Beyond the conventional description of dynamic force spectroscopy of adhesion bonds.
about
Structure and energy of a DNA dodecamer under tensile loadRefined procedure of evaluating experimental single-molecule force spectroscopy data.Multi-step fibrinogen binding to the integrin (alpha)IIb(beta)3 detected using force spectroscopy.Unfolding and extraction of a transmembrane alpha-helical peptide: dynamic force spectroscopy and molecular dynamics simulations.Breaking bonds in the atomic force microscope: theory and analysis.Comparative energy measurements in single molecule interactions.Effects 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.Velocity convergence of free energy surfaces from single-molecule measurements using Jarzynski's equality.Discovery through the computational microscope.Experimental and computational characterization of biological liquid crystals: a review of single-molecule bioassaysA Simple and Practical Spreadsheet-Based Method to Extract Single-Molecule Dissociation Kinetics from Variable Loading-Rate Force Spectroscopy Data.Force-induced lysozyme--HyHEL5 antibody dissociation and its analysis by means of a cooperative binding model.Collapse dynamics of single proteins extended by force.Strength of hydrogen bond network takes crucial roles in the dissociation process of inhibitors from the HIV-1 protease binding pocket.First passage time distribution in stochastic processes with moving and static absorbing boundaries with application to biological rupture experimentsProbing static disorder in Arrhenius kinetics by single-molecule force spectroscopy.Direct discrimination between models of protein activation by single-molecule force measurementsDynamic force spectroscopy on supported lipid bilayers: effect of temperature and sample preparation.The two-pathway model for the catch-slip transition in biological adhesion.Nucleation and decay initiation are the stiffness-sensitive phases of focal adhesion maturation.Extracting kinetics from single-molecule force spectroscopy: nanopore unzipping of DNA hairpinsProtein unfolding and refolding under force: methodologies for nanomechanics.Multiple barriers in forced rupture of protein complexesOn artifacts in single-molecule force spectroscopyFibers with integrated mechanochemical switches: minimalistic design principles derived from fibronectinProbing and tuning frictional aging at the nanoscale.Role of extracellular glutamic acids in the stability and energy landscape of bacteriorhodopsinPROBING αIIbβ3: LIGAND INTERACTIONS BY DYNAMIC FORCE SPECTROSCOPY AND SURFACE PLASMON RESONANCE.Single-molecule mechanics: new insights from the escape-over-a-barrier problem.A theoretical model for the mechanical unfolding of repeat proteins.Physiochemical properties of Caulobacter crescentus holdfast: a localized bacterial adhesive.Biomechanics of cell adhesion: how force regulates the lifetime of adhesive bonds at the single molecule level.Comparing proteins by their unfolding pattern.Kinetic Ductility and Force-Spike Resistance of Proteins from Single-Molecule Force Spectroscopy.Two barriers or not? Dynamic force spectroscopy on the integrin α7β1 invasin complex.A hybrid polymer gel with controlled rates of cross-link rupture and self-repair.Theory of rapid force spectroscopy.Force-driven separation of short double-stranded DNA.Characterizing cell adhesion by using micropipette aspiration
P2860
Q24812957-FECBBF8E-1806-41A7-8882-3EEAB1E73D98Q31157288-D559E59A-853E-4FF3-A912-251748C7BDDCQ33220247-0F8A8BF1-4E9F-4A24-9AB5-83D52329E638Q33221265-6CCB2353-8306-48E6-94AA-908AF9D5831FQ33259600-B19C9632-F6DA-4BF5-80C7-2D8FF7CD6C9CQ33326229-162E52F1-7F99-48AE-BF37-FDABAE43624EQ33351264-1D9C9DE7-57B8-4606-B8A4-8C7AD464EFD7Q33375593-B8F5F7FF-223B-4A36-971B-45F32244AE4BQ33466280-4FEDBD91-D76C-4A5C-95AA-F155C0466655Q33511109-A226C1C8-95EF-4243-8ACA-0D32B3B51008Q33513485-1E895B10-41C4-423E-9AE7-6E7963E9B4C1Q33518546-7DE46A55-FED9-47B0-8915-5C62E80078B3Q33639444-62CAE6A8-29A3-4AC7-B6E3-7ACFAC014E7EQ33880357-F31B9847-681A-4E9B-BB36-8472CB51A686Q33894988-2FBDE3EA-E8E4-47DC-B576-6515BF273CDCQ33945197-00869445-001C-4FA9-A63E-ACA8E0ACB45DQ33953192-61360C26-5661-44E9-9B09-A61CA3F1A3CCQ34187368-1FC6D537-DA94-462A-94E2-DF9F6842E793Q34350344-B5C62545-A057-4692-9216-FAEFB8E74DB5Q34350947-A13391F8-8593-4653-A5AF-03AF12BCAC58Q35627777-F282FF16-A695-4932-AE15-8C9CCDC963BFQ35812247-D8375728-569D-4DE4-BB59-EF24836EF8DEQ36028750-E7331802-C0EC-401C-8966-85B0C93B600AQ36173602-F290CB4A-0103-4D88-AE08-CB43DF94FD0EQ36306139-8CF2F133-00FC-458F-8E31-9ECC3FB652B2Q36379193-2847682D-324C-41AE-9F9A-4AA8D2C4C388Q36886548-7E7B1747-2795-4ED5-BACC-CF81F49D50DBQ36899955-F827D00D-E5B7-4A14-A77B-9A9013BB1145Q37211068-ACA6BA9A-2573-4444-B490-7BBC5831AEC5Q37211305-C2453C47-E3B8-4F7C-8714-2FC330685ED2Q37279564-24C2984E-7247-4614-8B17-EFB2DA0E05DEQ37588010-8636ECBD-63BA-494A-911C-2322B8434C9DQ38178101-CA192BD7-B340-44E5-B948-64101DAC2853Q39122332-16ABAC91-C816-43C3-B2A4-1741AB544E85Q39455884-E4D41307-A0B5-47F7-B49D-33198CB8AEF5Q41390673-B0748DDD-8001-4A46-A61B-7DA63D645A09Q41814359-F8349672-4994-47DA-BE69-AB8F7CC98A2CQ42099663-5D5D90BA-5FEE-4F0D-BC01-B7506AA50FEDQ42124918-CEDFD276-2C97-468B-8376-63B265289F02Q42183005-A48E5A24-A021-4F67-B935-31BDB2763787
P2860
Beyond the conventional description of dynamic force spectroscopy of adhesion bonds.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Beyond the conventional description of dynamic force spectroscopy of adhesion bonds.
@ast
Beyond the conventional description of dynamic force spectroscopy of adhesion bonds.
@en
type
label
Beyond the conventional description of dynamic force spectroscopy of adhesion bonds.
@ast
Beyond the conventional description of dynamic force spectroscopy of adhesion bonds.
@en
prefLabel
Beyond the conventional description of dynamic force spectroscopy of adhesion bonds.
@ast
Beyond the conventional description of dynamic force spectroscopy of adhesion bonds.
@en
P2093
P2860
P356
P1476
Beyond the conventional description of dynamic force spectroscopy of adhesion bonds.
@en
P2093
P2860
P304
11378-11381
P356
10.1073/PNAS.1534554100
P407
P577
2003-09-17T00:00:00Z