scholarly article | Q13442814 |
P50 | author | Mark C. Williams | Q42415817 |
P2093 | author name string | Ioulia Rouzina | |
Micah J McCauley | |||
Leila Shokri | |||
P2860 | cites work | Mechanical stability of single DNA molecules | Q24537330 |
Structure and energy of a DNA dodecamer under tensile load | Q24812957 | ||
Entropic elasticity of lambda-phage DNA | Q28247727 | ||
Exploring the interaction of ruthenium(II) polypyridyl complexes with DNA using single-molecule techniques. | Q30483195 | ||
Entropy and heat capacity of DNA melting from temperature dependence of single molecule stretching | Q30983906 | ||
Polymerization and mechanical properties of single RecA-DNA filaments | Q31395922 | ||
Twisting and stretching single DNA molecules. | Q34099054 | ||
Effect of pH on the overstretching transition of double-stranded DNA: evidence of force-induced DNA melting | Q34174987 | ||
Force-induced melting of the DNA double helix 1. Thermodynamic analysis | Q34174994 | ||
Force-induced melting of the DNA double helix. 2. Effect of solution conditions | Q34175002 | ||
Salt dependence of the elasticity and overstretching transition of single DNA molecules | Q34178124 | ||
Dual binding modes for an HMG domain from human HMGB2 on DNA | Q34350473 | ||
Theory of electrostatically regulated binding of T4 gene 32 protein to single- and double-stranded DNA. | Q34351176 | ||
The electromechanics of DNA in a synthetic nanopore | Q34353128 | ||
Force spectroscopy of single DNA and RNA molecules | Q34749926 | ||
Ten years of tension: single-molecule DNA mechanics | Q35050615 | ||
Stretching DNA and RNA to probe their interactions with proteins. | Q35165215 | ||
There and (slowly) back again: entropy-driven hysteresis in a model of DNA overstretching | Q36494746 | ||
[Electron microscope maps of SA7 DNA melting] | Q36610700 | ||
Mechanisms of DNA binding determined in optical tweezers experiments | Q36642316 | ||
Overstretching B-DNA: the elastic response of individual double-stranded and single-stranded DNA molecules | Q36798786 | ||
Modelling extreme stretching of DNA. | Q39716585 | ||
Formaldehyde as a probe of DNA structure. I. Reaction with exocyclic amino groups of DNA bases | Q40311157 | ||
Molecular dynamics simulations of duplex stretching reveal the importance of entropy in determining the biomechanical properties of DNA. | Q40319749 | ||
A comparison of experimental and theoretical melting maps for replicative form of phi X174 DNA. | Q40463960 | ||
Gel electrophoresis of partially denatured DNA. Retardation effect: its analysis and application. | Q40467156 | ||
Equilibrium melting of plasmid ColE1 DNA: electron-microscopic visualization | Q40482240 | ||
Localization of low-melting regions in phage T7 DNA | Q40490872 | ||
Specific fragmentation of T7 phage DNA at low-melting sites | Q40578941 | ||
A new method of DNA denaturation mapping | Q40580704 | ||
Single-molecule studies of DNA mechanics | Q41741186 | ||
Fluctuational opening of the double helix as revealed by theoretical and experimental study of DNA interaction with formaldehyde | Q43881541 | ||
The reaction of glyoxal with nucleic acid components. V. Denaturation of DNA under the action of glyoxal | Q43975292 | ||
Salt dependent binding of T4 gene 32 protein to single and double-stranded DNA: single molecule force spectroscopy measurements | Q44823457 | ||
Mechanical measurement of single-molecule binding rates: kinetics of DNA helix-destabilization by T4 gene 32 protein | Q47737307 | ||
Theory of high-force DNA stretching and overstretching | Q47861810 | ||
Theoretical calculations of the helix-coil transition of DNA in the presence of large, cooperatively binding ligands | Q52847855 | ||
Theoretical aspects of DNA-protein interactions: co-operative and non-co-operative binding of large ligands to a one-dimensional homogeneous lattice. | Q52904158 | ||
Effect of chemical modification on the rate of renaturation of deoxyribonucleic acid. Deaminated and glyoxalated deoxyribonucleic acid | Q52953029 | ||
The reaction of glyoxal with nucleic acid components III. Kinetics of the reaction with monomers | Q52996153 | ||
DNA: an extensible molecule. | Q53991629 | ||
Kinetic regulation of single DNA molecule denaturation by T4 gene 32 protein structural domains. | Q54129438 | ||
B-DNA twisting correlates with base-pair morphology. | Q64890640 | ||
The ionic strength dependence of the cooperativity factor for DNA melting | Q68113402 | ||
Simplification of the empirical relationship between melting temperature of DNA, its GC content and concentration of sodium ions in solution | Q70619200 | ||
Reversible unfolding of individual titin immunoglobulin domains by AFM | Q73334897 | ||
DNA stretching and compression: large-scale simulations of double helical structures | Q77895283 | ||
Single molecule force spectroscopy of salt-dependent bacteriophage T7 gene 2.5 protein binding to single-stranded DNA | Q79271219 | ||
Quantifying force-dependent and zero-force DNA intercalation by single-molecule stretching | Q80237534 | ||
Overstretching and force-driven strand separation of double-helix DNA | Q80481133 | ||
Mapping the phase diagram of single DNA molecule force-induced melting in the presence of ethidium | Q81386671 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1248-1255 | |
P577 | publication date | 2008-04-18 | |
P1433 | published in | Biophysical Journal | Q2032955 |
P1476 | title | DNA overstretching in the presence of glyoxal: structural evidence of force-induced DNA melting | |
P478 | volume | 95 |