Add to ORKGPeptide bond formation and translational termination on the ribosome have been simulated by molecular mechanics, free energy perturbation, empirical valence bond (MD/FEP/EVB) and automated docking methods. Recent X-ray crystallographic data is used here to calculate the entire free energy surface for the system complete with substrates, ribosomal groups, solvent molecules and ions. A reaction mechanism for peptide bond formation emerges that is found to be catalyzed by the ribosome, in agreement with kinetic data and activation entropy measurements. The results show a water mediated network of hydrogen bonds, capable of reducing the reorganization energy during peptidyl transfer. The predicted hydrogen bonds and the structure of the active ...
The ribosome is a macromolecular machine that produces proteins in all kingdoms of life. The protein...
The determination of the tertiary structure of the bacterial ribosomes revealed that the peptidyl tr...
Finding a proper transition structure for the peptide bond formation process can lead one to a bette...
The peptidyl transfer reaction on the large ribosomal subunit depends on the protonation state of th...
The chemical step of protein synthesis, peptide bond formation, is catalyzed by the large subunit of...
In this paper we present a study of the peptide bond formation reaction catalyzed by ribosome. Diffe...
In this paper we present a study of the peptide bond formation reaction catalyzed by ribosome. Diffe...
Termination of protein synthesis on the ribosome involves hydrolysis of the ester bond between the P...
<i>Ab initio</i> QM/MM free-energy simulations were carried out to study the peptide bond formation ...
A quantum mechanical study of different two-step mechanisms of peptide release in the ribosome has b...
A quantum mechanical study of different concerted mechanisms of peptide release in the ribosome has ...
Recent progress in the study of transition structure of peptide bond formation indicates that riboso...
AbstractPeptide bond formation and peptide release are catalyzed in the active site of the large sub...
A ribosome is a ribozyme polymerizing amino acids, exploiting positional- and substrate-mediated che...
In this work, we have investigated a novel distal proton shuttle mechanism of ribosome catalyzed pep...
The ribosome is a macromolecular machine that produces proteins in all kingdoms of life. The protein...
The determination of the tertiary structure of the bacterial ribosomes revealed that the peptidyl tr...
Finding a proper transition structure for the peptide bond formation process can lead one to a bette...
The peptidyl transfer reaction on the large ribosomal subunit depends on the protonation state of th...
The chemical step of protein synthesis, peptide bond formation, is catalyzed by the large subunit of...
In this paper we present a study of the peptide bond formation reaction catalyzed by ribosome. Diffe...
In this paper we present a study of the peptide bond formation reaction catalyzed by ribosome. Diffe...
Termination of protein synthesis on the ribosome involves hydrolysis of the ester bond between the P...
<i>Ab initio</i> QM/MM free-energy simulations were carried out to study the peptide bond formation ...
A quantum mechanical study of different two-step mechanisms of peptide release in the ribosome has b...
A quantum mechanical study of different concerted mechanisms of peptide release in the ribosome has ...
Recent progress in the study of transition structure of peptide bond formation indicates that riboso...
AbstractPeptide bond formation and peptide release are catalyzed in the active site of the large sub...
A ribosome is a ribozyme polymerizing amino acids, exploiting positional- and substrate-mediated che...
In this work, we have investigated a novel distal proton shuttle mechanism of ribosome catalyzed pep...
The ribosome is a macromolecular machine that produces proteins in all kingdoms of life. The protein...
The determination of the tertiary structure of the bacterial ribosomes revealed that the peptidyl tr...
Finding a proper transition structure for the peptide bond formation process can lead one to a bette...