M13 vectors for selective cloning of sequences specifying initiation of DNA synthesis on single-stranded templates.

M13 cloning vectors have been developed for the selection of DNA sequences capable of directing initiation of DNA synthesis on single-stranded templates. These vectors are derived from viable M13 mutants containing large deletions in the region of the complementary strand origin. The deletion mutants are defective in the conversion of viral single strands to the duplex replicative form (SS leads to RF) both in vivo and in vitro, give a reduced phage yield and form turbid plaques. A receptor site for foreign single strand initiation determinants has been introduced into the mutants by the insertion of EcoRI linker sequences at the deletion sites. Specific cloned sequences from bacteriophage G4 RF and from Co1E1 DNA restore a clear plaque type and normal phage growth. Selection of clear-plaque isolates obtained by transfection with RF from one of these vectors, M13 delta E101, carrying inserted Co1E1 HaeIII fragments resulted in the selective cloning of one specific fragment, the HaeIII-E fragment. Insertion of either the H or L strand of the HaeIII-E fragment into the M13 delta E101 viral strand gives a clear plaque phenotype, indicating the presence of initiation determinants on both the H- and L-strands of the Co1E1 HaeIII-E fragment. These cloning vectors provide a new means for the functional dissection of replication origins and for the identification of DNA sequences that determine the enzymatic mechanism of discontinuous synthesis along the length of the bacterial chromosome. The ability to assess initiation capability on the basis of plaque morphology also provides a means for rapid genetic analysis of initiation determinants.