Molecular cloning of the T4 genome; organization and expression of the frd--DNA ligase region.

Abstract

λ derivatives including the thymidylate synthetase (td) gene of T4 were selected by their ability to substitute for the thyA gene of E. coli. Two HindIII fragments of T4 DNA, but only one EcoRI fragment, are required for a functional td gene; one of the HindIII fragments includes a functional frd gene. The organisation of the EcoRI and HindIII fragments in the td region and their orientation with respect to the T4 genome have been deduced from genetic, physical, and functional evidence. The T4 genes can be transcribed from phage λ promoters and the λT4td derivatives include genes specifying five T4 polypeptides. Three of these are identified as the products of the frd, td, and nrdA genes; two, neither of which appears to be the nrdB gene product, remain to be identified. Some λtd phages yield lysogens of thyA bacteria which are thymine-independent and some λfrd phages yield trimethoprim-resistant lysogens, indicating that the td and frd genes can be transcribed from included T4 DNA sequences. EcoRI fragments of DNA from the td and lig regions, used as probes, identified a single large HindIII fragment that joins the HindIII fragment carrying the DNA ligase gene to that carrying the td gene. Since this fragment, which must include genes coding for RNA ligase and polynucleotide kinase, could not be recovered in either phage or plasmid vectors, a derivative of it was used to identify the EcoRI fragments located between the td and DNA ligase genes. The order of these fragments within the T4 genome was deduced and all but one of them cloned in a λ vector. As none of these recombinants rescued T4 phage having mutations within the RNA ligase gene, the missing fragment may include this gene. Three adjacent EcoRI fragments, each of which has been cloned, are missing in a mutant of T4 deleted for the polynucleotide kinase gene.