AbstractIn this review we give an overview of the field of Computational enzymology. We start by describing the birth of the field, with emphasis on the work of the 2013 chemistry Nobel Laureates. We then present key features of the state-of-the-art in the field, showing what theory, accompanied by experiments, has taught us so far about enzymes. We also briefly describe computational methods, such as quantum mechanics-molecular mechanics approaches, reaction coordinate treatment, and free energy simulation approaches. We finalize by discussing open questions and challenges
Techniques for modelling enzyme-catalyzed reaction mechanisms are making increasingly important cont...
Separating the dynamics of variables that evolve on different timescales is a common assumption in e...
The astonishing, exponentially increasing rates of genome sequencing has led to one of the most sign...
AbstractIn this review we give an overview of the field of Computational enzymology. We start by des...
In this review we give an overview of the field of Computational enzymology. We start by describing ...
In this introductory chapter, we present how the experimental and computational strategies in enzyme...
Proteins and enzymes are large and complex biological molecules, characterized by unique three-dimen...
Elucidating the origin of enzymatic catalysis stands as one the great challenges of contemporary bio...
Enzymes are molecules that play a crucial role in many biological and chemical processes. To underst...
Elucidating the origin of enzymatic catalysis stands as one the great challenges of contemporary bio...
The free energy landscape concept that describes enzymes as an ensemble of differently populated con...
With computational resources becoming more efficient and more powerful and at the same time cheaper,...
With the increase of the need to use more sustainable processes for the industry in our society, the...
Chapters 1-6 describe studies of enzymes and their applications in biocatalysis. Biocatalysis, the u...
AbstractThis mini review addresses recent developments in computational enzyme design. Successful pr...
Techniques for modelling enzyme-catalyzed reaction mechanisms are making increasingly important cont...
Separating the dynamics of variables that evolve on different timescales is a common assumption in e...
The astonishing, exponentially increasing rates of genome sequencing has led to one of the most sign...
AbstractIn this review we give an overview of the field of Computational enzymology. We start by des...
In this review we give an overview of the field of Computational enzymology. We start by describing ...
In this introductory chapter, we present how the experimental and computational strategies in enzyme...
Proteins and enzymes are large and complex biological molecules, characterized by unique three-dimen...
Elucidating the origin of enzymatic catalysis stands as one the great challenges of contemporary bio...
Enzymes are molecules that play a crucial role in many biological and chemical processes. To underst...
Elucidating the origin of enzymatic catalysis stands as one the great challenges of contemporary bio...
The free energy landscape concept that describes enzymes as an ensemble of differently populated con...
With computational resources becoming more efficient and more powerful and at the same time cheaper,...
With the increase of the need to use more sustainable processes for the industry in our society, the...
Chapters 1-6 describe studies of enzymes and their applications in biocatalysis. Biocatalysis, the u...
AbstractThis mini review addresses recent developments in computational enzyme design. Successful pr...
Techniques for modelling enzyme-catalyzed reaction mechanisms are making increasingly important cont...
Separating the dynamics of variables that evolve on different timescales is a common assumption in e...
The astonishing, exponentially increasing rates of genome sequencing has led to one of the most sign...