A common evolutionary origin for tailed-bacteriophage functional modules and bacterial machineries.
about
Type VI secretion system: secretion by a contractile nanomachineBacteriophages of lactic acid bacteria and their impact on milk fermentationsVirus maturationAligning the unalignable: bacteriophage whole genome alignmentsViral infection modulation and neutralization by camelid nanobodiesStructural Basis for Type VI Secretion Effector Recognition by a Cognate Immunity ProteinValidated near-atomic resolution structure of bacteriophage epsilon15 derived from cryo-EM and modelingStructural Characterization of the Bacteriophage T7 Tail MachineryStructure of the phage TP901-1 1.8 MDa baseplate suggests an alternative host adhesion mechanismStructure of the receptor-binding carboxy-terminal domain of bacteriophage T7 tail fibersCrystal Structure of pb9, the Distal Tail Protein of Bacteriophage T5: a Conserved Structural Motif among All SiphophagesExploring the atomic structure and conformational flexibility of a 320 Å long engineered viral fiber using X-ray crystallographyX-ray structure of a superinfection exclusion lipoprotein from phage TP-J34 and identification of the tape measure protein as its targetOpening the door to new virus interactions in the aquatic worldThe Type VI secretion system spike protein VgrG5 mediates membrane fusion during intercellular spread by pseudomallei group Burkholderia speciesExposing the secrets of two well-known Lactobacillus casei phages, J-1 and PL-1, by genomic and structural analysisIlluminating structural proteins in viral "dark matter" with metaproteomicsMan and his spaceships: Vehicles for extraterrestrial colonization?Maturation in action: CryoEM study of a viral capsid caught during expansionProtein profiling analyses of the outer membrane of Burkholderia cenocepacia reveal a niche-specific proteome.Characterization of the initial steps in the T7 DNA ejection process.Putative type 1 thymidylate synthase and dihydrofolate reductase as signature genes of a novel Bastille-like group of phages in the subfamily Spounavirinae.Cryo-electron microscopy structure of lactococcal siphophage 1358 virion.Molecular characterization of a novel temperate sinorhizobium bacteriophage, ФLM21, encoding DNA methyltransferase with CcrM-like specificity.Bacteriophage SPP1 tail tube protein self-assembles into β-structure-rich tubes.DNA sequence heterogeneity of Campylobacter jejuni CJIE4 prophages and expression of prophage genesAutomated classification of tailed bacteriophages according to their neck organization.Structure and Assembly of TP901-1 Virion Unveiled by Mutagenesis.Structural rearrangements in the phage head-to-tail interface during assembly and infection.Genomic Analysis of Broad-Host-Range Enterobacteriophage Av-05A novel lineage of myoviruses infecting cyanobacteria is widespread in the oceansStructural biology of type VI secretion systems.Hypervariable loci in the human gut virome.Comparative genomics and functional analysis of the 936 group of lactococcal Siphoviridae phagesIndependent Co-Option of a Tailed Bacteriophage into a Killing Complex in PseudomonasA widespread bacterial type VI secretion effector superfamily identified using a heuristic approach.Hcp2, a secreted protein of the phytopathogen Pseudomonas syringae pv. tomato DC3000, is required for fitness for competition against bacteria and yeastsA multivalent adsorption apparatus explains the broad host range of phage phi92: a comprehensive genomic and structural analysis.Visualizing a complete Siphoviridae member by single-particle electron microscopy: the structure of lactococcal phage TP901-1.Characterization of a novel Achromobacter xylosoxidans specific siphoviruse: phiAxp-1.
P2860
Q26787001-8045BDF2-A840-408E-A783-6E3EB49EAD3CQ26865647-DCC39EBB-3633-454E-93DD-887BE2DD79D3Q27016569-75DD6E51-0F1E-4801-91E7-368C5849081BQ27319503-EF0832C1-8E8D-41AE-A242-C99F06A58E07Q27677064-2CB54077-660D-48AA-8401-A96FD9C72E76Q27678590-EF66210B-B73F-482C-AB6C-3B665D0B1B3FQ27679009-656396CC-24F9-4CEF-BA5C-7FCCF571E01EQ27679194-EF96C3EA-9247-4973-B97D-D5E8DB60A0F8Q27679210-3B99CFF2-B2D1-4CC3-82F4-70E74841133FQ27679354-DC15A610-BD86-436F-A8F1-DF638601425BQ27680450-2CE066F4-0B6B-4AF4-91A9-34A2EE6292C9Q27681756-4D84685D-288F-4DF2-9F5D-DBB90C81659CQ27684650-018B2C20-ED99-452B-8C3C-5285D4AC83C3Q27980833-2B2A928F-F248-4AC5-A2D6-28D22BAA0697Q28305769-CF33CC1A-E4FA-4738-A828-EFE6F001E0A3Q28383307-2DE88D6C-2D4D-40FC-9100-A9248AC5B40FQ28603194-1EFF2AF9-2543-4B00-AC7A-4E0E1F4C3939Q28708842-43CE649A-2C03-4A17-92F2-AB8A47160F07Q28728451-774C3C4C-C7A9-470D-990D-905FD9794518Q30153358-3F4CABFC-13D7-4349-8396-4F61492493EDQ30380196-72B09D8B-8D08-432B-B588-FF5D58A9FF80Q30985711-CE8424DB-E8D9-4DBF-910A-C3FDF07068C5Q34059091-8BD8CFE7-7CE5-46CB-9AEE-0C0178F64A32Q34594463-E65BF52D-7963-4596-8CDE-9C4C184720CDQ35055657-55A4D5AC-8F22-415A-A22E-EDE7F374FCB1Q35155274-A3C8EA82-17E9-4B60-82A8-3512640BC488Q35185538-BF0AF80C-98F5-4BD0-93AE-1B5D05487D52Q35684071-09403FB1-58C1-4A29-97B1-D6E5B0B9361BQ35699096-BDD5A276-B72C-40E2-8FB5-9503CED3ABA5Q35722254-0FEEF84F-751A-40A0-ABD2-CC3EEB10B595Q35750842-0174251C-C4E5-47DF-A445-4C721517FC23Q35814718-9F770344-F857-4F3E-9DFD-93D9854C07B2Q35844879-E8185A61-8F01-482F-BDE7-76C369E1AF41Q35927754-096DB4D6-4F0D-491D-AF8A-904AFCE46274Q35973007-7B269C02-14EF-42B5-83EF-1DC2AFC418CCQ35982125-936ACB48-A7D4-4A16-8C89-642AE70B9A7EQ36197448-B5DE9D88-3C5F-4609-B4A3-B88F7BAD77E1Q36276483-51DBED27-C2DA-47F8-A5E1-72A34985A15AQ36559645-57BD342A-677D-4000-A4EB-B76C10B9A774Q36611244-5B0CD7E9-9B7B-4B28-A19E-35D04890FC65
P2860
A common evolutionary origin for tailed-bacteriophage functional modules and bacterial machineries.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
A common evolutionary origin f ...... les and bacterial machineries.
@en
A common evolutionary origin f ...... les and bacterial machineries.
@nl
type
label
A common evolutionary origin f ...... les and bacterial machineries.
@en
A common evolutionary origin f ...... les and bacterial machineries.
@nl
prefLabel
A common evolutionary origin f ...... les and bacterial machineries.
@en
A common evolutionary origin f ...... les and bacterial machineries.
@nl
P2860
P356
P1476
A common evolutionary origin f ...... les and bacterial machineries.
@en
P2093
Christian Cambillau
David Veesler
P2860
P304
423-33, first page of table of contents
P356
10.1128/MMBR.00014-11
P577
2011-09-01T00:00:00Z