Abstract: | Evidence is presented that the gene A and A * proteins of bacteriophage phi X 174 form covalent associations with the 5' ends of the DNA molecules when superhelical phi X replicative form DNA is nicked by a combination of these proteins in vitro. This evidence is: 1, The 5' ends of the DNA molecules nicked by the gene A protein and reacted with bacterial alkaline phosphatase were protected against subsequent phosphorylation by polynucleotide kinase even after treatment of the nicked DNA with SDS and pronase followed by centrifugation on a high-salt neutral sucrose gradient. 2, Iodinated pronase-sensitive material remained attached to the nicked replicative form DNA and could not be removed by exposure to SDS or 2 M NaCl, either by sedimentation through high-salt neutral sucrose gradients, or by CsCl equilibrium centrifugation. 3, Iodinated pronase-sensitive material was detected on DNA that had been nicked during the reaction, but not on unreacted DNA. 4, Electrophoresis of the iodinated pronase-sensitive, DNA-bound material in SDS-polyacrylamide gels after DNAse digestion revealed that it was composed almost entirely polypeptides with electrophoretic mobilities similar to those of the gene A and A * proteins. We speculate that the gene * protein may be essential for normal progeny single-stranded DNA synthesis in vivo. |