Lambda phage

About: Lambda phage is a research topic. Over the lifetime, 1609 publications have been published within this topic receiving 84675 citations. The topic is also known as: Enterobacteria phage lambda.

Lethal effect of λ DNA terminase in recombination deficient Escherichia coli

Abstract: λ DNA terminase is the enzyme that catalyses the cleavage of λ DNA concatemers into genome-size molecules and packages them into the capsid. The cleavage (DNA maturation) takes place in a specific site in the phage DNA called cos. Either one of two Escherichia coli proteins, integration host factor (IHF) and terminase host factor (THF), is required, in addition to terminase, for maturation of wild-type λ DNA in vitro. In vivo, at least some cos cleavage is known to occur in mutants that are unable to synthesize active IHF. No THF-defective mutants have yet been isolated. In order to determine if IHF, THF or any other host protein is involved in λ DNA maturation in vivo, I devised a selection for host mutants that are unable to support cos cleavage. The selection is based on the assumption that λ DNA terminase will kill cells by cleaving chromosomally located cos sites. I found that DNA terminase will indeed kill cells provided that they contain a chromosomal cos site and provided also that they are defective in the host recA or recB genes. These two genes are required for certain pathways of genetic recombination and repair of damaged DNA, and I suggest that they prevent terminase-induced killing by repairing broken chromosomes. Interstingly, mutation in a related host gene, recD, did not render cells susceptible to terminase killing. recD and recB both encode subunits of exonuclease V, but recD mutants, unlike recB, remain proficient in genetic recombination and repair. I found mutants that survived the lethal effect of terminase in cos-containing E. coli recA at a frequency of about 5×10-5. About 90% of these survivors were defective in terminase synthesis, and the rest were defective in IHF function. This result suggests that in the absence of IHF in vivo cos cleavage decreases to a level that permits repair of the damage, and therefore survival, even in recombination deficient cells. The absence of mutations in any other host gene suggests that IHF is the major accessory factor in λ DNA maturation in vivo. Alternatively, or in addition, mutations in other accessory factors are lethal.

RNA-primed intitiation sites of DNA replication in the origin region of bacteriophage λ genome

Abstract: Using DNA molecules synthesized in the early stage of lambda phage infection, deoxynucleotides at the transition sites from primer RNA to DNA synthesis have been mapped in the 1.5 kbase area of the lambda phage genome containing the genetically defined replication origin (ori lambda). Sites in the 1-strand (the polarity of the 1-strand is 5' to 3' from the left to the right direction of the lambda phage genetic map) were distributed both inside and outside of the ori lambda, whereas the sites in the r-strand (the strand in the opposite polarity) were mainly distributed more than three hundred nucleotides apart from the ori lambda to the right. A CPuPu sequence was found at -12 to -10 region of transition sites of the r- and the 1-strands in the frequency of 80% and 70%, respectively, and over 60% of the CPuPu sequences were CAG. Properties of the transition sites are discussed in relation to the primer synthesis.

Molecular cloning of the major outer membrane protein of Chlamydia trachomatis.

Abstract: A gene library of Chlamydia trachomatis (serovar L1) DNA has been prepared in the phage vector lambda 1059. From this bank, 20 recombinant phage-expressing components which reacted with serum from a patient with a C. trachomatis (L1) infection were chosen. Selective expression and radiolabeling of phage polypeptides in irradiated Escherichia coli demonstrated that one of these clones encoded a polypeptide doublet with an apparent molecular weight similar to that of the C. trachomatis (L1) major outer membrane protein. Both species of this cloned doublet (40 and 41 kilodaltons) could be immunoprecipitated by serum from a patient with a C. trachomatis (L1) infection but not by normal human serum. Components of this apparent molecular weight were not precipitated from irradiated E. coli infected with vector phage lambda 1059 by either of these sera. Comparison of the Staphylococcus aureus-V8 protease peptide maps of these two cloned polypeptides and chlamydial major outer membrane protein extracted from elementary bodies showed all three polypeptides to produce peptide fragments of 15.5, 13.8, and 11.5 kilodaltons. Due to the identical apparent molecular weights of the fragments produced from the 40- and 41-kilodalton cloned polypeptides, these were concluded to be different conformational forms of the same molecular species. These cloned components were indistinguishable from C. trachomatis (L1) major outer membrane protein.

Rapid isolation of genes from bacterial lambda libraries by direct polymerase chain reaction screening

Abstract: A method for the direct screening of bacterial λ libraries by polymerase chain reaction technology has been developed. This technique permits the identification and isolation of specific DNA sequences without the need for any filter hybridisation or radioactive probing. This strategy has been used to isolate a gene encoding lactate dehydrogenase from a Lactococcus lactis λ library.