Allosteric regulation refers to the process where the effect of binding of a ligand at one site of a protein is transmitted to another, often distant, functional site. In recent years, it has been demonstrated that allosteric mechanisms can be understood by the conformational ensembles of a protein. Molecular dynamics (MD) simulations are often used for the study of protein allostery as they provide an atomistic view of the dynamics of a protein. However, given the wealth of detailed information hidden in MD data, one has to apply a method that allows extraction of the conformational ensembles underlying allosteric regulation from these data. Markov state models are one of the most promising methods for this purpose. We provide a short intr...
A rigorous formalism for the extraction of state-to-state transition functions from a Boltzmann-weig...
The discovery of drug-like molecules that bind pockets in proteins that are not present in crystallo...
ABSTRACT Allostery offers a highly specific way to modulate protein function. Therefore, understandi...
It is currently challenging to predict whether fragment hits that do not bind to an orthosteric site...
Allostery is referred to as protein function changes due to external perturbations, and ubiquitous i...
Conformational changes of proteins are an*Author contributed equally with all other contributors. es...
ABSTRACT: Owing to recent developments in computational algorithms and architectures, it is now comp...
CONSPECTUS: Protein function is inextricably linked to protein dynamics. As we move from a static st...
Allostery is a universal process in cellular interaction and function. Allosteric regulation occurs ...
A deep understanding of the physicochemical principles that underpin allosteric regulation in prote...
Regulation of protein activity is essential for normal cell functionality. Many proteins are reg...
Allostery is the regulation of a protein's activity through a perturbation at a location distant fro...
Molecular dynamics simulations can be used to probe a wide range of biologically relevant problems. ...
Many large protein-nucleic acid complexes exhibit allosteric regulation. In these systems, the propa...
Allostery in a protein involves effector binding at an allosteric site that changes the structure an...
A rigorous formalism for the extraction of state-to-state transition functions from a Boltzmann-weig...
The discovery of drug-like molecules that bind pockets in proteins that are not present in crystallo...
ABSTRACT Allostery offers a highly specific way to modulate protein function. Therefore, understandi...
It is currently challenging to predict whether fragment hits that do not bind to an orthosteric site...
Allostery is referred to as protein function changes due to external perturbations, and ubiquitous i...
Conformational changes of proteins are an*Author contributed equally with all other contributors. es...
ABSTRACT: Owing to recent developments in computational algorithms and architectures, it is now comp...
CONSPECTUS: Protein function is inextricably linked to protein dynamics. As we move from a static st...
Allostery is a universal process in cellular interaction and function. Allosteric regulation occurs ...
A deep understanding of the physicochemical principles that underpin allosteric regulation in prote...
Regulation of protein activity is essential for normal cell functionality. Many proteins are reg...
Allostery is the regulation of a protein's activity through a perturbation at a location distant fro...
Molecular dynamics simulations can be used to probe a wide range of biologically relevant problems. ...
Many large protein-nucleic acid complexes exhibit allosteric regulation. In these systems, the propa...
Allostery in a protein involves effector binding at an allosteric site that changes the structure an...
A rigorous formalism for the extraction of state-to-state transition functions from a Boltzmann-weig...
The discovery of drug-like molecules that bind pockets in proteins that are not present in crystallo...
ABSTRACT Allostery offers a highly specific way to modulate protein function. Therefore, understandi...