Add to ORKGThe ribosome has an active site comprised of RNA that catalyzes peptide bond formation. To understand how RNA promotes this reaction requires a detailed understanding of the chemical transition state. Here, we report the Brønsted coefficient of the α-amino nucleophile with a series of puromycin derivatives. Both 50S subunit- and 70S ribosome-catalyzed reactions displayed linear free-energy relationships with slopes close to zero under conditions where chemistry is rate limiting. These results indicate that, at the transition state, the nucleophile is neutral in the ribosome-catalyzed reaction, in contrast to the substantial positive charge reported for typical uncatalyzed aminolysis reactions. This suggests that the ribosomal transition sta...
editorial reviewedThe central function of the large subunit of the ribosome is to catalyze peptide b...
<p><b>Copyright information:</b></p><p>Taken from "Chemical engineering of the peptidyl transferase ...
The rate-limiting step for nucleotide incorporation in the pre-steady state for most nucleic acid po...
The ribosome has an active site comprised of RNA that catalyzes peptide bond formation. To understan...
SummaryThe ribosome has an active site comprised of RNA that catalyzes peptide bond formation. To un...
The ribosome has an active site comprised of RNA that catalyzes peptide bond formation. To understan...
We synthesized a series of puromycin analogues to probe the chemical specificity of the ribosome in ...
To determine the effectiveness of the ribosome as a catalyst, we compared the rate of uncatalyzed pe...
AbstractPeptide bond formation and peptide release are catalyzed in the active site of the large sub...
AbstractAcPhe2-tRNAPhe synthesized in 70S ribosomes after consecutive binding of AcPhe-tRNAPhe at th...
The chemical step of protein synthesis, peptide bond formation, is catalyzed by the large subunit of...
The peptidyl transfer reaction on the large ribosomal subunit depends on the protonation state of th...
In all contemporary organisms, the active site of the ribosome—the peptidyl transferase center—catal...
Peptide bond formation and translational termination on the ribosome have been simulated by molecula...
The ribosome is the molecular machine responsible for protein synthesis in all living organisms. Its...
editorial reviewedThe central function of the large subunit of the ribosome is to catalyze peptide b...
<p><b>Copyright information:</b></p><p>Taken from "Chemical engineering of the peptidyl transferase ...
The rate-limiting step for nucleotide incorporation in the pre-steady state for most nucleic acid po...
The ribosome has an active site comprised of RNA that catalyzes peptide bond formation. To understan...
SummaryThe ribosome has an active site comprised of RNA that catalyzes peptide bond formation. To un...
The ribosome has an active site comprised of RNA that catalyzes peptide bond formation. To understan...
We synthesized a series of puromycin analogues to probe the chemical specificity of the ribosome in ...
To determine the effectiveness of the ribosome as a catalyst, we compared the rate of uncatalyzed pe...
AbstractPeptide bond formation and peptide release are catalyzed in the active site of the large sub...
AbstractAcPhe2-tRNAPhe synthesized in 70S ribosomes after consecutive binding of AcPhe-tRNAPhe at th...
The chemical step of protein synthesis, peptide bond formation, is catalyzed by the large subunit of...
The peptidyl transfer reaction on the large ribosomal subunit depends on the protonation state of th...
In all contemporary organisms, the active site of the ribosome—the peptidyl transferase center—catal...
Peptide bond formation and translational termination on the ribosome have been simulated by molecula...
The ribosome is the molecular machine responsible for protein synthesis in all living organisms. Its...
editorial reviewedThe central function of the large subunit of the ribosome is to catalyze peptide b...
<p><b>Copyright information:</b></p><p>Taken from "Chemical engineering of the peptidyl transferase ...
The rate-limiting step for nucleotide incorporation in the pre-steady state for most nucleic acid po...