The conformational and thermodynamic properties of disordered proteins are commonly described in terms of structural ensembles and free energy landscapes. To provide information on the transition rates between the different states populated by these proteins, it would be desirable to generalize this description to ‘kinetic ensembles’. Approaches based on the theory of stochastic processes can be particularly suitable for this purpose. Here, we develop a Markov state model and apply it to determine a kinetic ensemble of Aβ42, a disordered peptide associated with Alzheimer’s disease. Through the Google Compute Engine, we generated 315 µs all-atom molecular dynamics trajectories. Using a probabilistic-based definition of conformational states ...
This thesis leverages the CoVAMPnet neural network architecture to analyze the dy- namics of apolipo...
Conformational ensembles are models of proteins that capture variations in conformation that result ...
AbstractIntrinsically disordered proteins (IDPs) are increasingly recognized for their important rol...
Markov state models have become popular in the computational biochemistry and biophysics communities...
Markov state models have become popular in the computational biochemistry and biophysics communities...
The amlyoid-β peptide (Aβ) is closely linked to the development of Alzheimer's disease. Molecular dy...
Molecular dynamic (MD) simulations are animportant tool for studying protein aggregation processes, ...
Intrinsically Disordered Peptides (IDPs) are proteins without a well-defined 3D structure. They rang...
The free energy landscape theory has been very successful in rationalizing the folding behaviour of ...
AbstractDeveloping an understanding of protein misfolding processes presents a crucial challenge for...
The stabilisation of native states of proteins is a powerful drug discovery strategy. It is still un...
The interplay of modern molecular simulation and high-quality nuclear magnetic resonance (NMR) exper...
AbstractUsing distributed molecular dynamics simulations we located four distinct folding transition...
In this thesis, the aim is to contribute to the development of long-time methods for molecular dynam...
Conformational transitions in proteins define their biological activity and can be investigated in d...
This thesis leverages the CoVAMPnet neural network architecture to analyze the dy- namics of apolipo...
Conformational ensembles are models of proteins that capture variations in conformation that result ...
AbstractIntrinsically disordered proteins (IDPs) are increasingly recognized for their important rol...
Markov state models have become popular in the computational biochemistry and biophysics communities...
Markov state models have become popular in the computational biochemistry and biophysics communities...
The amlyoid-β peptide (Aβ) is closely linked to the development of Alzheimer's disease. Molecular dy...
Molecular dynamic (MD) simulations are animportant tool for studying protein aggregation processes, ...
Intrinsically Disordered Peptides (IDPs) are proteins without a well-defined 3D structure. They rang...
The free energy landscape theory has been very successful in rationalizing the folding behaviour of ...
AbstractDeveloping an understanding of protein misfolding processes presents a crucial challenge for...
The stabilisation of native states of proteins is a powerful drug discovery strategy. It is still un...
The interplay of modern molecular simulation and high-quality nuclear magnetic resonance (NMR) exper...
AbstractUsing distributed molecular dynamics simulations we located four distinct folding transition...
In this thesis, the aim is to contribute to the development of long-time methods for molecular dynam...
Conformational transitions in proteins define their biological activity and can be investigated in d...
This thesis leverages the CoVAMPnet neural network architecture to analyze the dy- namics of apolipo...
Conformational ensembles are models of proteins that capture variations in conformation that result ...
AbstractIntrinsically disordered proteins (IDPs) are increasingly recognized for their important rol...