The dynamics of supercoiled DNA play an important role in various cellular processes such as transcription and replication that involve DNA supercoiling. We present experiments that enhance our understanding of these dynamics by measuring the intrinsic response of single DNA molecules to sudden changes in tension or torsion. The observed dynamics can be accurately described by quasistatic models, independent of the degree of supercoiling initially present in the molecules. In particular, the dynamics are not affected by the continuous removal of the plectonemes. These results set an upper bound on the hydrodynamic drag opposing plectoneme removal, and thus provide a quantitative baseline for the dynamics of bare DNA
Supercoiling and changes in the supercoiling state are ubiquitous in cel-lular DNA and affect virtua...
Topoisomerases are enzymes of quintessence to the upkeep of superhelical DNA, and are vital for repl...
Knots and supercoiling are both introduced in bacterial plasmids by catalytic processes involving DN...
Entangling and twisting of cellular DNA (i.e., supercoiling) are problems inherent to the helical st...
AbstractThe intramolecular diffusive motion within supercoiled DNA molecules is of central importanc...
AbstractWe study DNA supercoiling in a quantitative fashion by micromanipulating single linear DNA m...
DNA supercoiling is a key regulatory mechanism that orchestrates DNA readout, recombination, and gen...
AbstractIn this study, we report what we believe to be the first multiscale simulation of the dynami...
The intramolecular diffusive motion within supercoiled DNA molecules is of central importance for a ...
DNA supercoils are generated in genome regulation processes such as transcription and replication an...
Cellular DNA is regularly subject to torsional stress during genomic processes, such as transcriptio...
Chromosomal and plasmid DNA molecules in bacterial cells are maintained under torsional tension and ...
Using numerical simulations, we compare properties of knotted DNA molecules that are either torsiona...
Alice Pyne 1*â , Agnes Noy 2â , Kavit Main 1, Lesley Mitchenall 3, Anthony Maxwell 3, Sarah Harris...
Knots and supercoiling are both introduced in bacterial plasmids by catalytic processes involving DN...
Supercoiling and changes in the supercoiling state are ubiquitous in cel-lular DNA and affect virtua...
Topoisomerases are enzymes of quintessence to the upkeep of superhelical DNA, and are vital for repl...
Knots and supercoiling are both introduced in bacterial plasmids by catalytic processes involving DN...
Entangling and twisting of cellular DNA (i.e., supercoiling) are problems inherent to the helical st...
AbstractThe intramolecular diffusive motion within supercoiled DNA molecules is of central importanc...
AbstractWe study DNA supercoiling in a quantitative fashion by micromanipulating single linear DNA m...
DNA supercoiling is a key regulatory mechanism that orchestrates DNA readout, recombination, and gen...
AbstractIn this study, we report what we believe to be the first multiscale simulation of the dynami...
The intramolecular diffusive motion within supercoiled DNA molecules is of central importance for a ...
DNA supercoils are generated in genome regulation processes such as transcription and replication an...
Cellular DNA is regularly subject to torsional stress during genomic processes, such as transcriptio...
Chromosomal and plasmid DNA molecules in bacterial cells are maintained under torsional tension and ...
Using numerical simulations, we compare properties of knotted DNA molecules that are either torsiona...
Alice Pyne 1*â , Agnes Noy 2â , Kavit Main 1, Lesley Mitchenall 3, Anthony Maxwell 3, Sarah Harris...
Knots and supercoiling are both introduced in bacterial plasmids by catalytic processes involving DN...
Supercoiling and changes in the supercoiling state are ubiquitous in cel-lular DNA and affect virtua...
Topoisomerases are enzymes of quintessence to the upkeep of superhelical DNA, and are vital for repl...
Knots and supercoiling are both introduced in bacterial plasmids by catalytic processes involving DN...