Fine Structure Genetic and Physical Map of the Phage P22 Tail Protein Gene

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Bacteriophage P22 which are incapable of making functional tail protein can be propagated by the addition of purified mature tail protein trimers to either liquid or solidified medium. This unique in vitro complementation condition has allowed us to isolate 74 absolute lethal tail protein mutants of P22 after hydroxylamine mutagenesis. These phage mutants have an absolute requirement for purified P22 tail protein to be present in a soft agar overlay in order to form plaques and do not grow on any nonsense suppressing strains of Salmonella typhimurium. In order to genetically map and physically locate these mutations we have constructed two complementary sets of fine structure deletion mapping strains using a collection of Tn1 insertions in gene 9, the structural gene for the tail protein. Fourteen bacteriophage P22 strains carrying unique Tn1 transposon insertions (Ap phage) in gene 9 have been crossed with Ap phage carrying Tn1 insertions in gene 20. Phage carrying deletions that arose from homologous recombination between the Tn1 elements were isolated as P22 lysogens. The deletion prophage were shown to be missing all genetic information bracketed by the parental Tn1 elements and thus form a set of deletions into gene 9 from the 5' end of the gene. From the frequency of production of these deletion phage the orientation of the Tn1 insertions in gene 9 could be deduced. The genetic end points of the deletions in gene 9 and thus the order of Tn1 insertions were determined by marker rescue experiments using the original Ap phage. The genetic end points of the deletions in gene 20 were determined in similar experiments using nonsense mutations in gene 20. To locate the physical end points of these deletions in gene 9, DNA containing the Tn1 element has been cloned from each of the original Ap phage into plasmids. The precise point of insertion of Tn1 into gene 9 was determined by restriction enzyme mapping and DNA sequencing of the relevant portions of each of these plasmids. In vitro deletion of different 3' gene 9 sequences in the plasmid clones was accomplished through the use of unique restriction endonuclease sites in Tn1. The resulting plasmids form a set of deletions extending into the 3' end of the gene which are complementary compared to the deletion lysogens. Both the deletion lysogens and these plasmids have been used to align the genetic and physical map of gene 9 and to map the 74 tail dependent mutations into small physical regions of the gene.

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