AbstractTopoisomerases maintain the proper topological state of DNA. Human topoisomerase I removes DNA supercoils by clamping a duplex DNA segment, nicking one strand at a phosphodiester bond, covalently attaching to the 3′ end of the nick, and allowing the DNA downstream of the cut to rotate around the intact strand. Using molecular dynamics simulations and umbrella sampling free energy calculations, we show that the rotation of downstream DNA in the grip of the enzyme that brings about release of positive or negative supercoils occurs by thermally assisted diffusion on ratchet energy profiles. The ratchetlike free-energy-versus-rotation profile that we compute provides a model for the function of topoisomerase in which the periodic maxima...
151 pagesType II topoisomerases, such as yeast topoisomerase II (topo II), have been increasingly de...
Type II topoisomerases regulate DNA topology by making a double-stranded break in one DNA duplex, tr...
AbstractEscherichia coli topoisomerase IV (Topo IV) is an essential ATP-dependent enzyme that unlink...
Topoisomerases are enzymes of quintessence to the upkeep of superhelical DNA, and are vital for repl...
AbstractIn this study, we report what we believe to be the first multiscale simulation of the dynami...
Human topoisomerase 1B has been simulated covalently bound to a negatively supercoiled DNA minicircl...
Type II DNA topoisomerases actively reduce the fractions of knotted and catenated circular DNA below...
Human topoisomerase 1B has been simulated covalently bound to a negatively supercoiled DNA minicircl...
Entangling and twisting of cellular DNA (i.e., supercoiling) are problems inherent to the helical st...
Freshly replicated DNA molecules initially form multiply interlinked right-handed catenanes. In bact...
By regulating access to the genetic code, DNA supercoiling strongly affects DNA metabolism. Despite ...
AbstractThe ability of type II DNA topoisomerases to perturb the equilibrium distributions of DNA to...
Using numerical simulations, we compare properties of knotted DNA molecules that are either torsiona...
Eukaryotic topoisomerases I and II efficiently remove helical tension in naked DNA molecules. Howeve...
The topological state of covalently closed, double-stranded DNA is defined by the knot type $K$ and ...
151 pagesType II topoisomerases, such as yeast topoisomerase II (topo II), have been increasingly de...
Type II topoisomerases regulate DNA topology by making a double-stranded break in one DNA duplex, tr...
AbstractEscherichia coli topoisomerase IV (Topo IV) is an essential ATP-dependent enzyme that unlink...
Topoisomerases are enzymes of quintessence to the upkeep of superhelical DNA, and are vital for repl...
AbstractIn this study, we report what we believe to be the first multiscale simulation of the dynami...
Human topoisomerase 1B has been simulated covalently bound to a negatively supercoiled DNA minicircl...
Type II DNA topoisomerases actively reduce the fractions of knotted and catenated circular DNA below...
Human topoisomerase 1B has been simulated covalently bound to a negatively supercoiled DNA minicircl...
Entangling and twisting of cellular DNA (i.e., supercoiling) are problems inherent to the helical st...
Freshly replicated DNA molecules initially form multiply interlinked right-handed catenanes. In bact...
By regulating access to the genetic code, DNA supercoiling strongly affects DNA metabolism. Despite ...
AbstractThe ability of type II DNA topoisomerases to perturb the equilibrium distributions of DNA to...
Using numerical simulations, we compare properties of knotted DNA molecules that are either torsiona...
Eukaryotic topoisomerases I and II efficiently remove helical tension in naked DNA molecules. Howeve...
The topological state of covalently closed, double-stranded DNA is defined by the knot type $K$ and ...
151 pagesType II topoisomerases, such as yeast topoisomerase II (topo II), have been increasingly de...
Type II topoisomerases regulate DNA topology by making a double-stranded break in one DNA duplex, tr...
AbstractEscherichia coli topoisomerase IV (Topo IV) is an essential ATP-dependent enzyme that unlink...