Deletion mutations and the replication of DNA in bacteriophage lambda

Use of lambda phasmids for deletion mapping of non-selectable markers cloned in plasmids

A nonselectable gene carried on a poorly selectable recombinant plasmid has been physically mapped by deletion analysis. Our method involved cloning the plasmid into a coliphage lambda vector and treating the recombinant phage with a chelator. Virtually all particles surviving this treatment carried large deletions within the plasmid insert. Further deletion analysis was done by inserting a selectable lambda sequence into one such deletion derivative and repeating the chelator selection. Chelator selection was also used to isolate deletions constructed in vitro. The deleted phage are readily characterized by restriction mapping, and the gene in question scored after infection of a mutant host strain. These techniques have enabled us to physically assign the cyclopropane fatty acid synthase gene of Escherichia coli to 0.8 kb of a 16-kb segment after characterizing only a small number of isolates. This approach should be generally useful in the mapping of plasmids for which no convenient method exists for selecting or scoring the gene in question.

A simple technique for the isolation of deletion mutants of phage lambda

We describe a simple technique for isolating deletion mutants of phage lambda and use it to dissect a cloned fragment of foreign DNA. The technique is based on our previous finding that the normally essential product of lambda head gene D is dispensible for phage growth if the DNA content of the phage is less than 82% that of lambda wild-type (Sternberg and Weisberg, 1977). A significant fraction of the few phage that form plaques when a D amber mutant is plated on a nonsuppressing host contains deletions that reduce the phage chromosome size to less than 82% that of wild-type. It is possible to isolate deletions ranging in size from less than 1.5 kb to 14 kb (3 to 27% of wild-type lambda), and the size range can be restricted by an appropriate choice of the DNA content of the starting phage. This method, unlike the older EDTA or heat resistance methods, permits the scoring of deletions because of the absence of phenotypic variants. We investigated the effect of several host and phage mutations on deletion frequency and type and have determined that a host polA mutation increases the frequency of deletions about 30-50-fold without changing the type of deletions. A host mutD mutation or thymine deprivation increases deletion frequency about 10-fold. In contrast, a host ligts mutation has no effect on the frequency of deletions. We have also determined that the size of the smallest lambda chromosome packageable in a plaque-forming phage particle is 72-73% that of lambda wild-type.

Determination of the endpoints of partial deletion mutants of the attachment site of bacteriophage lambda by DNA sequencing

The deletion mutants b508 and b522 of bacteriophage lambda both end within the attachment site. The formation of such deletions is dependent upon the presence of intact integrase, and thus the deletion endpoints may be related to the normal crossover site in site-specific recombination. We have determined the DNA sequences of the attachment site regions of these deletions. Comparison of the sequences with lambda wildtype shows that both the deletions end within the central common homology region but at different positions. The consequences of these findings for current models of site-specific recombination are discussed.