about
Unfolding of titin domains explains the viscoelastic behavior of skeletal myofibrilsPeptide tag forming a rapid covalent bond to a protein, through engineering a bacterial adhesinSingle-molecule force spectroscopy: optical tweezers, magnetic tweezers and atomic force microscopyProtein folding: then and nowTitin-based tension in the cardiac sarcomere: molecular origin and physiological adaptationsMechanical network in titin immunoglobulin from force distribution analysisStructure and functional significance of mechanically unfolded fibronectin type III1 intermediatesStructural basis for unfolding pathway-dependent stability of proteins: Vectorial unfolding versus global unfoldingImplications and Assessment of the Elastic Behavior of Lamins in LaminopathiesIsopeptide bonds block the mechanical extension of pili in pathogenic Streptococcus pyogenesA rapid cloning method employing orthogonal end protectionPotential role of atomic force microscopy in systems biologyDirect observation of a force-induced switch in the anisotropic mechanical unfolding pathway of a protein.Molecular basis for the structural stability of an enclosed β-barrel loop.Exploring the energy landscape of GFP by single-molecule mechanical experiments.Spider Silk Peptide Is a Compact, Linear Nanospring Ideal for Intracellular Tension Sensing.Influence of substrate binding on the mechanical stability of mouse dihydrofolate reductase.Protein structure by mechanical triangulationAnisotropic deformation response of single protein molecules.Guidelines for the analysis of free energy calculationsMechanics of proteins with a focus on atomic force microscopy.The mechanical unfolding of ubiquitin through all-atom Monte Carlo simulation with a Go-type potential.Capturing the mechanical unfolding pathway of a large protein with coiled-coil probes.Nucleotides regulate the mechanical hierarchy between subdomains of the nucleotide binding domain of the Hsp70 chaperone DnaK.Protein folding at single-molecule resolution.Filamin structure, function and mechanics: are altered filamin-mediated force responses associated with human disease?Single molecule force spectroscopy on titin implicates immunoglobulin domain stability as a cardiac disease mechanism.Sugar transport across lactose permease probed by steered molecular dynamics.Secondary and tertiary structure elasticity of titin Z1Z2 and a titin chain model.Substrate binding and formation of an occluded state in the leucine transporter.The allosteric role of the Ca2+ switch in adhesion and elasticity of C-cadherin.Versatile horizontal force probe for mechanical tests on pipette-held cells, particles, and membrane capsules.Probing the origin of tubulin rigidity with molecular simulations.Full reconstruction of a vectorial protein folding pathway by atomic force microscopy and molecular dynamics simulations.Molecular force modulation spectroscopy revealing the dynamic response of single bacteriorhodopsins.Stable single α-helices are constant force springs in proteinsUltrastable cellulosome-adhesion complex tightens under load.Correlation of breaking forces, conductances and geometries of molecular junctions.Stepwise unfolding of titin under force-clamp atomic force microscopy.Free energy reconstruction from nonequilibrium single-molecule pulling experiments
P2860
Q24537425-DD5BA99D-9F98-49A2-98B6-3E1C02489CA1Q24610696-49CFCE1D-38E2-49DE-A2B5-DA6FAACD812FQ24631831-1684183D-EE58-4647-AE92-808B9628B70DQ24671711-BFF096CA-B7BF-4B20-B6B6-91F7BE485758Q26996063-E0CDBB29-940D-403B-B655-E72562771BC0Q27335952-6AEA5A7E-4054-49D3-BFA0-539E9A87204DQ27642710-8BF63228-1C97-440D-B63E-FD37BEEECDD8Q27659115-51E7512D-A6A5-4196-A1A3-E0CB95776597Q28078956-857D23B4-9ED8-47B6-A856-3B4C22954D8EQ28272641-A34B5624-59CD-41A4-A031-E9B8402EB455Q28484147-0101DF09-5696-47D9-85F1-F2E0A5A94BD1Q28652634-4709162F-81B0-455C-9FC1-6F58DF331E28Q30010019-49C67FC8-135E-42C5-8821-A0E49A9DE6D1Q30156098-FBC39DCC-7751-454C-84AA-688BDEE79C43Q30160409-C7BC37FE-96BD-4E45-A9FB-7C0FA489F263Q30277657-B1F9874C-FA54-4BD8-8B85-18F294055314Q30351454-CDAADCDF-07B2-4E06-B365-748B4FD34AFEQ30352656-D2532478-63E6-449B-81ED-2E6C0F8AE9C1Q30356256-89E85907-28BC-4088-9A49-CF675FAABE37Q30359360-0597848A-DCD0-4F46-99A2-BF3BED68B948Q30359401-A603D93E-213C-4885-81E8-405101909F26Q30359800-0A7BF8CB-4880-4D0B-A66F-D276A42774A1Q30368035-44F004D7-3971-4F5D-9EB1-11C30ADB31FDQ30377477-025709BD-0916-4EDA-86C2-DF684D96218CQ30399457-B532AE65-2A1E-4915-A73B-7B002DB13F1AQ30402039-3D4A0CFD-0785-4F66-93D0-ECBE8A1FDC6CQ30425614-E9F7496C-69E1-424A-936F-0B3BCC877A25Q30479746-62A5BDE2-ACD3-4639-AC48-1EF96666F9B0Q30479873-686008F4-2A0A-45B3-91E5-9C24EE19507FQ30481294-E5BF7C98-A5EE-471B-8101-E8B5A38D8CA4Q30482106-21917C10-A2A7-4A9E-B6DE-A2C117F38370Q30483508-91F17946-A66A-42FE-9907-F1326DB79680Q30484238-1FE59965-3AA8-497F-B2AD-92A942DE3DCAQ30497468-E717C294-BB62-4106-AD26-5C227F78DC58Q30502990-938C8C85-591C-45D2-A8D8-EB13203B19F2Q30588808-99ADC724-893D-4F86-9CC2-B8AE182CD680Q30608250-83E5AD8C-1048-47AA-8780-25A735A4D3B6Q30626685-6C1055DA-9C7E-44C5-86B4-1F079B5633B1Q30658423-48CFE55B-AA9C-45E7-81D0-63112549DFF6Q30660859-473AB02A-BF72-4280-8406-5B83A2CD5821
P2860
description
1999 nî lūn-bûn
@nan
1999 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Mechanical unfolding intermediates in titin modules.
@ast
Mechanical unfolding intermediates in titin modules.
@en
type
label
Mechanical unfolding intermediates in titin modules.
@ast
Mechanical unfolding intermediates in titin modules.
@en
prefLabel
Mechanical unfolding intermediates in titin modules.
@ast
Mechanical unfolding intermediates in titin modules.
@en
P2093
P2860
P356
P1433
P1476
Mechanical unfolding intermediates in titin modules
@en
P2093
Fernandez JM
Marszalek PE
Oberhauser AF
Schulten K
P2860
P2888
P304
P356
10.1038/47083
P407
P577
1999-11-01T00:00:00Z
P6179
1044096909