AbstractMechanical unfolding of RNA structures, ranging from hairpins to ribozymes, using laser optical tweezer experiments have begun to reveal the features of the energy landscape that cannot be easily explored using conventional experiments. Upon application of constant force (f), RNA hairpins undergo cooperative transitions from folded to unfolded states whereas subdomains of ribozymes unravel one at a time. Here, we use a self-organized polymer model and Brownian dynamics simulations to probe mechanical unfolding at constant force and constant-loading rate of four RNA structures of varying complexity. For simple hairpins, such as P5GA, application of constant force or constant loading rate results in bistable cooperative transitions be...
SummaryUsing self-organized polymer models, we predict mechanical unfolding and refolding pathways o...
Using force as a probe to map the folding landscapes of RNA molecules has become a reality thanks to...
The sequence-dependent folding landscapes of nucleic acid hairpins reflect much of the complexity of...
ABSTRACT Mechanical unfolding of RNA structures, ranging from hairpins to ribozymes, using laser opt...
AbstractMechanical unfolding of RNA structures, ranging from hairpins to ribozymes, using laser opti...
AbstractNanomanipulation of individual RNA molecules, using laser optical tweezers, has made it poss...
ABSTRACT Nanomanipulation of individual RNA molecules, using laser optical tweezers, has made it pos...
RNA secondary structures of increasing complexity are probed combining single molecule stretching ex...
AbstractMechanical unfolding and refolding of single RNA molecules have previously been observed in ...
ABSTRACT We study theoretically the denaturation of single RNA molecules by mechanical stretching, f...
ABSTRACTWe study theoretically the denaturation of single RNA molecules by mechanical stretching, fo...
AbstractBased on an ensemble of kinetically accessible conformations, we propose a new analytical mo...
AbstractBy exerting mechanical force, it is possible to unfold/refold RNA molecules one at a time. I...
Abstract. A double-tweezer setup is used to induce mechanical stress in systems of molecular biology...
RNA folding is a kinetic process governed by the competition of a large number of structures stabili...
SummaryUsing self-organized polymer models, we predict mechanical unfolding and refolding pathways o...
Using force as a probe to map the folding landscapes of RNA molecules has become a reality thanks to...
The sequence-dependent folding landscapes of nucleic acid hairpins reflect much of the complexity of...
ABSTRACT Mechanical unfolding of RNA structures, ranging from hairpins to ribozymes, using laser opt...
AbstractMechanical unfolding of RNA structures, ranging from hairpins to ribozymes, using laser opti...
AbstractNanomanipulation of individual RNA molecules, using laser optical tweezers, has made it poss...
ABSTRACT Nanomanipulation of individual RNA molecules, using laser optical tweezers, has made it pos...
RNA secondary structures of increasing complexity are probed combining single molecule stretching ex...
AbstractMechanical unfolding and refolding of single RNA molecules have previously been observed in ...
ABSTRACT We study theoretically the denaturation of single RNA molecules by mechanical stretching, f...
ABSTRACTWe study theoretically the denaturation of single RNA molecules by mechanical stretching, fo...
AbstractBased on an ensemble of kinetically accessible conformations, we propose a new analytical mo...
AbstractBy exerting mechanical force, it is possible to unfold/refold RNA molecules one at a time. I...
Abstract. A double-tweezer setup is used to induce mechanical stress in systems of molecular biology...
RNA folding is a kinetic process governed by the competition of a large number of structures stabili...
SummaryUsing self-organized polymer models, we predict mechanical unfolding and refolding pathways o...
Using force as a probe to map the folding landscapes of RNA molecules has become a reality thanks to...
The sequence-dependent folding landscapes of nucleic acid hairpins reflect much of the complexity of...