply to other enzymes involved in replication or recombination such as topoisomerases we have studied this interesting mechanism in greater detail. Analysis of 32P-labelled gene A protein-DNA complex by tryptic digestion followed by sequencing of 32P-containing peptides showed that two tyrosyl residues in the repeating sequence tyr-val-ala-lys-tyr-val-asn-lys participate in phosphodiester bond cleavage. Either one of these tyrosyl residues can function as the acceptor of the DNA chain. In an alpha-helix the side chains of these tyrosyl residues are in juxtaposition. An enzymatic mechanism is proposed in which these two tyrosyl-OH groups participate in an alternating manner in successive cleavage and ligations which occur during phosphodiester bond rearrangements of DNA.

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