In this work we are trying to gain an insight on the molecular mechanisms of the salt effects on conformational stability of proteins with use of fully atomistic Molecular Dynamics simulations techniques. Such 'in silico' approach allows us to obtain quite realistic data on the time and scale resolutions that are unavailable for both 'in vitro' and 'in vivo' experimental techniques. We investigated a trialanine peptide which is the one of the simplest examples of biomolecules, bearing the essential features of proteins
Molecular dynamics (MD) simulations of short peptides in water were performed to establish whether i...
Several simulation methods are currently in use to study peptide and protein folding. They can be cl...
Protein-protein binding is crucial to various processes in living organisms including signal transdu...
In this work we are trying to gain insight into the mechanisms of ion-protein interactions in aqueou...
In this study we are trying to understand the effects of aqueous sodium halide solutions on conforma...
In general, peptides do not exhibit a well-defined conformational profile in solution. However, desp...
Driven by recent two-dimensional infrared experiments by Woutersen and Hamm, trialanine has emerged ...
Driven by recent two-dimensional infrared experiments by Woutersen and Hamm, trialanine has emerged ...
“The effect of (i) Methanol, (ii) Water and (iii) Glycerol on the stability and flexibility of (i) P...
Most of the protein-based diseases are caused by anomalies in the functionality and stability of the...
We examined the effect of solvation on the conformational preferences (e.g., R-helix versus â-sheet)...
The dilemma of reconciling the contradictory evidence regarding the conformation of long solvated pe...
It is important to understand the conformational biases that are present in unfolded states to under...
The focus of the PhD has been the investigation of the environmental effects on peptide and protein ...
Molecular dynamics (MD) simulations have been performed on a series of mutants of the 20 amino acid ...
Molecular dynamics (MD) simulations of short peptides in water were performed to establish whether i...
Several simulation methods are currently in use to study peptide and protein folding. They can be cl...
Protein-protein binding is crucial to various processes in living organisms including signal transdu...
In this work we are trying to gain insight into the mechanisms of ion-protein interactions in aqueou...
In this study we are trying to understand the effects of aqueous sodium halide solutions on conforma...
In general, peptides do not exhibit a well-defined conformational profile in solution. However, desp...
Driven by recent two-dimensional infrared experiments by Woutersen and Hamm, trialanine has emerged ...
Driven by recent two-dimensional infrared experiments by Woutersen and Hamm, trialanine has emerged ...
“The effect of (i) Methanol, (ii) Water and (iii) Glycerol on the stability and flexibility of (i) P...
Most of the protein-based diseases are caused by anomalies in the functionality and stability of the...
We examined the effect of solvation on the conformational preferences (e.g., R-helix versus â-sheet)...
The dilemma of reconciling the contradictory evidence regarding the conformation of long solvated pe...
It is important to understand the conformational biases that are present in unfolded states to under...
The focus of the PhD has been the investigation of the environmental effects on peptide and protein ...
Molecular dynamics (MD) simulations have been performed on a series of mutants of the 20 amino acid ...
Molecular dynamics (MD) simulations of short peptides in water were performed to establish whether i...
Several simulation methods are currently in use to study peptide and protein folding. They can be cl...
Protein-protein binding is crucial to various processes in living organisms including signal transdu...