Pages that link to "Q35165215"

The following pages link to Stretching DNA and RNA to probe their interactions with proteins. (Q35165215):

Displaying 38 items.

• The role of nucleoid-associated proteins in the organization and compaction of bacterial chromatin (Q22065692) (← links)
• Optical trapping (Q24669585) (← links)
• High fidelity of RecA-catalyzed recombination: a watchdog of genetic diversity (Q24672935) (← links)
• Artificial Molecular Machines (Q26783064) (← links)
• Recent Advances in Magnetic Tweezers (Q28262696) (← links)
• Mapping the energy landscape of biomolecules using single molecule force correlation spectroscopy: theory and applications (Q33236312) (← links)
• Thin-foil magnetic force system for high-numerical-aperture microscopy. (Q33251301) (← links)
• Analysis of kinetics in noisy systems: application to single molecule tethered particle motion. (Q33282115) (← links)
• Toward single-molecule optical mapping of the epigenome (Q33619052) (← links)
• Visualizing protein-DNA interactions at the single-molecule level (Q33643127) (← links)
• Direct optical mapping of transcription factor binding sites on field-stretched λ-DNA in nanofluidic devices (Q33698515) (← links)
• PicoNewton-millisecond force steps reveal the transition kinetics and mechanism of the double-stranded DNA elongation. (Q33993481) (← links)
• Single molecule transcription profiling with AFM. (Q34070222) (← links)
• Single-particle tracking for DNA tether length monitoring (Q34334985) (← links)
• DNA overstretching transition: ionic strength effects (Q34350926) (← links)
• Temperature dependence of DNA persistence length (Q34609298) (← links)
• Unraveling helicase mechanisms one molecule at a time (Q35100599) (← links)
• Exploring mechanochemical processes in the cell with optical tweezers (Q36653751) (← links)
• DNA overstretching in the presence of glyoxal: structural evidence of force-induced DNA melting. (Q36783851) (← links)
• Electron Paramagnetic Resonance of a Single NV Nanodiamond Attached to an Individual Biomolecule (Q37083999) (← links)
• Optical tweezers for single cells (Q37125303) (← links)
• Determining protein-induced DNA bending in force-extension experiments: theoretical analysis (Q37263525) (← links)
• Single-molecule portrait of DNA and RNA double helices. (Q38244946) (← links)
• Predicting the rupture probabilities of molecular bonds in series. (Q38302258) (← links)
• Extracting physical chemistry from mechanics: a new approach to investigate DNA interactions with drugs and proteins in single molecule experiments. (Q38569444) (← links)
• Dynamics of the DNA duplex formation studied by single molecule force measurements (Q40304544) (← links)
• Biophysical Tools to Study Cellular Mechanotransduction (Q41513525) (← links)
• Single-molecule atomic force spectroscopy reveals that DnaD forms scaffolds and enhances duplex melting. (Q42091977) (← links)
• Tracking of single quantum dot labeled EcoRV sliding along DNA manipulated by double optical tweezers. (Q42548548) (← links)
• The kinetics of YOYO-1 intercalation into single molecules of double-stranded DNA (Q42818663) (← links)
• RNA Unzipping and Force Measurements with a Dual Optical Trap (Q49907196) (← links)
• Probing protein-protein interactions by dynamic force correlation spectroscopy. (Q53611426) (← links)
• Low-force DNA condensation and discontinuous high-force decondensation reveal a loop-stabilizing function of the protein Fis. (Q54473064) (← links)
• Potential mapping of optical tweezers (Q56891800) (← links)
• Quantifying DNA-protein interactions by single molecule stretching (Q56893607) (← links)
• Reeling in the bases (Q80497535) (← links)
• DNA structural changes under different stretching methods studied by molecular dynamics simulations (Q84374951) (← links)
• Modulating mechanical stability of heterodimerization between engineered orthogonal helical domains (Q99233811) (← links)