Add to ORKGOur understanding of the process of translation has progressed rapidly since the availability of highly resolved structures for the ribosome. A wealth of information has emerged in terms of both RNA and protein structure and the interplay between them. This has prompted us to revisit the astonishing “treasure trove” of functional data regarding the ribosome that has accumulated over the past decades. Here we try a systematic synopsis of these ribosomal functions in light of the cryo-electron microscopic structures (resolution >7 Å) and the atomic x-ray structures (>2.4 Å) of the ribosome
AbstractRecent X-ray crystal structures of the ribosome have revolutionized the field by providing a...
The multifaceted repertoire of non-protein-coding RNAs (ncRNAs) in organisms of all three domains of...
Translation of the genetic code on the ribosome into protein is a process of extraordinary complexit...
Our understanding of the process of translation has progressed rapidly since the availability of hig...
Our understanding of the process of translation has progressed rapidly since the availability of hig...
ation, and termination phases of protein synthesis. Because the structures of several DNA and RNA p...
AbstractThe publication of crystal structures of the 50S and 30S ribosomal subunits and the intact 7...
Understanding protein synthesis in bacteria and humans is important for understanding the origin of ...
Cellular translation is one of the fundamental processes that make life possible. It is the point at...
For almost 20 years crystallographers have sought to solve the structure of the ribosome, the larges...
Abstract: Resolving first crystal structures of prokaryotic and eukaryotic ribosomes by our group ha...
The key reaction of protein synthesis, peptidyl transfer, is catalysed in all living organisms by th...
Structures of the ribosomal large and small subunits have been solved to atomic resolution by X-ray ...
Ribosomes translate messenger RNA (mRNA) into protein in all living cells. The faultless production ...
This dissertation comprises projects focused broadly on cryo-electron microscopy (cryo-EM) methods a...
AbstractRecent X-ray crystal structures of the ribosome have revolutionized the field by providing a...
The multifaceted repertoire of non-protein-coding RNAs (ncRNAs) in organisms of all three domains of...
Translation of the genetic code on the ribosome into protein is a process of extraordinary complexit...
Our understanding of the process of translation has progressed rapidly since the availability of hig...
Our understanding of the process of translation has progressed rapidly since the availability of hig...
ation, and termination phases of protein synthesis. Because the structures of several DNA and RNA p...
AbstractThe publication of crystal structures of the 50S and 30S ribosomal subunits and the intact 7...
Understanding protein synthesis in bacteria and humans is important for understanding the origin of ...
Cellular translation is one of the fundamental processes that make life possible. It is the point at...
For almost 20 years crystallographers have sought to solve the structure of the ribosome, the larges...
Abstract: Resolving first crystal structures of prokaryotic and eukaryotic ribosomes by our group ha...
The key reaction of protein synthesis, peptidyl transfer, is catalysed in all living organisms by th...
Structures of the ribosomal large and small subunits have been solved to atomic resolution by X-ray ...
Ribosomes translate messenger RNA (mRNA) into protein in all living cells. The faultless production ...
This dissertation comprises projects focused broadly on cryo-electron microscopy (cryo-EM) methods a...
AbstractRecent X-ray crystal structures of the ribosome have revolutionized the field by providing a...
The multifaceted repertoire of non-protein-coding RNAs (ncRNAs) in organisms of all three domains of...
Translation of the genetic code on the ribosome into protein is a process of extraordinary complexit...