High-speed force spectroscopy unfolds titin at the velocity of molecular dynamics simulations. - Wikidata - wikimedia - TriplyDB

High-speed force spectroscopy unfolds titin at the velocity of molecular dynamics simulations.

High-speed force spectroscopy unfolds titin at the velocity of molecular dynamics simulations.

http://www.wikidata.org/entity/Q46305662

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A fast recoiling silk-like elastomer facilitates nanosecond nematocyst discharge Nanoscale monitoring of drug actions on cell membrane using atomic force microscopy Filming biomolecular processes by high-speed atomic force microscopy Optimizing 1-μs-Resolution Single-Molecule Force Spectroscopy on a Commercial Atomic Force Microscope.Fundamental High-Speed Limits in Single-Molecule, Single-Cell, and Nanoscale Force Spectroscopies Structure and Nanomechanics of Model Membranes by Atomic Force Microscopy and Spectroscopy: Insights into the Role of Cholesterol and Sphingolipids The structure of misfolded amyloidogenic dimers: computational analysis of force spectroscopy data.Invincible DNA tethers: covalent DNA anchoring for enhanced temporal and force stability in magnetic tweezers experiments.Connecting thermal and mechanical protein (un)folding landscapes.Resolving the molecular mechanism of cadherin catch bond formation.High-speed imaging upgrade for a standard sample scanning atomic force microscope using small cantilevers.Communication: Does force spectroscopy of biomolecules probe their intrinsic dynamic properties?Optimizing the calculation of energy landscape parameters from single-molecule protein unfolding experiments.Direct mechanochemical cleavage of functional groups from graphene.Bayesian Uncertainty Quantification for Bond Energies and Mobilities Using Path Integral Analysis.Modular, Nondegenerate Polyprotein Scaffolds for Atomic Force Spectroscopy.Rapid mapping of polarization switching through complete information acquisition.Imaging and Force Recognition of Single Molecular Behaviors Using Atomic Force Microscopy.Ion channels under the sun.Quantitative biomolecular imaging by dynamic nanomechanical mapping.Hidden dynamics in the unfolding of individual bacteriorhodopsin proteins.Kinetic Ductility and Force-Spike Resistance of Proteins from Single-Molecule Force Spectroscopy.Analytical catch-slip bond model for arbitrary forces and loading rates.Theory of rapid force spectroscopy.High-frequency microrheology reveals cytoskeleton dynamics in living cells.Combining in Vitro and in Silico Single-Molecule Force Spectroscopy to Characterize and Tune Cellulosomal Scaffoldin Mechanics.Molecular Simulations Suggest a Force-Dependent Mechanism of Vinculin Activation.Nanoscale imaging and force probing of biomolecular systems using atomic force microscopy: from single molecules to living cells.Beyond Cell-Cell Adhesion: Sensational Cadherins for Hearing and Balance.Force probe simulations using a hybrid scheme with virtual sites.Nanophotonic Atomic Force Microscope Transducers Enable Chemical Composition and Thermal Conductivity Measurements at the Nanoscale.Single-molecule methods leap ahead.Rate dependent response of nanoscale structures having a multiwell energy landscape.Introduction of steered molecular dynamics into UNRES coarse-grained simulations package.Perspective: Mechanochemistry of biological and synthetic molecules.Introduction to Atomic Force Microscopy (AFM) in Biology.Study of protein structural deformations under external mechanical perturbations by a coarse-grained simulation method.Compressive Force Spectroscopy: From Living Cells to Single Proteins.Protein denaturation at a single-molecule level: the effect of nonpolar environments and its implications on the unfolding mechanism by proteases.Unfolding to force.

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P2860

High-speed force spectroscopy unfolds titin at the velocity of molecular dynamics simulations.

http://www.wikidata.org/entity/Q46305662

description

2013 nî lūn-bûn

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2013年の論文

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2013年学术文章

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2013年学术文章

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2013年学术文章

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2013年学术文章

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2013年学术文章

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2013年學術文章

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2013年學術文章

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2013年學術文章

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name

High-speed force spectroscopy ...... olecular dynamics simulations.

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High-speed force spectroscopy ...... olecular dynamics simulations.

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type

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High-speed force spectroscopy ...... olecular dynamics simulations.

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High-speed force spectroscopy ...... olecular dynamics simulations.

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High-speed force spectroscopy ...... olecular dynamics simulations.

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High-speed force spectroscopy ...... olecular dynamics simulations.

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High-speed force spectroscopy ...... molecular dynamics simulations

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Laura Gonzalez

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Manel Puig-Vidal

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P2860

Mechanical unfolding of a titin Ig domain: structure of unfolding intermediate revealed by combining AFM, molecular dynamics simulations, NMR and protein engineering

A high-speed atomic force microscope for studying biological macromolecules.

Kinetics from nonequilibrium single-molecule pulling experiments

Mechanical unfolding intermediates in titin modules.

Unfolding of titin immunoglobulin domains by steered molecular dynamics simulation

Discovery through the computational microscope.

Mechanical and chemical unfolding of a single protein: a comparison.

Molecular dynamics study of unbinding of the avidin-biotin complex.

The key event in force-induced unfolding of Titin's immunoglobulin domains.

Force spectroscopy of the leukocyte function-associated antigen-1/intercellular adhesion molecule-1 interaction.

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741-743

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scholarly article

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10.1126/SCIENCE.1239764

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6159

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342

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Simon Scheuring

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2013-11-01T00:00:00Z

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