Add to ORKGA unique feature of chemical catalysis mediated by enzymes is that the catalytically reactive atoms are embedded within a folded protein. Although current understanding of enzyme function has been focused on the chemical reactions and static three-dimensional structures, the dynamic nature of proteins has been proposed to have a function in catalysis1–5. The concept of conformational substates has been described6; however, the challenge is to unravel the intimate linkage between protein flexibility and enzymatic function. Here we show that the intrinsic plasticity of the protein is a key characteristic of catalysis. The dynamics of the prolyl cis–trans isomerase cyclophilin A (CypA) in its substrate-free state and during catalysis were char...
A deep understanding of the physicochemical principles that underpin allosteric regulation in prote...
Proteins are dynamic molecules and their ability to adopt alternative conformations is central to th...
Protein function relies upon a fine balance between stability and flexibility. To examine this balan...
AbstractEnzyme catalysis is central to almost all biochemical processes, speeding up rates of reacti...
Enzyme catalysis is central to almost all biochemical processes, speeding up rates of reactions to b...
Internal protein dynamics are intimately connected to enzymatic catalysis. However, enzyme motions l...
A long-standing challenge is to understand at the atomic level how protein dynamics contribute to en...
Proteins are intrinsically flexible molecules. The role of internal motions in a protein's designate...
Rational design and directed evolution have proved to be successful approaches to increase catalytic...
Rational design and directed evolution have proved to be successful approaches to increase catalytic...
The evolution of protein conformational dynamics contains important information about protein functi...
Cyclophilins catalyze <i>cis</i> ↔ <i>trans</i> isomerization of peptidyl–prolyl bonds, influencing ...
Conformational flexibility of protein is essential for enzyme catalysis. Yet, how protein’s conforma...
Proline isomerization is a ubiquitous process that plays a key role in the folding of proteins and i...
Conformational flexibility of proteins provides enzymes with high catalytic activity. Although the c...
A deep understanding of the physicochemical principles that underpin allosteric regulation in prote...
Proteins are dynamic molecules and their ability to adopt alternative conformations is central to th...
Protein function relies upon a fine balance between stability and flexibility. To examine this balan...
AbstractEnzyme catalysis is central to almost all biochemical processes, speeding up rates of reacti...
Enzyme catalysis is central to almost all biochemical processes, speeding up rates of reactions to b...
Internal protein dynamics are intimately connected to enzymatic catalysis. However, enzyme motions l...
A long-standing challenge is to understand at the atomic level how protein dynamics contribute to en...
Proteins are intrinsically flexible molecules. The role of internal motions in a protein's designate...
Rational design and directed evolution have proved to be successful approaches to increase catalytic...
Rational design and directed evolution have proved to be successful approaches to increase catalytic...
The evolution of protein conformational dynamics contains important information about protein functi...
Cyclophilins catalyze <i>cis</i> ↔ <i>trans</i> isomerization of peptidyl–prolyl bonds, influencing ...
Conformational flexibility of protein is essential for enzyme catalysis. Yet, how protein’s conforma...
Proline isomerization is a ubiquitous process that plays a key role in the folding of proteins and i...
Conformational flexibility of proteins provides enzymes with high catalytic activity. Although the c...
A deep understanding of the physicochemical principles that underpin allosteric regulation in prote...
Proteins are dynamic molecules and their ability to adopt alternative conformations is central to th...
Protein function relies upon a fine balance between stability and flexibility. To examine this balan...