DNA supercoiling-induced shapes alter minicircle hydrodynamic properties

Abstract: DNA in cells is organized in negatively supercoiled loops. The resulting torsional and bending strain allows DNA to adopt a surprisingly wide variety of 3-D shapes. This interplay between negative supercoiling, looping, and shape influences how DNA is stored, replicated, transcribed, repaired, and likely every other aspect of DNA activity. To understand the consequences of negative supercoiling and curvature on the hydrodynamic properties of DNA, we submitted 336 bp and 672 bp DNA minicircles to analytical ult… Show more

“…Samples were centrifuged at 24,000, 32,000, and 40,000 rpm, with a minimum equilibration time of 30 hours per speed. Buoyant molecular weights were determined using Heteroanalysis and PSV values were calculated using the Svedberg equation [37,38]. All experiments were conducted in standard NaCl buffer, with a density of 1.005584 g/ml.…”

DNA-based assay for calorimetric determination of protein concentrations in pure or mixed solutions

“…Samples were centrifuged at 24,000, 32,000, and 40,000 rpm, with a minimum equilibration time of 30 hours per speed. Buoyant molecular weights were determined using Heteroanalysis and PSV values were calculated using the Svedberg equation [37,38]. All experiments were conducted in standard NaCl buffer, with a density of 1.005584 g/ml.…”

DNA-based assay for calorimetric determination of protein concentrations in pure or mixed solutions

Suitability of double-stranded DNA as a molecular standard for the validation of analytical ultracentrifugation instruments

Non-canonical DNA structures in the human ribosomal DNA