about
Stretched and overwound DNA forms a Pauling-like structure with exposed basesDevelopment and characterization of a eukaryotic expression system for human type II procollagenFormation of cystine slipknots in dimeric proteinsHow fast does a signal propagate through proteins?Entropy gives rise to topologically associating domains.In silico single-molecule manipulation of DNA with rigid body dynamicsSolid-state synthesis and mechanical unfolding of polymers of T4 lysozymeModeling cytoadhesion of Plasmodium falciparum-infected erythrocytes and leukocytes-common principles and distinctive featuresMonte Carlo analysis of neck linker extension in kinesin molecular motorsSingle Molecular Demonstration of Modulating Charge Inversion of DNAResolving Non-Specific and Specific Adhesive Interactions of Catechols at Solid/Liquid Interfaces at the Molecular ScaleImproved approximations for some polymer extension modelsImpact of holdase chaperones Skp and SurA on the folding of β-barrel outer-membrane proteins.Transcriptional Repressor TrmBL2 from Thermococcus kodakarensis Forms Filamentous Nucleoprotein Structures and Competes with Histones for DNA Binding in a Salt- and DNA Supercoiling-dependent Manner.BIOPHYSICAL PROPERTIES OF NUCLEIC ACIDS AT SURFACES RELEVANT TO MICROARRAY PERFORMANCE.Single molecule force spectroscopy on titin implicates immunoglobulin domain stability as a cardiac disease mechanism.Nanomechanics of the cadherin ectodomain: "canalization" by Ca2+ binding results in a new mechanical element.The nucleoid-associated protein Dan organizes chromosomal DNA through rigid nucleoprotein filament formation in E. coli during anoxia.Physical organization of DNA by multiple non-specific DNA-binding modes of integration host factor (IHF).Real-time assembly and disassembly of human RAD51 filaments on individual DNA moleculesOn the remarkable mechanostability of scaffoldins and the mechanical clamp motif.A functional single-molecule binding assay via force spectroscopyRapid internal contraction boosts DNA friction.DNA transport into Bacillus subtilis requires proton motive force to generate large molecular forces.Automated detection of protein unfolding events in atomic force microscopy force curves.Dual architectural roles of HU: formation of flexible hinges and rigid filamentsStable single α-helices are constant force springs in proteinsThe transition mechanism of DNA overstretching: a microscopic view using molecular dynamics.A method for multiprotein assembly in cells reveals independent action of kinesins in complexCooperative folding of intrinsically disordered domains drives assembly of a strong elongated proteinConfigurational entropy and mechanical properties of cross-linked polymer chains: implications for protein and RNA folding.Force Spectroscopy of Molecular Systems-Single Molecule Spectroscopy of Polymers and Biomolecules.Area-constrained planar elastica.Dynamic light scattering from an optically trapped microsphere.DNA-psoralen interaction: a single molecule experiment.The elasticity of single kettin molecules using a two-bead laser-tweezers assay.Polymerization and mechanical properties of single RecA-DNA filamentsNear-field-magnetic-tweezer manipulation of single DNA molecules.New tools to study biophysical properties of single molecules and single cells.Locus of enterocyte effacement-encoded regulator (Ler) of pathogenic Escherichia coli competes off histone-like nucleoid-structuring protein (H-NS) through noncooperative DNA binding.
P2860
Q24652433-DC52EFB0-1A26-4649-B804-859C4629D2F7Q27309199-7D50053B-6267-428B-B1AC-AC26C4625CA3Q27312912-E5613632-0A3D-4CC6-BF26-5EDA43825FB9Q27318371-65B9A9FF-48D9-49DA-B78C-6816DC3A38B6Q27323070-1094CFF6-0400-4192-BDA8-66D22F7CEAE4Q27323121-6579A705-733E-40BE-B49C-6844343DD465Q27620841-6E4A1FC4-55CB-41C5-B944-A7F4F03C651DQ28071399-D15E7C60-1159-4E63-8F98-F782B86F40D1Q28476003-82DD6822-C706-4FBA-B263-F9289147D6DEQ28817766-396D463E-3EDB-4567-B9FC-F30F096E9AC1Q28821208-9075ED45-5202-4CA9-B4E5-CECBE50E6CEAQ29026624-CC755B3F-0CAD-4402-A7E3-79C25396C9B6Q30152825-D5ED6261-1BAE-426C-82A8-5A4A5F86A643Q30381213-A5C69496-82F7-474A-9D39-9453B9CE9DEFQ30415150-ADCC3EE6-5C75-426E-892F-E32CC599ECEBQ30425614-22E0A918-915F-4444-8E7D-B7BA6657BAB9Q30427814-279F7D34-486C-48F9-AF3D-EF455FBA6646Q30458904-431B3D64-0F08-4A17-AA0B-4C68898249B5Q30460752-B7B83FA0-EB73-404E-98F4-A14A9FC71C99Q30480245-B48C11C1-0742-45C8-ADB1-B37B14415944Q30489218-6DD4EF48-F880-4C9B-B0F9-A116C2C5513CQ30496546-6B4E32A2-4976-471A-A3FC-BBFD30E2F8BFQ30539534-75F539FB-1235-47EB-BC01-3322BEF461F2Q30557433-BE841266-3E5E-441B-A432-2676C5F1F90CQ30571535-5482145D-75B1-4CCC-9057-751239034246Q30581097-CAB65D1D-9384-4CD0-8D96-9B75C77E6E30Q30588808-69326CDE-568A-47B3-A982-154FEC6C3DB2Q30596224-DD35A69B-7B29-4A2C-999B-5FE0ECD1755FQ30597249-A4A01F2E-70BE-4157-90D2-AC176AFAF014Q30653595-1CE8AE34-7738-4340-9656-E643763293DDQ30850578-E7F87E0E-38E0-4F8F-B0C1-9FF4CF484470Q30940116-EA9C4C79-8252-4774-9EAD-0DBF03370253Q31044294-5F442261-1F32-41F2-ACC9-1C4449D1BD1CQ31053974-4FDF8484-8BA9-48C0-BD33-33F9BCD5A952Q31126978-52371FC4-A160-4DE4-9B1A-1DF620B9372BQ31128266-B26664A3-999D-4C7B-8813-0EB0ED460A22Q31395922-A15B4CDB-0960-4560-BAE8-3DCA94053087Q33206170-A938989E-D29D-444C-A44D-89E573B43913Q33280779-FFE05295-954B-42E3-94AB-739BEA09CF4DQ33619316-6643CFC3-EECA-4B7D-98BF-223E6B381AF6
P2860
description
1995 nî lūn-bûn
@nan
1995 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1995 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
name
Stretching DNA
@ast
Stretching DNA
@en
type
label
Stretching DNA
@ast
Stretching DNA
@en
prefLabel
Stretching DNA
@ast
Stretching DNA
@en
P3181
P356
P1433
P1476
Stretching DNA
@en
P2093
Eric D. Siggia
John F. Marko
P304
P3181
P356
10.1021/MA00130A008
P577
1995-12-01T00:00:00Z