Quality computational description of metalloproteins is a great challenge due to the vast span of time- and lengthscales characteristic of their existence. We present an efficient new method that allows for robust characterization of metalloproteins. It combines quantum mechanical (QM) description of the metal-containing active site, and extensive dynamics of the protein captured by discrete molecular dynamics (DMD) (QM/DMD). DMD samples the entire protein, including the backbone, and most of the active site, except for the immediate coordination region of the metal. QM operates on the part of the protein of electronic and chemical significance, which may include tens to hundreds of atoms. The breathing quantum-classical boundary provides a...
Metalloproteins present a considerable challenge for modeling, especially when the starting point is...
Metalloproteins present a considerable challenge for modeling, especially when the starting point is...
Enzymes are complex biomolecules capable of performing unique catalysis under physiological conditio...
Quality computational description of metalloproteins is a great challenge due to the vast span of ti...
AbstractQuality computational description of metalloproteins is a great challenge due to the vast sp...
Molecular dynamics (MD) is a powerful tool to study atomic scale changes in proteins underpinning bi...
Molecular dynamics (MD) is a powerful tool to study atomic scale changes in proteins underpinning bi...
Natural metalloenzymes are often the most proficient catalysts in terms of their activity, selectivi...
Mixed quantum-classical (quantum mechanical/molecular mechanical (QM/MM)) simulations have strongly ...
Mixed quantum-classical (quantum mechanical/molecular mechanical (QM/MM)) simulations have strongly ...
Mixed quantum-classical (quantum mechanical/molecular mechanical (QM/MM)) simulations have strongly ...
Available estimates indicate that 30–40 % of all proteins need at least one metal ion to perform the...
Available estimates indicate that 30–40 % of all proteins need at least one metal ion to perform the...
Available estimates indicate that 30\u201340 % of all proteins need at least one metal ion to perfor...
Metalloenzymes capitalize on the unique roles of metal co-factors and protein scaffolds in catalyzin...
Metalloproteins present a considerable challenge for modeling, especially when the starting point is...
Metalloproteins present a considerable challenge for modeling, especially when the starting point is...
Enzymes are complex biomolecules capable of performing unique catalysis under physiological conditio...
Quality computational description of metalloproteins is a great challenge due to the vast span of ti...
AbstractQuality computational description of metalloproteins is a great challenge due to the vast sp...
Molecular dynamics (MD) is a powerful tool to study atomic scale changes in proteins underpinning bi...
Molecular dynamics (MD) is a powerful tool to study atomic scale changes in proteins underpinning bi...
Natural metalloenzymes are often the most proficient catalysts in terms of their activity, selectivi...
Mixed quantum-classical (quantum mechanical/molecular mechanical (QM/MM)) simulations have strongly ...
Mixed quantum-classical (quantum mechanical/molecular mechanical (QM/MM)) simulations have strongly ...
Mixed quantum-classical (quantum mechanical/molecular mechanical (QM/MM)) simulations have strongly ...
Available estimates indicate that 30–40 % of all proteins need at least one metal ion to perform the...
Available estimates indicate that 30–40 % of all proteins need at least one metal ion to perform the...
Available estimates indicate that 30\u201340 % of all proteins need at least one metal ion to perfor...
Metalloenzymes capitalize on the unique roles of metal co-factors and protein scaffolds in catalyzin...
Metalloproteins present a considerable challenge for modeling, especially when the starting point is...
Metalloproteins present a considerable challenge for modeling, especially when the starting point is...
Enzymes are complex biomolecules capable of performing unique catalysis under physiological conditio...