Single-molecule unfolding force distributions reveal a funnel-shaped energy landscape.
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Unfolding times for proteins in a force clamp.Stretching to understand proteins - a survey of the protein data bank.Affinity-matured recombinant antibody fragments analyzed by single-molecule force spectroscopyEffects of multiple-bond ruptures on kinetic parameters extracted from force spectroscopy measurements: revisiting biotin-streptavidin interactions.Theory, analysis, and interpretation of single-molecule force spectroscopy experiments.Monte Carlo simulation of mechanical unfolding of proteins based on a simple two-state model.Full distance-resolved folding energy landscape of one single protein molecule.First passage time distribution in stochastic processes with moving and static absorbing boundaries with application to biological rupture experimentsHsp70 chaperones accelerate protein translocation and the unfolding of stable protein aggregates by entropic pulling.Myosin-V is a mechanical ratchet.Connecting thermal and mechanical protein (un)folding landscapes.Towards design principles for determining the mechanical stability of proteins.Nonkinetic modeling of the mechanical unfolding of multimodular proteins: theory and experiments.A versatile method for systematic conformational searches: application to CheY.Multiple barriers in forced rupture of protein complexesRate theories for biologistsAxis-dependent anisotropy in protein unfolding from integrated nonequilibrium single-molecule experiments, analysis, and simulation.The effects of macromolecular crowding on the mechanical stability of protein molecules.Directly measuring single-molecule heterogeneity using force spectroscopy.Switch from thermal to force-driven pathways of protein refolding.Mechanical unfolding studies of protein molecules.Kinetic Ductility and Force-Spike Resistance of Proteins from Single-Molecule Force Spectroscopy.Direct observation of active protein folding using lock-in force spectroscopy.Ligand-induced changes of the apparent transition-state position in mechanical protein unfoldingSecondary structure, mechanical stability, and location of transition state of proteinsEnergy landscape of chelated uranyl: antibody interactions by dynamic force spectroscopy.Probing Interactions within the synaptic DNA-SfiI complex by AFM force spectroscopy.An experimentally guided umbrella sampling protocol for biomoleculesCompeting interactions stabilize pro- and anti-aggregant conformations of human Tau.Unraveling individual molecules by mechanical forces: theory meets experiment.Complex unfolding kinetics of single-domain proteins in the presence of forceHidden multiple bond effects in dynamic force spectroscopy.Mechanical unfolding of acylphosphatase studied by single-molecule force spectroscopy and MD simulations.Cytoskeletal polymer networks: viscoelastic properties are determined by the microscopic interaction potential of cross-links.Toward a molecular understanding of the anisotropic response of proteins to external forces: insights from elastic network models.Opening rates of DNA hairpins: experiment and model.Kinetics of molecular transitions with dynamic disorder in single-molecule pulling experiments.The load dependence of rate constants.Influence of pulling handles and device stiffness in single-molecule force spectroscopy.A structure-based model fails to probe the mechanical unfolding pathways of the titin I27 domain.
P2860
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P2860
Single-molecule unfolding force distributions reveal a funnel-shaped energy landscape.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Single-molecule unfolding force distributions reveal a funnel-shaped energy landscape.
@en
Single-molecule unfolding force distributions reveal a funnel-shaped energy landscape.
@nl
type
label
Single-molecule unfolding force distributions reveal a funnel-shaped energy landscape.
@en
Single-molecule unfolding force distributions reveal a funnel-shaped energy landscape.
@nl
prefLabel
Single-molecule unfolding force distributions reveal a funnel-shaped energy landscape.
@en
Single-molecule unfolding force distributions reveal a funnel-shaped energy landscape.
@nl
P2860
P1433
P1476
Single-molecule unfolding force distributions reveal a funnel-shaped energy landscape.
@en
P2093
Matthias Rief
Michael Schlierf
P2860
P356
10.1529/BIOPHYSJ.105.077982
P407
P577
2005-12-16T00:00:00Z