Add to ORKGMethods to directly inhibit gene expression using small molecules hold promise for the development of new therapeutics targeting proteins that have evaded previous attempts at drug discovery. Among these, small molecules including the drug-like compound PF-06446846 (PF846) selectively inhibit the synthesis of specific proteins, by stalling translation elongation. These molecules also inhibit translation termination by an unknown mechanism. Using cryo-electron microscopy (cryo-EM) and biochemical approaches, we show that PF846 inhibits translation termination by arresting the nascent chain (NC) in the ribosome exit tunnel. The arrested NC adopts a compact α-helical conformation that induces 28 S rRNA nucleotide rearrangements that ...
Identifying small molecules that inhibit protein synthesis by selectively stalling the ribosome cons...
Recently, structural and biochemical studies have detailed many of the molecular events that occur i...
The translational apparatus of the bacterial cell remains one of the principal targets of antibiotic...
Methods to directly inhibit gene expression using small molecules hold promise for the developm...
The bacterial ribosome is an important drug target for antibiotics that can inhibit different stages...
Abstract: Eukaryotic ribosome and cap-dependent translation are attractive targets in the antitumor,...
The ribosome recruitment phase of translation initiation is the rate-limiting step of protein synthe...
Translation termination occurs when one of three stop-codons (UAA, UGA, or UAG) in mRNA reaches the ...
Protein synthesis is a highly regulated process and it is vital to life. If the rate of translation ...
Proprotein convertase subtilisin/kexin type 9 (PCSK9) plays a key role in regulating the levels of p...
Identifying small molecules that inhibit protein synthesis by selectively stalling the ribosome cons...
Protein biosynthesis is a vital process for all kingdoms of life. The ribosome is the massive ribonu...
Protein biosynthesis is a vital process for all kingdoms of life. The ribosome is the massive ribonu...
The aim of this work was to understand the molecular mechanism of translation and the mechanism of t...
Protein biosynthesis is a vital process for all kingdoms of life. The ribosome is the massive ribonu...
Identifying small molecules that inhibit protein synthesis by selectively stalling the ribosome cons...
Recently, structural and biochemical studies have detailed many of the molecular events that occur i...
The translational apparatus of the bacterial cell remains one of the principal targets of antibiotic...
Methods to directly inhibit gene expression using small molecules hold promise for the developm...
The bacterial ribosome is an important drug target for antibiotics that can inhibit different stages...
Abstract: Eukaryotic ribosome and cap-dependent translation are attractive targets in the antitumor,...
The ribosome recruitment phase of translation initiation is the rate-limiting step of protein synthe...
Translation termination occurs when one of three stop-codons (UAA, UGA, or UAG) in mRNA reaches the ...
Protein synthesis is a highly regulated process and it is vital to life. If the rate of translation ...
Proprotein convertase subtilisin/kexin type 9 (PCSK9) plays a key role in regulating the levels of p...
Identifying small molecules that inhibit protein synthesis by selectively stalling the ribosome cons...
Protein biosynthesis is a vital process for all kingdoms of life. The ribosome is the massive ribonu...
Protein biosynthesis is a vital process for all kingdoms of life. The ribosome is the massive ribonu...
The aim of this work was to understand the molecular mechanism of translation and the mechanism of t...
Protein biosynthesis is a vital process for all kingdoms of life. The ribosome is the massive ribonu...
Identifying small molecules that inhibit protein synthesis by selectively stalling the ribosome cons...
Recently, structural and biochemical studies have detailed many of the molecular events that occur i...
The translational apparatus of the bacterial cell remains one of the principal targets of antibiotic...