AbstractThe publication of crystal structures of the 50S and 30S ribosomal subunits and the intact 70S ribosome is revolutionizing our understanding of protein synthesis. This review is an attempt to correlate the structures with biochemical and genetic data to identify the gaps and limits in our current knowledge of the mechanisms involved in translation
Ribosomes translate messenger RNA (mRNA) into protein in all living cells. The faultless production ...
Ribosomes are among the largest and most dynamic molecular motors. The structure and dynamics of tra...
For almost 20 years crystallographers have sought to solve the structure of the ribosome, the larges...
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...
The key reaction of protein synthesis, peptidyl transfer, is catalysed in all living organisms by th...
AbstractRecent X-ray crystal structures of the ribosome have revolutionized the field by providing a...
Understanding protein synthesis in bacteria and humans is important for understanding the origin of ...
Crystal structures of prokaryotic ribosomes have described in detail the universally conserved core ...
Structures of the bacterial ribosome have provided a framework for understanding universal mechanism...
Structures of the ribosomal large and small subunits have been solved to atomic resolution by X-ray ...
International audienceTranslation initiation is the rate-limiting and most complexly regulated step ...
A high-resolution structure of the eukaryotic ribosome has been determined and has led to increased ...
The crystal structures of ribosomes that have been obtained since 2000 have transformed our understa...
Protein translation—the process of converting genetic information into protein chains—is one of the ...
Ribosomes translate messenger RNA (mRNA) into protein in all living cells. The faultless production ...
Ribosomes are among the largest and most dynamic molecular motors. The structure and dynamics of tra...
For almost 20 years crystallographers have sought to solve the structure of the ribosome, the larges...
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...
The key reaction of protein synthesis, peptidyl transfer, is catalysed in all living organisms by th...
AbstractRecent X-ray crystal structures of the ribosome have revolutionized the field by providing a...
Understanding protein synthesis in bacteria and humans is important for understanding the origin of ...
Crystal structures of prokaryotic ribosomes have described in detail the universally conserved core ...
Structures of the bacterial ribosome have provided a framework for understanding universal mechanism...
Structures of the ribosomal large and small subunits have been solved to atomic resolution by X-ray ...
International audienceTranslation initiation is the rate-limiting and most complexly regulated step ...
A high-resolution structure of the eukaryotic ribosome has been determined and has led to increased ...
The crystal structures of ribosomes that have been obtained since 2000 have transformed our understa...
Protein translation—the process of converting genetic information into protein chains—is one of the ...
Ribosomes translate messenger RNA (mRNA) into protein in all living cells. The faultless production ...
Ribosomes are among the largest and most dynamic molecular motors. The structure and dynamics of tra...
For almost 20 years crystallographers have sought to solve the structure of the ribosome, the larges...
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