The free energy landscape concept that describes enzymes as an ensemble of differently populated conformational sub-states in dynamic equilibrium is key for evaluating the enzyme activity, enantioselectivity, and specificity. Mutations introduced in the enzyme sequence can alter the populations of the pre-existing conformational states, thus strongly modifying the enzyme ability to accommodate alternative substrates, revert its enantiopreferences, and even increase the activity for some residual promiscuous reactions. In this feature article, we present an overview of the current experimental and computational strategies to explore the conformational free energy landscape of enzymes. We provide a series of recent publications that highlight...
Several enzymes are known to have evolved from non-catalytic proteins such as solute-binding protein...
The three projects discussed in this thesis are unified by the common goal of understanding and mani...
Enzymes are versatile and efficient biological catalysts that drive numerous cellular processes, mot...
The free energy landscape concept that describes enzymes as an ensemble of differently populated con...
With increasing computational power, biomolecular simulations have become an invaluable tool for und...
Enzymes are sophisticated biomacromolecules whose function is linked to its three-dimensional struc...
AbstractIn this review we give an overview of the field of Computational enzymology. We start by des...
In this review, we will explore recent computational approaches to understand enzyme evolution from ...
This Account describes the use of molecular dynamics (MD) simulations to reveal how mutations alter ...
Proteins and enzymes are large and complex biological molecules, characterized by unique three-dimen...
Developments in computational chemistry, bioinformatics, and laboratory evolution have facilitated t...
Enzymes are flexible catalysts, and there has been substantial discussion about the extent to which...
The increasing number of enzyme applications in chemical synthesis calls for new engineering methods...
Elucidating the relationship between the free energy landscape of enzymes and their catalytic power ...
Computational design is becoming an integral component in developing novel enzymatic activities. Cat...
Several enzymes are known to have evolved from non-catalytic proteins such as solute-binding protein...
The three projects discussed in this thesis are unified by the common goal of understanding and mani...
Enzymes are versatile and efficient biological catalysts that drive numerous cellular processes, mot...
The free energy landscape concept that describes enzymes as an ensemble of differently populated con...
With increasing computational power, biomolecular simulations have become an invaluable tool for und...
Enzymes are sophisticated biomacromolecules whose function is linked to its three-dimensional struc...
AbstractIn this review we give an overview of the field of Computational enzymology. We start by des...
In this review, we will explore recent computational approaches to understand enzyme evolution from ...
This Account describes the use of molecular dynamics (MD) simulations to reveal how mutations alter ...
Proteins and enzymes are large and complex biological molecules, characterized by unique three-dimen...
Developments in computational chemistry, bioinformatics, and laboratory evolution have facilitated t...
Enzymes are flexible catalysts, and there has been substantial discussion about the extent to which...
The increasing number of enzyme applications in chemical synthesis calls for new engineering methods...
Elucidating the relationship between the free energy landscape of enzymes and their catalytic power ...
Computational design is becoming an integral component in developing novel enzymatic activities. Cat...
Several enzymes are known to have evolved from non-catalytic proteins such as solute-binding protein...
The three projects discussed in this thesis are unified by the common goal of understanding and mani...
Enzymes are versatile and efficient biological catalysts that drive numerous cellular processes, mot...