Topic
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.
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TL;DR: These two mutations in the gyrB gene of Escherichia coli K12 obtained from an initial selection for resistance to coumermycin A1 and a subsequent screening for bacteria that fail to support site-specific recombination of phage lambda have a temperature-sensitive Him- phenotype, supporting site- specific recombination efficiently at low temperature, but inefficiently at high temperatures.
Abstract: We report the isolation of two mutations in the gyrB gene of Escherichia coli K12 obtained from an initial selection for resistance to coumermycin A1 and a subsequent screening for bacteria that fail to support site-specific recombination of phage lambda, i.e., Him-. These two mutations have a temperature-sensitive Him- phenotype, supporting site-specific recombination efficiently at low temperature, but inefficiently at high temperatures. Like other Him mutants, the gyrB-him mutants fail to plate phage Mu; again this defect is observed only at high temperatures. Additional thermally sensitive characteristics have also been observed; growth of lambda as well as maintenance of the plasmids pBR322 and F' gal are reduced at high temperature. Restriction of foreign DNA imposed by a P1 prophage is also reduced in these mutants. The temperature-sensitive phenotypic characteristics imposed by both the gyrB-him-230(Ts) and gyrB-him-231(Ts) mutations correlate with in vitro studies that show decreased gyrase activity, especially at higher temperatures, and in vivo studies showing reduced supercoiling of lambda DNA in the mutants at high temperature.
39 citations
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TL;DR: The extent to which DNA ejection is incomplete at zero osmotic external pressure when phage is opened with its receptor in vitro is investigated and DNA can be "pulled" out from the capsid by DNase I acting as a DNA binding protein or spermine acting as an DNA condensing agent.
Abstract: We have recently demonstrated, that DNA ejection from bacteriophage I can be partially or completely suppressed in vitro by external osmotic pressure. This suggests that DNA ejection from phage is driven by an internal mechanical force consisting of DNA bending and DNA-DNA electrostatic repulsion energies. In the present work we investigate the extent to which DNA ejection is incomplete at zero osmotic external pressure when phage is opened with its receptor in vitro. The DNA fragment remaining in the capsid and the tail that is no longer bent or compressed sand hence for which there is no internal driving force for ejections is shown not to be ejected. We also demonstrate that DNA can be "pulled" out from the capsid by DNase I acting as a DNA binding protein or spermine acting as a DNA condensing agent. In particular, cryo electron microscopy and gel electrophoresis experiments show the following: (i) DNA ejection from bacteriophage I incubated in vitro with its receptor is incomplete at zero external osmotic force, with several persistence lengths of DNA remaining inside the phage capsid, if no nuclease ( DNase I) or DNA condensing agent ( spermine) is present in the host solution; (ii) in the presence of both DNase I and spermine in the host solution, 60% (approximate to 29 kbp) of wild-type lambda DNA (48.5 kbp) remains unejected inside the phage capsid, in the form of an unconstrained toroidal condensate; (iii) with DNase I added, but no spermine, the ejection is complete; (iv) with spermine, but without DNase I added, all the DNA is again ejected, and organized as a toroidal condensate outside. (Less)
39 citations
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39 citations
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TL;DR: The existence of the amber mutant provides further evidence that rex and cI are distinct genes, since it seems to be identical to wild-type lambda in its ability to establish or maintain lysogeny.
Abstract: Twenty-five rex− mutants of phage lambda have been isolated. Three of the mutants, including one amber mutant, map at three distinct sites within the rex region of the lambda genetic map. The existence of the amber mutant provides further evidence that rex and cI are distinct genes, since it seems to be identical to wild-type lambda in its ability to establish or maintain lysogeny.
39 citations
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TL;DR: The results suggest a model whereby successful biolistic transformation relies on a combination of end joining to insert foreign DNA and HDR to repair collateral damage caused by the microprojectiles.
Abstract: We biolistically transformed linear 48 kb phage lambda and two different circular plasmids into rice and maize and analyzed the results by whole genome sequencing and optical mapping. While some transgenic events showed simple insertions, others showed extreme genome damage in the form of chromosome truncations, large deletions, partial trisomy, and evidence of chromothripsis and breakage-fusion bridge cycling. Several transgenic events contained megabase-scale arrays of introduced DNA mixed with genomic fragments assembled by non-homologous or microhomology-mediated joining. Damaged regions of the genome, assayed by the presence of small fragments displaced elsewhere, were often repaired without a trace, presumably by homology-dependent repair (HDR). The results suggest a model whereby successful biolistic transformation relies on a combination of end joining to insert foreign DNA and HDR to repair collateral damage caused by the microprojectiles. The differing levels of genome damage observed among transgenic events may reflect the stage of the cell cycle and the availability of templates for HDR.
39 citations