Add to ORKGMacrolides are clinically important antibiotics thought to inhibit bacterial growth by impeding the passage of newly synthesized polypeptides through the nascent peptide exit tunnel of the bacterial ribosome. Recent data challenged this view by showing that macrolide antibiotics can differentially affect synthesis of individual proteins. To understand the general mechanism of macrolide action, we used genome-wide ribosome profiling and analyzed the redistribution of ribosomes translating highly expressed genes in bacterial cells treated with high concentrations of macrolide antibiotics. The metagene analysis indicated that inhibition of early rounds of translation, which would be characteristic of the conventional view of macrolide action, ...
The translational apparatus is one of the major targets for antibiotics in the bacterial cell. Antib...
Nine structurally similar macrolide antibiotics were tested at a concentration of 0.5 μg/ml for thei...
The translational functions of the bacterial ribosome are the target for a large number of antimicro...
Macrolides are clinically important antibiotics thought to inhibit bacterial growth by impeding the ...
Macrolide antibiotics bind in the nascent peptide exit tunnel of the bacterial ribosome and prevent ...
SummaryAccumulating evidence suggests that, during translation, nascent chains can form specific int...
Macrolides and ketolides antibiotics selectively interfere with the translation of a specific subset...
Macrolide antibiotics are thought to clog up the ribosomal tunnel and thereby block general protein ...
Bacterial antibiotic resistance can occur by many mechanisms. An intriguing class of mutants is resi...
Macrolides are a large group of clinically relevant antibiotics that inhibit protein synthesis by bi...
SummaryThe polypeptide exit tunnel is an important functional compartment of the ribosome where the ...
SummaryThe traditional view of macrolide antibiotics as plugs inside the ribosomal nascent peptide e...
Protein synthesis is catalysed by ribosomes and cytoplasmic factors. Bacterial ribosomes (70S) are m...
Macrolide antibiotic binding to the ribosome inhibits catalysis of peptide bond formation between sp...
Macrolide antibiotics are clinically important antibiotics which are effective inhibitors of protein...
The translational apparatus is one of the major targets for antibiotics in the bacterial cell. Antib...
Nine structurally similar macrolide antibiotics were tested at a concentration of 0.5 μg/ml for thei...
The translational functions of the bacterial ribosome are the target for a large number of antimicro...
Macrolides are clinically important antibiotics thought to inhibit bacterial growth by impeding the ...
Macrolide antibiotics bind in the nascent peptide exit tunnel of the bacterial ribosome and prevent ...
SummaryAccumulating evidence suggests that, during translation, nascent chains can form specific int...
Macrolides and ketolides antibiotics selectively interfere with the translation of a specific subset...
Macrolide antibiotics are thought to clog up the ribosomal tunnel and thereby block general protein ...
Bacterial antibiotic resistance can occur by many mechanisms. An intriguing class of mutants is resi...
Macrolides are a large group of clinically relevant antibiotics that inhibit protein synthesis by bi...
SummaryThe polypeptide exit tunnel is an important functional compartment of the ribosome where the ...
SummaryThe traditional view of macrolide antibiotics as plugs inside the ribosomal nascent peptide e...
Protein synthesis is catalysed by ribosomes and cytoplasmic factors. Bacterial ribosomes (70S) are m...
Macrolide antibiotic binding to the ribosome inhibits catalysis of peptide bond formation between sp...
Macrolide antibiotics are clinically important antibiotics which are effective inhibitors of protein...
The translational apparatus is one of the major targets for antibiotics in the bacterial cell. Antib...
Nine structurally similar macrolide antibiotics were tested at a concentration of 0.5 μg/ml for thei...
The translational functions of the bacterial ribosome are the target for a large number of antimicro...