A viral packaging motor varies its DNA rotation and step size to preserve subunit coordination as the capsid fills
about
Prohead RNA: a noncoding viral RNA of novel structure and functionMechanisms of DNA Packaging by Large Double-Stranded DNA VirusesEnergy coupling mechanisms of MFS transportersThe scrunchworm hypothesis: transitions between A-DNA and B-DNA provide the driving force for genome packaging in double-stranded DNA bacteriophagesStructure of a Bacterial Virus DNA-Injection Protein Complex Reveals a Decameric Assembly with a Constricted Molecular ChannelPortal protein functions akin to a DNA-sensor that couples genome-packaging to icosahedral capsid maturation.Mechanical operation and intersubunit coordination of ring-shaped molecular motors: insights from single-molecule studiesEfficient modification of λ-DNA substrates for single-molecule studies.Nonequilibrium dynamics and ultraslow relaxation of confined DNA during viral packaging.Single-molecule packaging initiation in real time by a viral DNA packaging machine from bacteriophage T4.Continuous allosteric regulation of a viral packaging motor by a sensor that detects the density and conformation of packaged DNA.Structure and mechanism of the ATPase that powers viral genome packaging.DNA Scrunching in the Packaging of Viral Genomes.Architecture of the Complex Formed by Large and Small Terminase Subunits from Bacteriophage P22.An RNA Domain Imparts Specificity and Selectivity to a Viral DNA Packaging Motor.Two-subunit DNA escort mechanism and inactive subunit bypass in an ultra-fast ring ATPase.Biological Nanomotors with a Revolution, Linear, or Rotation Motion MechanismStructural and Molecular Basis for Coordination in a Viral DNA Packaging MotorDivergent Evolution of Nuclear Localization Signal Sequences in Herpesvirus Terminase Subunits.Kinetics of DNA uptake during transformation provide evidence for a translocation ratchet mechanism.Transitions of Double-Stranded DNA Between the A- and B-Forms.Old, new, and widely true: The bacteriophage T4 DNA packaging mechanismATP-Driven Contraction of Phage T3 Capsids with DNA Incompletely Packaged In Vivo.High-resolution, hybrid optical trapping methods, and their application to nucleic acid processing proteins.Scaling, crumpled wires, and genome packing in virions.Cryo-EM structure of the bacteriophage T4 isometric head at 3.3-Å resolution and its relevance to the assembly of icosahedral viruses.Phi29 Connector-DNA Interactions Govern DNA Crunching and Rotation, Supporting the Check-Valve Model.Experimental comparison of forces resisting viral DNA packaging and driving DNA ejection.Deciphering the Molecular Mechanism of the Bacteriophage φ29 DNA Packaging Motor.Single DNA molecule jamming and history-dependent dynamics during motor-driven viral packaging.Forces from the Portal Govern the Late-Stage DNA Transport in a Viral DNA Packaging NanomotorFinding of widespread viral and bacterial revolution dsDNA translocation motors distinct from rotation motors by channel chirality and sizeTesting a proposed paradigm shift in analysis of phage DNA packaging.Two classes of nucleic acid translocation motors: rotation and revolution without rotation.Molecular interactions and residues involved in force generation in the T4 viral DNA packaging motor.Biophysics. Ultraslow relaxation of confined DNA.Allocating dissipation across a molecular machine cycle to maximize flux.Energy coupling mechanisms of AcrB-like RND transporters.States of phage T3/T7 capsids: buoyant density centrifugation and cryo-EM.Bacterial Translocation Ratchets: Shared Physical Principles with Different Molecular Implementations: How bacterial secretion systems bias Brownian motion for efficient translocation of macromolecules.
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P2860
A viral packaging motor varies its DNA rotation and step size to preserve subunit coordination as the capsid fills
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on April 2014
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
A viral packaging motor varies ...... ordination as the capsid fills
@en
A viral packaging motor varies ...... rdination as the capsid fills.
@nl
type
label
A viral packaging motor varies ...... ordination as the capsid fills
@en
A viral packaging motor varies ...... rdination as the capsid fills.
@nl
prefLabel
A viral packaging motor varies ...... ordination as the capsid fills
@en
A viral packaging motor varies ...... rdination as the capsid fills.
@nl
P2093
P2860
P50
P1433
P1476
A viral packaging motor varies ...... ordination as the capsid fills
@en
P2093
Craig L Hetherington
Joerg Schnitzbauer
K Aathavan
Sara Tafoya
Shelley Grimes
Shixin Liu
P2860
P304
P356
10.1016/J.CELL.2014.02.034
P407
P577
2014-04-01T00:00:00Z