Add to ORKGIt is widely agreed that new enzymes evolve from existing ones through the duplication of genes encoding existing enzymes followed by sequence divergence. While evolution is an inherently random process, studies of divergently related enzymes have shown that the evolution of new enzymes follows one of three general routes in which the substrate specificity, reaction mechanism, or active site architecture of the progenitor enzyme is reused in the new enzyme. Recent developments in structural biology relating to divergently related (â/R)8 enzymes have brought new insight into these processes and have revealed that conserved structural elements play an important role in divergent evolution. These studies have shown that, although evolution occ...
In this review, we will explore recent computational approaches to understand enzyme evolution from ...
The complex constraints imposed by protein structure and function result in varied rates of sequence...
For more than twenty years this laboratory has used directed evolution to modify enzymes. It is now...
<div><p>In order to understand the evolution of enzyme reactions and to gain an overview of biologic...
Studying the evolution of enzymes and their functions improves our ability to determine the function...
New genes can arise by duplication and divergence, but there is a fundamental gap in our understandi...
New genes can arise by duplication and divergence, but there is a fundamental gap in our understandi...
© 2014 by The American Society for Biochemistry and Molecular Biology, Inc.Understanding how enzymes...
Present state of research on expanding enzyme catalysis beyond nature For more than twenty years thi...
How do proteins evolve? How do changes in sequence mediate changes in protein structure, and in turn...
New genes can arise by duplication and divergence, but there is a fundamental gap in our understandi...
Several models have been proposed to explain the origin and evolution of enzymes in metabolic pathwa...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
In this review, we will explore recent computational approaches to understand enzyme evolution from ...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
In this review, we will explore recent computational approaches to understand enzyme evolution from ...
The complex constraints imposed by protein structure and function result in varied rates of sequence...
For more than twenty years this laboratory has used directed evolution to modify enzymes. It is now...
<div><p>In order to understand the evolution of enzyme reactions and to gain an overview of biologic...
Studying the evolution of enzymes and their functions improves our ability to determine the function...
New genes can arise by duplication and divergence, but there is a fundamental gap in our understandi...
New genes can arise by duplication and divergence, but there is a fundamental gap in our understandi...
© 2014 by The American Society for Biochemistry and Molecular Biology, Inc.Understanding how enzymes...
Present state of research on expanding enzyme catalysis beyond nature For more than twenty years thi...
How do proteins evolve? How do changes in sequence mediate changes in protein structure, and in turn...
New genes can arise by duplication and divergence, but there is a fundamental gap in our understandi...
Several models have been proposed to explain the origin and evolution of enzymes in metabolic pathwa...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
In this review, we will explore recent computational approaches to understand enzyme evolution from ...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
In this review, we will explore recent computational approaches to understand enzyme evolution from ...
The complex constraints imposed by protein structure and function result in varied rates of sequence...
For more than twenty years this laboratory has used directed evolution to modify enzymes. It is now...