It is important to determine the binding pathways and mechanisms of ligand molecules to target proteins to effectively design therapeutic drugs. Molecular dynamics (MD) is a promising computational tool that allows us to simulate protein–drug binding at an atomistic level. However, the gap between the time scales of current simulations and those of many drug binding processes has limited the usage of conventional MD, which has been reflected in studies of the HIV protease. Here, we have applied a robust enhanced simulation method, Gaussian accelerated molecular dynamics (GaMD), to sample binding pathways of the XK263 ligand and associated protein conformational changes in the HIV protease. During two of 10 independent GaMD simulations perfo...
Binding dynamics and pathways of ligands or inhibitors to target proteins are challenging both exper...
The binding mechanism of a peptide substrate (Thr-Ile-Met-Met-Gln-Arg, cleavage site p2-NC of the vi...
Inhibition of the Human Immunodeficiency virus type-1 (HIV-1) protease enzyme blocks HIV-1 replicati...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
The dynamics of HIV-1 protease, both in unliganded and substrate-bound forms have been analyzed by u...
Equilibrium constants, together with kinetic rate constants of binding, are key factors in the effic...
HIV-1 Protease is a principal object in drug discovery given its key role in the survival of AIDS. W...
Drugs with desired kinetic properties have better efficacy. Non-covalent small molecule drugs can bi...
The binding free energies (ΔGBind) obtained from molecular mechanics with Poisson–Boltzmann s...
Traditionally, structure-based drug design (SBDD) is based on a single X-ray structure of a protein ...
Traditionally, structure-based drug design (SBDD) is based on a single X-ray structure of a protein ...
Binding dynamics and pathways of ligands or inhibitors to target proteins are challenging both exper...
The binding mechanism of a peptide substrate (Thr-Ile-Met-Met-Gln-Arg, cleavage site p2-NC of the vi...
Inhibition of the Human Immunodeficiency virus type-1 (HIV-1) protease enzyme blocks HIV-1 replicati...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
It is important to determine the binding pathways and mechanisms of ligand molecules to target prote...
The dynamics of HIV-1 protease, both in unliganded and substrate-bound forms have been analyzed by u...
Equilibrium constants, together with kinetic rate constants of binding, are key factors in the effic...
HIV-1 Protease is a principal object in drug discovery given its key role in the survival of AIDS. W...
Drugs with desired kinetic properties have better efficacy. Non-covalent small molecule drugs can bi...
The binding free energies (ΔGBind) obtained from molecular mechanics with Poisson–Boltzmann s...
Traditionally, structure-based drug design (SBDD) is based on a single X-ray structure of a protein ...
Traditionally, structure-based drug design (SBDD) is based on a single X-ray structure of a protein ...
Binding dynamics and pathways of ligands or inhibitors to target proteins are challenging both exper...
The binding mechanism of a peptide substrate (Thr-Ile-Met-Met-Gln-Arg, cleavage site p2-NC of the vi...
Inhibition of the Human Immunodeficiency virus type-1 (HIV-1) protease enzyme blocks HIV-1 replicati...