about
sameAs
Mechanical unzipping and rezipping of a single SNARE complex reveals hysteresis as a force-generating mechanismDNA replication at the single-molecule levelTalin Dependent Mechanosensitivity of Cell Focal AdhesionsDirectly interrogating single quantum dot labelled UvrA2 molecules on DNA tightropes using an optically trapped nanoprobe.Rotational manipulation of single cells and organisms using acoustic waves.Magnetic forces and DNA mechanics in multiplexed magnetic tweezersA high-speed magnetic tweezer beyond 10,000 frames per secondMan-made rotary nanomotors: a review of recent developments.High Spatiotemporal-Resolution Magnetic Tweezers: Calibration and Applications for DNA Dynamics.Lab-on-a-chip technologies for single-molecule studiesCamera-based three-dimensional real-time particle tracking at kHz rates and Ångström accuracyMechanical operation and intersubunit coordination of ring-shaped molecular motors: insights from single-molecule studiesUnderstanding the mechanical response of double-stranded DNA and RNA under constant stretching forces using all-atom molecular dynamics.Probing DNA Stiffness through Optical Fluctuation Analysis of Plasmon Rulers.High Resolution Phase-Sensitive Magnetomotive Optical Coherence Microscopy for Tracking Magnetic Microbeads and Cellular Mechanics.Scanning a DNA molecule for bound proteins using hybrid magnetic and optical tweezersUnraveling secrets of telomeres: one molecule at a time.Spring-loaded unraveling of a single SNARE complex by NSF in one round of ATP turnoverAxial Optical Traps: A New Direction for Optical Tweezers.Extending the range for force calibration in magnetic tweezersOptical Pushing: A Tool for Parallelized Biomolecule Manipulation.Manipulation and Immobilization of a Single Fluorescence Nanosensor for Selective Injection into Cells.Single-molecule nanometry for biological physics.Optical Methods to Study Protein-DNA Interactions in Vitro and in Living Cells at the Single-Molecule Level.A toolbox to explore the mechanics of living embryonic tissues.Mapping the energy landscape for second-stage folding of a single membrane protein.Single-molecule studies of high-mobility group B architectural DNA bending proteins.Method to study cell migration under uniaxial compression.Modeling stochastic kinetics of molecular machines at multiple levels: from molecules to modules.Multifunctional superparamagnetic iron oxide nanoparticles: design, synthesis and biomedical photonic applications.Single-molecule views on homologous recombination.Advances in magnetic tweezers for single molecule and cell biophysics.Single-molecule studies of riboswitch folding.Integrated lab-on-chip biosensing systems based on magnetic particle actuation--a comprehensive review.Force-induced remodelling of proteins and their complexesRecent Progress on Man-Made Inorganic Nanomachines.Extracting physical chemistry from mechanics: a new approach to investigate DNA interactions with drugs and proteins in single molecule experiments.Single-molecule perspectives on helicase mechanisms and functions.Exploring DNA-protein interactions on the single DNA molecule level using nanofluidic tools.Review: Progresses in understanding N-ethylmaleimide sensitive factor (NSF) mediated disassembly of SNARE complexes.
P2860
Q22061733-2DF460D9-6D73-41CC-93C5-CD7BFBDC4455Q22121971-7814902D-12D2-43CE-8793-747DF39D06E4Q27008881-485B2E1E-6A74-43B1-8670-8F2FDB43CF3FQ27303421-92014769-F207-43C9-A31D-9E16A607C488Q27322778-AE7EF0BC-5364-4402-B83A-2197E8E9B709Q27331997-00717BC7-635F-4552-925E-AD0EDD21A872Q28289920-AA582F51-2BB4-4317-848E-97ACD02ADAFEQ30356007-D1366B27-7A0E-4737-9E90-48A3B3ED941BQ30369658-ED950A56-20E8-4AF8-B538-4EDCD7C71CAAQ30436328-AACF4CB0-BC94-4CA3-9EC7-5FEA4C6A41D2Q30621041-04819AFB-1E47-46DE-A505-291BD0672F9AQ33595796-F03DAE88-A9FE-49CD-9410-D499D39C42ACQ33887108-86400875-06FE-454D-8105-9091811A7998Q34482751-642C2DF9-FD1B-4E0A-A0AD-94D74F5609F4Q34495222-6726CAD8-8C8C-43B7-A0B9-0060B48963F4Q34766398-6D4FA8A0-E710-4C44-9942-4DC3207105C8Q35102946-88375C5F-091E-4DB5-9C75-EC0E3A052C72Q35636093-F260F7BD-4456-4300-8C0F-069853BC35D7Q35666392-6D503C0B-F832-44E3-9049-04F93075FD53Q35687172-2916F45E-6486-4B18-A683-A984FB0257E4Q35888717-8D65D8E3-B0B6-4FF9-BCFD-AAA672710CA9Q36213011-914DF937-E798-4D4A-88CF-AE90B6CE08D6Q36546713-7E688581-594C-4158-B15A-D13EF8D49564Q36656166-9524FEF3-5D2F-47BC-97AB-8259B76285ECQ36995381-A165DFBB-A63E-4213-BBD7-857F24EA0E35Q37180083-66CAB6FB-2604-4002-B98D-DF07DD0D81E4Q37672521-2B0E8FEF-218C-4BE8-8EC0-09046C1754D2Q37699027-3E9C2213-9C54-4D08-B057-CA707EE51353Q38112858-D0DD0109-5916-4841-AF1A-F68DA3F3B65CQ38123354-0DA9BF74-B798-43D2-956C-2253E48C6D48Q38135534-DB7F97E1-56C3-4CAB-AB6B-BCBE7040CA31Q38164987-3C8C8C55-A494-4FAD-BD83-3435EE67AEA8Q38204154-A3CB08DD-5003-43B2-AD9C-2D998B22CA3DQ38210034-E70EACE3-2516-4361-90D3-5280528E664BQ38364742-C99A51E6-EBDD-4CF4-A813-F7D1C89C87BDQ38538479-394A8189-8B56-4374-B5E7-50033FBA5973Q38569444-8DEEC1AA-9776-4227-93CC-0CB5B1A29F7AQ38626003-43A9506A-130C-42E4-94C8-BBEDE7AEE6D2Q38665259-54DDED62-034E-44FE-8E08-B877D8E5770CQ38803266-AE510387-96DD-4197-9E9B-DFB68376C1B7
P2860
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Recent advances in magnetic tweezers
@ast
Recent advances in magnetic tweezers
@en
Recent advances in magnetic tweezers
@nl
type
label
Recent advances in magnetic tweezers
@ast
Recent advances in magnetic tweezers
@en
Recent advances in magnetic tweezers
@nl
altLabel
Recent Advances in Magnetic Tweezers
@en
prefLabel
Recent advances in magnetic tweezers
@ast
Recent advances in magnetic tweezers
@en
Recent advances in magnetic tweezers
@nl
P3181
P1476
Recent Advances in Magnetic Tweezers
@en
Recent advances in magnetic tweezers
@en
P3181
P356
10.1146/ANNUREV-BIOPHYS-122311-100544
P407
P577
2012-06-09T00:00:00Z