AbstractWe present a novel sampling approach to explore large protein conformational transitions by determining unique substates from instantaneous normal modes calculated from an elastic network model, and applied to a progression of atomistic molecular dynamics snapshots. This unbiased sampling scheme allows us to direct the path sampling between the conformational end states over simulation timescales that are greatly reduced relative to the known experimental timescales. We use adenylate kinase as a test system to show that instantaneous normal modes can be used to identify substates that drive the structural fluctuations of adenylate kinase from its closed to open conformations, in which we observe 16 complete transitions in 4 μs of si...
Protein function frequently involves conformational changes with large amplitude on timescales which...
An atomic resolution description of protein flexibility is essential for understanding the role that...
The biological function of proteins is closely related to its structural motion. For instance, struc...
We present a novel sampling approach to explore large protein conformational transitions by determin...
AbstractWe present a novel sampling approach to explore large protein conformational transitions by ...
International audienceBackground:Obtaining atomic-scale information about large-amplitude conformati...
International audienceThis paper presents a method, inspired by robot motion planning algorithms, to...
International audienceThis paper presents a method, inspired by robot motion planning algorithms, to...
International audienceBackground:Obtaining atomic-scale information about large-amplitude conformati...
re l n el me redu s no pen ion ent conformational fluctuations facilitate the coupling between proto...
Large-scale conformational changes are essential for proteins to function properly. Given that these...
abstract: A fundamental problem in computational biophysics is to deduce the function of a protein f...
We report the development of a method to improve the sampling of protein conformational space in mol...
We report the development of a method to improve the sampling of protein conformational space in mol...
Abstract. Protein function frequently involves conformational changes with large amplitude on time s...
Protein function frequently involves conformational changes with large amplitude on timescales which...
An atomic resolution description of protein flexibility is essential for understanding the role that...
The biological function of proteins is closely related to its structural motion. For instance, struc...
We present a novel sampling approach to explore large protein conformational transitions by determin...
AbstractWe present a novel sampling approach to explore large protein conformational transitions by ...
International audienceBackground:Obtaining atomic-scale information about large-amplitude conformati...
International audienceThis paper presents a method, inspired by robot motion planning algorithms, to...
International audienceThis paper presents a method, inspired by robot motion planning algorithms, to...
International audienceBackground:Obtaining atomic-scale information about large-amplitude conformati...
re l n el me redu s no pen ion ent conformational fluctuations facilitate the coupling between proto...
Large-scale conformational changes are essential for proteins to function properly. Given that these...
abstract: A fundamental problem in computational biophysics is to deduce the function of a protein f...
We report the development of a method to improve the sampling of protein conformational space in mol...
We report the development of a method to improve the sampling of protein conformational space in mol...
Abstract. Protein function frequently involves conformational changes with large amplitude on time s...
Protein function frequently involves conformational changes with large amplitude on timescales which...
An atomic resolution description of protein flexibility is essential for understanding the role that...
The biological function of proteins is closely related to its structural motion. For instance, struc...