Add to ORKGThe fidelity of DNA polymerases depends on conformational changes that promote the rejection of incorrect nucleotides before phosphoryl transfer. Here, we combine single-molecule FRET with the use of DNA polymerase I and various fidelity mutants to highlight mechanisms by which active-site side chains influence the conformational transitions and free-energy landscape that underlie fidelity decisions in DNA synthesis. Ternary complexes of high fidelity derivatives with complementary dNTPs adopt mainly a fully closed conformation, whereas a conformation with a FRET value between those of open and closed is sparsely populated. This intermediate-FRET state, which we attribute to a partially closed conformation, is also predominant in ternary co...
SummarySubstrate-induced conformational change of the protein is the linchpin of enzymatic reactions...
Abstract Polymerases select nucleotides according to a template before incorporating them for chemic...
AbstractDNA polymerases discriminate from a pool of structurally similar molecules to insert the cor...
The fidelity of DNA polymerases depends on conformational changes that promote the rejection of inco...
The fidelity of DNA polymerases depends on conformational changes that promote the rejection of inco...
The remarkable fidelity of most DNA polymerases depends on a series of early steps in the reaction p...
Herein we investigate the molecular bases of DNA polymerase I conformational dynamics that underlie ...
Herein we investigate the molecular bases of DNA polymerase I conformational dynamics that underlie ...
Enzymatic reactions typically involve complex dynamics during substrate binding, conformational rear...
<p>Monitoring conformational changes in DNA polymerases using single-molecule Förster resonance ener...
ABSTRACT: The accuracy of high-fidelity DNA polymerases such as DNA polymerase I (Klenow fragment) i...
DNA polymerases discriminate between correct and incorrect nucleotide substrates during a "nonchemic...
UnrestrictedThe mechanism of DNA polymerase beta-catalyzed nucleotidyl transfer consists of chemical...
ABSTRACT: Intensive study has been devoted to understanding the kinetic and structural bases underly...
DNA polymerases are enzymes responsible for replicating DNA molecules in cells. They have evolved t...
SummarySubstrate-induced conformational change of the protein is the linchpin of enzymatic reactions...
Abstract Polymerases select nucleotides according to a template before incorporating them for chemic...
AbstractDNA polymerases discriminate from a pool of structurally similar molecules to insert the cor...
The fidelity of DNA polymerases depends on conformational changes that promote the rejection of inco...
The fidelity of DNA polymerases depends on conformational changes that promote the rejection of inco...
The remarkable fidelity of most DNA polymerases depends on a series of early steps in the reaction p...
Herein we investigate the molecular bases of DNA polymerase I conformational dynamics that underlie ...
Herein we investigate the molecular bases of DNA polymerase I conformational dynamics that underlie ...
Enzymatic reactions typically involve complex dynamics during substrate binding, conformational rear...
<p>Monitoring conformational changes in DNA polymerases using single-molecule Förster resonance ener...
ABSTRACT: The accuracy of high-fidelity DNA polymerases such as DNA polymerase I (Klenow fragment) i...
DNA polymerases discriminate between correct and incorrect nucleotide substrates during a "nonchemic...
UnrestrictedThe mechanism of DNA polymerase beta-catalyzed nucleotidyl transfer consists of chemical...
ABSTRACT: Intensive study has been devoted to understanding the kinetic and structural bases underly...
DNA polymerases are enzymes responsible for replicating DNA molecules in cells. They have evolved t...
SummarySubstrate-induced conformational change of the protein is the linchpin of enzymatic reactions...
Abstract Polymerases select nucleotides according to a template before incorporating them for chemic...
AbstractDNA polymerases discriminate from a pool of structurally similar molecules to insert the cor...