Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection - Wikidata - awgldk - TriplyDB

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

http://www.wikidata.org/entity/Q27687962

about

Structural plasticity of helical nanotubes based on coiled-coil assemblies Minicells, Back in Fashion Structure of a Bacterial Virus DNA-Injection Protein Complex Reveals a Decameric Assembly with a Constricted Molecular Channel Archaeal Haloarcula californiae Icosahedral Virus 1 Highlights Conserved Elements in Icosahedral Membrane-Containing DNA Viruses from Extreme Environments CCBuilder: an interactive web-based tool for building, designing and assessing coiled-coil protein assemblies.High-resolution structure of a virally encoded DNA-translocating conduit and the mechanism of DNA penetration.Payoffs, not tradeoffs, in the adaptation of a virus to ostensibly conflicting selective pressures.Structural rearrangements in the phage head-to-tail interface during assembly and infection.Structural remodeling of bacteriophage T4 and host membranes during infection initiation Formation of functional super-helical assemblies by constrained single heptad repeat Cell Walls and the Convergent Evolution of the Viral Envelope.The Global Reciprocal Reprogramming between Mycobacteriophage SWU1 and Mycobacterium Reveals the Molecular Strategy of Subversion and Promotion of Phage Infection New approach to develop ultra-high inhibitory drug using the power function of the stoichiometry of the targeted nanomachine or biocomplex.Structure-Function Analysis of the ϕX174 DNA-Piloting Protein Using Length-Altering Mutations.Natural supramolecular protein assemblies.Coiled-Coil Design: Updated and Upgraded.Membrane Penetration by Bacterial Viruses.Conformational changes leading to T7 DNA delivery upon interaction with the bacterial receptor.Large-scale maps of variable infection efficiencies in aquatic Bacteroidetes phage-host model systems.Dual host specificity of phage SP6 is facilitated by tailspike rotation.Ultrastructural analysis of bacteriophage Φ29 during infection of Bacillus subtilis.PhiXing-it, displaying foreign peptides on bacteriophage ΦX174.The Kinetic and Thermodynamic Aftermath of Horizontal Gene Transfer Governs Evolutionary Recovery.The advent of structural biology in situ by single particle cryo-electron tomography.Bacteriophage P22 ejects all of its internal proteins before its genome.Homologues of Genetic Transformation DNA Import Genes Are Required for Rhodobacter capsulatus Gene Transfer Agent Recipient Capability Regulated by the Response Regulator CtrA Mutations in the N terminus of the oX174 DNA pilot protein H confer defects in both assembly and host cell attachment.A new Microviridae phage isolated from a failed biotechnological process driven by Escherichia coli.Structural changes of tailless bacteriophage ΦX174 during penetration of bacterial cell walls.Breaking Symmetry in Viral Icosahedral Capsids as Seen through the Lenses of X-ray Crystallography and Cryo-Electron Microscopy.Rhodobacter capsulatus DprA is essential for RecA-mediated gene transfer agent (RcGTA) recipient capability regulated by quorum-sensing and the CtrA response regulator.Maintaining and breaking symmetry in homomeric coiled-coil assemblies

P2860

Q27303615-E62C0209-5D57-422B-8C88-147EE0BA2519 Q28072415-67867267-01EF-48BA-9B68-7BD887D62C12 Q28550212-911A787D-C34A-492C-8024-9796A8F2F836 Q28595949-CF616A3F-B500-4148-9A62-CAA097977C17 Q30365149-09B78390-B958-48F8-BCC0-1E2701875389 Q34262340-89926D63-3A04-4BA6-A2A8-E8BB2042E227 Q35294643-8F7C03BF-1524-4DA5-BB93-CC6B3181E902 Q35699096-AE897CE4-7C0C-4D49-85BC-E30F7DFBA92E Q36055585-08396DEC-F2D7-4344-84BB-168490D7A347 Q36251804-7313AF25-30BB-4F65-8383-F70106DD9FC1 Q36294722-25A4EDF0-A20D-438B-AD9B-982FB3253D2B Q36511397-10138613-044E-4758-923B-8E7537BFF7D8 Q36522581-1131D7B7-BFC9-424E-B6FE-A07CD26983FC Q37182709-9D21605A-2576-4944-AC8E-3FBC37F23D0E Q38615267-F5D785BE-504A-4149-BA5D-4271BEFAFC3F Q39094574-F5FE560A-6756-416C-AA57-1575336D95DD Q39239083-A02A9AEB-6BDA-49FD-B374-6B8B7EF8CFBA Q39715185-AB494B86-7DD9-4B24-B9F4-6C8E4C9CFF09 Q39729138-56057B0D-DB4D-442F-98ED-C4FED9F9F886 Q40222054-CBB00A7D-4B01-4834-9621-32AB98ED2FE6 Q40592729-2436310F-9C5C-409E-B4E5-99CF06D03480 Q40876140-53CC07E9-968F-43B0-B552-DC5C4347DD03 Q40887946-7B6DBF25-AD31-4189-99E9-B423E04FCDE7 Q41051422-75403AE3-B615-4B7F-92FE-E2A06F0C4EF4 Q41070537-378A74E9-5998-42F0-8D95-9100C3ACCC8D Q41703108-196EF8F8-154C-44D8-9C1F-B23FED3B008B Q41908968-06DA57BF-D2F4-47FA-81DC-14DDBACD5F1B Q42192586-E5CBA8EF-F62D-4EDE-9AC9-974CAD051BEC Q47260262-A12A163C-A248-4B23-BAD5-0EBAA0D77D9F Q50133897-91A3D46C-10BA-48FB-97F2-E2B9E806D7A1 Q54289988-8C50C2AA-EA86-49B8-BC40-7AA74FA69513 Q57295487-BB159F04-C6C3-4760-8FAE-3070AEC139BC

P2860

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

http://www.wikidata.org/entity/Q27687962

description

2014 nî lūn-bûn

@nan

2014 թուականի Յունուարին հրատարակուած գիտական յօդուած

@hyw

2014 թվականի հունվարին հրատարակված գիտական հոդված

@hy

2014年の論文

@ja

2014年学术文章

@wuu

2014年学术文章

@zh-cn

2014年学术文章

@zh-hans

2014年学术文章

@zh-my

2014年学术文章

@zh-sg

2014年學術文章

@yue

name

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@ast

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@en

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@nl

type

label

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@ast

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@en

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@nl

prefLabel

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@ast

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@en

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@nl

P1433

Q27687962-0A00EEB6-86AA-45EC-B808-AD2DE3F65CC1

P1476

Q27687962-FD8DAD10-1A73-4D8B-AAA9-5D308A808777

P2093

Q27687962-0542337F-6308-4EE5-9794-D796E2660130

Q27687962-0F589498-9DB9-46C8-B7F9-218D2263A442

Q27687962-0FB8A319-215C-4E85-AE73-EAEEA6543E6B

Q27687962-1D15A8DA-061D-4B26-93AE-D9989960512D

Q27687962-2FF1697D-981F-4E41-BAEF-8A080EB99732

Q27687962-682C8EA8-4C7C-42CD-948F-6018CFFE892C

Q27687962-8046606E-4D47-4E6B-81E9-DA0036A6A789

Q27687962-D3869A7C-249A-43E4-BD48-883322629B35

Q27687962-E108BE47-99F9-454B-B4DE-CB1F12D71A4B

P2860

Q27687962-01BEAE4E-45A5-4479-868C-831D68AFAD17

Q27687962-121A9BAF-1755-4A4D-8686-5B7887DD8A5C

Q27687962-15D0603D-6128-470E-8F5B-97E1D1C62FB8

Q27687962-162B7F91-5E1E-4059-964A-35DE132BAF92

Q27687962-1BEA3418-52B8-4283-924A-8DFDB771FED9

Q27687962-214B8133-B5F8-475D-88F9-365A4B8C3086

Q27687962-272D7144-00F2-41D5-8B32-B5EC4B2884C9

Q27687962-30635ADB-0E79-461E-9DAD-BD1D6525DAC2

Q27687962-36894183-DC69-4EF4-B5B3-15438BF05533

Q27687962-5307E0ED-E065-439E-B4AC-FD5C47A5FFFD

P2888

Q27687962-658F018D-778D-47A7-87CA-FABE0F698CC2

P304

Q27687962-7BD81542-E6AF-4AAB-9FA9-E994A3913EF3

P31

Q27687962-A47A472F-5359-4DD6-93D2-E6E7631CF22E

P3181

Q27687962-35369E70-1FFB-479F-9E66-702D2763CE16

P356

Q27687962-314552E6-48E1-4C99-A6BE-2983CAD5FEF9

P407

Q27687962-6C178B8A-6F75-479A-BB3D-7F173CB8FB6E

P433

Q27687962-30CAF1A4-CB51-46D8-9EA8-B4D5363342F1

P478

Q27687962-E9119A6A-C84B-4996-A185-9A46DF744ED5

P50

Q27687962-663125B4-261C-4EEF-A660-3B1494A8BB57

P577

Q27687962-5DB6ACB5-634F-4173-8E87-914963C78CCB

P5875

Q27687962-9418BA71-217C-4EDF-8538-AD7CCC9D0BAD

P6179

Q27687962-03F40BC2-08D4-4FFE-B663-E6617FF4AF0F

P698

Q27687962-1574C2DA-CFAA-4BF9-B098-D2480260497C

P921

Q27687962-152855A7-7494-444F-9CE8-9458F1F56BD8

P3181

P356

P1433

P1476

Icosahedral bacteriophage ΦX174 forms a tail for DNA transport during infection

@en

P2093

Aaron P Roznowski

http://www.w3.org/2001/XMLSchema#string

Andrei Fokine

http://www.w3.org/2001/XMLSchema#string

Bentley A Fane

http://www.w3.org/2001/XMLSchema#string

Erica Zbornik

http://www.w3.org/2001/XMLSchema#string

Ian J Molineux

http://www.w3.org/2001/XMLSchema#string

Lei Sun

http://www.w3.org/2001/XMLSchema#string

Lindsey N Young

http://www.w3.org/2001/XMLSchema#string

Sergei P Boudko

http://www.w3.org/2001/XMLSchema#string

Xinzheng Zhang

http://www.w3.org/2001/XMLSchema#string

P2860

The structure of proteins; two hydrogen-bonded helical configurations of the polypeptide chain

PHENIX: a comprehensive Python-based system for macromolecular structure solution

Processing of X-ray diffraction data collected in oscillation mode

Mechanism of membranous tunnelling nanotube formation in viral genome delivery

Atomic structure of single-stranded DNA bacteriophage ΦX174 and its functional implications

The structure of the phage T4 DNA packaging motor suggests a mechanism dependent on electrostatic forces

Three-dimensional structure of a viral genome-delivery portal vertex

A zipper-like duplex in DNA: the crystal structure of d(GCGAAAGCT) at 2.1 A resolution

Coot: model-building tools for molecular graphics

Preparation of selenomethionyl proteins for phase determination

P2888

P304

432-5

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P3181

4498250

http://www.w3.org/2001/XMLSchema#string

P356

10.1038/NATURE12816

http://www.w3.org/2001/XMLSchema#string

P407

P433

7483

http://www.w3.org/2001/XMLSchema#string

P478

505

http://www.w3.org/2001/XMLSchema#string

P50

Michael Rossmann

P577

2014-01-16T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

259321030

http://www.w3.org/2001/XMLSchema#string

P6179

1019072059

http://www.w3.org/2001/XMLSchema#string

P698

24336205

http://www.w3.org/2001/XMLSchema#string

P921