Results 231 to 240 of about 125,595 (262)
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Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology, 2002
Marine phages are the most abundant biological entities in the oceans. They play important roles in carbon cycling through marine food webs, gene transfer by transduction and conversion of hosts by lysogeny. The handful of marine phage genomes that have been sequenced to date, along with prophages in marine bacterial genomes, and partial sequencing of ...
John H, Paul +3 more
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Marine phages are the most abundant biological entities in the oceans. They play important roles in carbon cycling through marine food webs, gene transfer by transduction and conversion of hosts by lysogeny. The handful of marine phage genomes that have been sequenced to date, along with prophages in marine bacterial genomes, and partial sequencing of ...
John H, Paul +3 more
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The genomes and comparative genomics of Lactobacillus delbrueckii phages
Archives of Virology, 2011Lactobacillus delbrueckii phages are a great source of genetic diversity. Here, the genome sequences of Lb. delbrueckii phages LL-Ku, c5 and JCL1032 were analyzed in detail, and the genetic diversity of Lb. delbrueckii phages belonging to different taxonomic groups was explored.
Katja-Anneli, Riipinen +2 more
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Phage DNA Extraction, Genome Assembly, and Genome Closure
2023Bacteriophages, or more simply phages, are currently experiencing a renaissance in life science research for their roles in natural microbial communities, their potential use as antimicrobials, and biotechnological applications. In the modern era, one of the primary steps in phage characterization is obtaining the sequence of the complete genome; this ...
Justin, Boeckman +3 more
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Phage genome engineering with retrons
Nature BiotechnologyIlya A Osterman +2 more
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Cell Host & Microbe
Deciphering the relationship between bacteriophage genotypes and phenotypes has been limited by a lack of genetic tractability and high-throughput screening methods. In this issue of Cell Host & Microbe, Chen et al. establish PhageMaP for generating phage mutant libraries to systematically interrogate phage gene function.
Shelby E. Andersen, Breck A. Duerkop
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Deciphering the relationship between bacteriophage genotypes and phenotypes has been limited by a lack of genetic tractability and high-throughput screening methods. In this issue of Cell Host & Microbe, Chen et al. establish PhageMaP for generating phage mutant libraries to systematically interrogate phage gene function.
Shelby E. Andersen, Breck A. Duerkop
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The Genome of φAsp2, an Actinoplanes Infecting Phage
Virus Genes, 2004The first genome of a virus infecting a representative of the eubacterial genus Actinoplanes is presented. Phage phiAsp2 has a circularly permutated chromosome that consists of 58,638 bp; its G/C-bias of 70.39% resembles the hosts G + C-content (71-73% within the genus).
Martin, Jarling +3 more
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On the transcription of the Φ 80 phage genome
Molecular and General Genetics MGG, 1969The transcription mechanism during vegetative growth of coliphage Φ 80 was studied. The phage mRNA was assayed as the molecules hybridizable with “right-arm”, “left-arm” and “center” portions of the Φ 80 genome. The “left-arm” portion contains genes for head and tail formation, the “right-arm” portion contains genes for immunity, early functions and ...
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The genome of B. subtilis phage SPP1
Molecular and General Genetics MGG, 197941 genes of SPP1 have been delineated by using complementation analyses of 75 conditionally lethal (ts and sus) mutations. The physical locations of these genes on the SPP1 chromosome have been determined by transfection/marker rescue experiments in which restriction endonuclease generated fragments of SPP1 DNA were used as donor DNA.
B, Behrens +4 more
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2003
The first genome, that of RNA bacteriophage MS2, was sequenced in 1976, in a truly heroic feat of direct determination of an RNA sequence [225]. This was followed by the genome of bacteriophage ϕX174, the first triumph of the new, rapid sequencing methods developed in the laboratories of Walter Gilbert and Fred Sanger [553,743].
Eugene V. Koonin, Michael Y. Galperin
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The first genome, that of RNA bacteriophage MS2, was sequenced in 1976, in a truly heroic feat of direct determination of an RNA sequence [225]. This was followed by the genome of bacteriophage ϕX174, the first triumph of the new, rapid sequencing methods developed in the laboratories of Walter Gilbert and Fred Sanger [553,743].
Eugene V. Koonin, Michael Y. Galperin
openaire +1 more source