Evolutionary relationships among actinophages and a putative adaptation for growth in Streptomyces spp
about
Ribosomal frameshifting and transcriptional slippage: From genetic steganography and cryptography to adventitious useGenomic and proteomic features of mycobacteriophage SWU1 isolated from China soilMolecular Genetics of Mycobacteriophages.A novel Streptomyces spp. integration vector derived from the S. venezuelae phage, SV1Software-based analysis of bacteriophage genomes, physical ends, and packaging strategies.Complete Genome Sequence of Streptomyces parvulus 2297, Integrating Site-Specifically with Actinophage R4.Cluster M mycobacteriophages Bongo, PegLeg, and Rey with unusually large repertoires of tRNA isotypes.Genome Sequences of Streptomyces Phages Amela and Verse.Augmented genetic decoding: global, local and temporal alterations of decoding processes and codon meaning.Tales of diversity: Genomic and morphological characteristics of forty-six Arthrobacter phages.Actinophage R4 integrase-based site-specific chromosomal integration of non-replicative closed circular DNA.Genome Sequences of Five Streptomyces Bacteriophages Forming Cluster BG.Complete Genome Sequence of the Streptomyces Phage Nanodon.High-efficiency translational bypassing of non-coding nucleotides specified by mRNA structure and nascent peptide.Recombination directionality factor gp3 binds ϕC31 integrase via the zinc domain, potentially affecting the trajectory of the coiled-coil motif.Complete Genome Sequence of Streptomyces Bacteriophage Abt2graduatex2.Eight Genome Sequences of Cluster BE1 Phages That Infect Streptomyces Species.
P2860
Q26970809-DB9CF32F-AB5B-4E34-B8E8-8A2BBBE7BFDBQ28821914-E3572EFA-9F09-4FDE-BB2F-30350992A102Q34349353-0BEE9331-2E6A-4453-A2BB-82B20D0F4CF7Q35178964-BB73188E-44B6-4C70-A81D-52C0C75592FAQ36113451-FDAE2C94-BCF1-4BA3-B573-077EA548B100Q37210422-9D945858-19F7-40B1-A0F5-6149905D3544Q38330417-A53D4352-D99F-4B14-BE6C-CDFA12505A38Q38550618-26A3E4ED-8B45-40A8-A3BD-BD1E47896665Q38563962-19A43E1B-06D3-4B93-9F26-23B9C80D8F8BQ40131943-5AFC3957-F5A7-4258-AD85-8646BFE977CEQ40913881-49AA6EEA-CA9A-4B1B-BC51-72EEC68C5EC8Q41024541-052FF489-CC6E-4F1D-91E5-D0BC9B301679Q41359828-0F39DF68-DEBC-492A-84F3-D45C256BEF61Q42205094-6DBE8A88-93BB-4C39-9BEB-292A20A382EDQ47307302-53B19657-69A3-4D98-BF94-7047AB6FB9D9Q48216303-8C7C8C23-E79F-419E-9F37-2135A27D9279Q48257838-1E48AD96-55E0-42A9-A619-8146D3F80268
P2860
Evolutionary relationships among actinophages and a putative adaptation for growth in Streptomyces spp
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 30 August 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Evolutionary relationships amo ...... for growth in Streptomyces spp
@en
Evolutionary relationships amo ...... or growth in Streptomyces spp.
@nl
type
label
Evolutionary relationships amo ...... for growth in Streptomyces spp
@en
Evolutionary relationships amo ...... or growth in Streptomyces spp.
@nl
prefLabel
Evolutionary relationships amo ...... for growth in Streptomyces spp
@en
Evolutionary relationships amo ...... or growth in Streptomyces spp.
@nl
P2093
P2860
P50
P356
P1476
Evolutionary relationships amo ...... for growth in Streptomyces spp
@en
P2093
Daniel Russell
Deborah Jacobs-Sera
Florence Pethick
Graham F Hatfull
Margaret C M Smith
Maureen J Bibb
Paul Herron
Rebekah Dedrick
Roger W Hendrix
P2860
P304
P356
10.1128/JB.00618-13
P407
P577
2013-08-30T00:00:00Z