We compare the performance of two well-established computational algorithms for the calculation of free-energy landscapes of biomolecular systems, umbrella sampling and metadynamics. We look at benchmark systems composed of polyethylene and polypropylene oligomers interacting with lipid (phosphatidylcholine) membranes, aiming at the calculation of the oligomer water-membrane free energy of transfer. We model our test systems at two different levels of description, united-atom and coarse-grained. We provide optimized parameters for the two methods at both resolutions. We devote special attention to the analysis of statistical errors in the two different methods and propose a general procedure for the error estimation in metadynamics simulati...
Atomistic molecular dynamics simulations of a lipid bilayer were performed to calculate the free ene...
Protein-lipid interactions underpin the biological activities in cell membranes. However, the energ...
Transfer properties and partition coefficients for individual ions are relevant in a variety of scie...
Understanding how different classes of molecules move across biological membranes is a prerequisite ...
We present a new approach to combine λ dynamics with metadynamics (named λ-metadynamics) to compute ...
The application of statistical simulations to the estimation of transfer free energies of pharmacolo...
Metadynamics is a powerful computational tool to obtain the free-energy landscape of complex systems...
Free energy calculations are central to understanding the structure, dynamics and function of biomol...
Potential of mean force (PMF) calculations are used to characterize the free energy landscape of pro...
AbstractThe accurate prediction of membrane-insertion probability for arbitrary protein sequences is...
The potential of mean force describing conformational changes of biomolecules is a central quantity ...
Thermodynamics of the permeation of amino acids from water to lipid bilayers is an important first s...
Abstract. Applications of molecular simulations targeted at the estimation of free energies are revi...
Free energy calculations are vital for our understanding of biological processes on an atomistic sca...
Recently proposed metadynamics techniques offer an effective means for improving sampling in simulat...
Atomistic molecular dynamics simulations of a lipid bilayer were performed to calculate the free ene...
Protein-lipid interactions underpin the biological activities in cell membranes. However, the energ...
Transfer properties and partition coefficients for individual ions are relevant in a variety of scie...
Understanding how different classes of molecules move across biological membranes is a prerequisite ...
We present a new approach to combine λ dynamics with metadynamics (named λ-metadynamics) to compute ...
The application of statistical simulations to the estimation of transfer free energies of pharmacolo...
Metadynamics is a powerful computational tool to obtain the free-energy landscape of complex systems...
Free energy calculations are central to understanding the structure, dynamics and function of biomol...
Potential of mean force (PMF) calculations are used to characterize the free energy landscape of pro...
AbstractThe accurate prediction of membrane-insertion probability for arbitrary protein sequences is...
The potential of mean force describing conformational changes of biomolecules is a central quantity ...
Thermodynamics of the permeation of amino acids from water to lipid bilayers is an important first s...
Abstract. Applications of molecular simulations targeted at the estimation of free energies are revi...
Free energy calculations are vital for our understanding of biological processes on an atomistic sca...
Recently proposed metadynamics techniques offer an effective means for improving sampling in simulat...
Atomistic molecular dynamics simulations of a lipid bilayer were performed to calculate the free ene...
Protein-lipid interactions underpin the biological activities in cell membranes. However, the energ...
Transfer properties and partition coefficients for individual ions are relevant in a variety of scie...