Energy landscapes of receptor–ligand bonds explored with dynamic force spectroscopy
about
Mechanics of actomyosin bonds in different nucleotide states are tuned to muscle contractionA Review of Cell Adhesion Studies for Biomedical and Biological Applications.Review series: The functions and consequences of force at kinetochoresReconstituting the kinetochore–microtubule interface: what, why, and howFrom molecular signal activation to locomotion: an integrated, multiscale analysis of cell motility on defined matricesA structural snapshot of an intermediate on the streptavidin-biotin dissociation pathwayModeling cytoadhesion of Plasmodium falciparum-infected erythrocytes and leukocytes-common principles and distinctive featuresDeformation and failure of protein materials in physiologically extreme conditions and diseaseRegulation of catch bonds by rate of force applicationA viscoelastic-stochastic model of the effects of cytoskeleton remodelling on cell adhesionForce-dependent switch in protein unfolding pathways and transition-state movements.Direct observation of a force-induced switch in the anisotropic mechanical unfolding pathway of a protein.Quantifying adhesion mechanisms and dynamics of human hematopoietic stem and progenitor cellsA single molecule assay to probe monovalent and multivalent bonds between hyaluronan and its key leukocyte receptor CD44 under force.Memory in receptor-ligand-mediated cell adhesionForce measurements of TCR/pMHC recognition at T cell surfaceAdhesion of single bacterial cells in the micronewton rangeSimultaneous, coincident optical trapping and single-molecule fluorescenceTime scales of membrane fusion revealed by direct imaging of vesicle fusion with high temporal resolutionNoncontact estimation of intercellular breaking force using a femtosecond laser impulse quantified by atomic force microscopy.Ultrastable cellulosome-adhesion complex tightens under load.Combined laser tweezers and dielectric field cage for the analysis of receptor-ligand interactions on single cells.Photo-induced cytomorphologic changes in an advanced cancer phase I clinical trial.Binding strength and activation state of single fibrinogen-integrin pairs on living cells.Probing the machinery of intracellular trafficking with the atomic force microscope.Dynamic force spectroscopy of single DNA molecules.A Rough Energy Landscape to Describe Surface-Linked Antibody and Antigen Bond Formation.BFPTool: a software tool for analysis of Biomembrane Force Probe experiments.Trans-bonded pairs of E-cadherin exhibit a remarkable hierarchy of mechanical strengths.Interactions between synaptic vesicle fusion proteins explored by atomic force microscopy.Creating nanoscopic collagen matrices using atomic force microscopy.Refined procedure of evaluating experimental single-molecule force spectroscopy data.Biomaterials functionalization using a novel peptide that selectively binds to a conducting polymer.Dynamic force spectroscopy of parallel individual Mucin1-antibody bonds.FimH forms catch bonds that are enhanced by mechanical force due to allosteric regulation.Biophysical properties of cadherin bonds do not predict cell sortingNonparametric density estimation and optimal bandwidth selection for protein unfolding and unbinding data.Quantitative description of thermodynamic and kinetic properties of the platelet factor 4/heparin bonds.Anti-platelet factor 4/polyanion antibodies mediate a new mechanism of autoimmunity.Reconsideration of dynamic force spectroscopy analysis of streptavidin-biotin interactions.
P2860
Q24550964-F1BE440F-CD41-46F0-A2DA-F0404262AAA2Q26801184-CF1D0C79-48A8-4CED-AC64-68759F6FB553Q27004242-CA2A463C-7A79-41FA-890E-1EBCC78EF723Q27007105-A8BE6CF5-7EED-4C1B-81D1-F80947F203F7Q27348732-A483330A-F929-4E79-962E-1364B9698452Q27619071-57025E74-7109-4B48-9A57-3980F995D81DQ28071399-1D51B456-D30B-4B2B-BF04-B026C1ABC941Q28235746-779ECE7F-7F11-4FC7-A6F4-15EDF1DEAAD4Q28243725-E89FAF28-C51B-4836-86F8-B7925590E496Q28596269-E65C9571-FDB2-4031-B4AA-136A1FDF4B2AQ30009030-4B15EC90-B8B1-4DA8-9EB3-5F27F1982C7AQ30010019-DAC326A6-9345-4D58-B3C8-AE312802FA1AQ30358968-44817EAE-F6CC-42A4-801E-856DF421A2CBQ30373484-99477A31-009E-4902-BEBD-06F47D5246E1Q30441797-040F9FFB-2838-4232-B2FD-918A7F9AD0D7Q30474720-C7C8D52B-D052-4CA3-ACAC-68F90706CDDDQ30477246-AD23E486-BBAE-454E-9DC8-1C555ABA23E4Q30477477-728F53E2-08FF-4652-9A06-7EB51BA925E6Q30478132-179E3C4B-E10D-46AF-9B43-B02D40513921Q30498089-577146D5-697A-4719-B43F-3C0DDFAFF427Q30608250-A4FF5CA6-982B-4458-A791-3C8D31E3C7CAQ30662862-92C9A13B-BA8D-47F4-A4D6-1DF99EBB9891Q30699714-3830B2E4-5349-44DE-8226-7857000A7722Q30709189-76022E06-93AD-4BCA-B086-2440C5CF3D04Q30716452-425E546D-86D6-4F40-9947-763BF2229319Q30779150-FEAB8151-0BFD-4412-B8A4-6E1FD337CED7Q30820933-7E742FDB-91AF-4CE4-AF20-329DE135D22EQ30838349-DB33E9DC-38CA-45E3-B4CF-2095B46A2A76Q30841384-8DFCE8D8-71C6-4DC1-970C-F020EF52BC55Q30960921-EA1781BD-9725-42FC-B6BD-37F52AEAEE27Q31129908-BFDAD065-2E9E-42D3-A42A-52219AD14868Q31157288-992F4758-82FD-4939-9ECA-068750344C97Q33215119-5D1D3349-C1EF-42F1-A729-32A69C0129CAQ33226563-C8D64A02-98FB-4875-AF40-E0E993578014Q33320807-6AF3F14C-EDF3-4468-9E50-F19616458174Q33343541-CF47DD31-0798-418D-86A0-C3C8DDA77F26Q33399562-14C7791D-FB32-433A-BB16-0481043ED0ECQ33422889-861EF37E-D602-43DD-A85C-A98C9A196762Q33442026-CC2FBB85-1AAC-4862-98BC-7CEA7ED443DCQ33608708-2CD506AE-66BD-4AB5-865B-2F62C94E8D05
P2860
Energy landscapes of receptor–ligand bonds explored with dynamic force spectroscopy
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в січні 1999
@uk
name
Energy landscapes of receptor–ligand bonds explored with dynamic force spectroscopy
@en
Energy landscapes of receptor–ligand bonds explored with dynamic force spectroscopy
@nl
type
label
Energy landscapes of receptor–ligand bonds explored with dynamic force spectroscopy
@en
Energy landscapes of receptor–ligand bonds explored with dynamic force spectroscopy
@nl
prefLabel
Energy landscapes of receptor–ligand bonds explored with dynamic force spectroscopy
@en
Energy landscapes of receptor–ligand bonds explored with dynamic force spectroscopy
@nl
P2093
P356
P1433
P1476
Energy landscapes of receptor-ligand bonds explored with dynamic force spectroscopy
@en
P2093
P2888
P356
10.1038/16219
P407
P577
1999-01-01T00:00:00Z
P6179
1027607173