| review article | Q7318358 |
| scholarly article | Q13442814 |
| P2093 | author name string | Haripriya Ramu | |
| Nora Vazquez-Laslop | |||
| Alexander Mankin | |||
| P2860 | cites work | The evolutionarily conserved eukaryotic arginine attenuator peptide regulates the movement of ribosomes that have translated it. | Q33781826 |
| Erythromycin resistance by ribosome modification | Q39779280 | ||
| Insights into erythromycin action from studies of its activity as inducer of resistance | Q39779461 | ||
| Macrolide resistance in Staphylococcus aureus: inducers of macrolide resistance | Q40617166 | ||
| Induction of Erythromycin Resistance in Staphylococcus aureus by Erythromycin Derivatives | Q40945749 | ||
| Erythromycin, carbomycin, and spiramycin inhibit protein synthesis by stimulating the dissociation of peptidyl-tRNA from ribosomes | Q24681691 | ||
| Reproducing tna operon regulation in vitro in an S-30 system. Tryptophan induction inhibits cleavage of TnaC peptidyl-tRNA. | Q31494190 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | rescue of stalled ribosome | Q21108399 |
| P304 | page(s) | 811-824 | |
| P577 | publication date | 2008-11-30 | |
| P1433 | published in | Molecular Microbiology | Q6895967 |
| P1476 | title | Programmed drug-dependent ribosome stalling | |
| P478 | volume | 71 |
| Q38666134 | A Bright Future for Antibiotics? |
| Q41831230 | A combined cryo-EM and molecular dynamics approach reveals the mechanism of ErmBL-mediated translation arrest |
| Q40451655 | A comparative genomics study on the effect of individual amino acids on ribosome stalling. |
| Q30986921 | A method for selecting cis-acting regulatory sequences that respond to small molecule effectors |
| Q37549187 | A structural view on the mechanism of the ribosome-catalyzed peptide bond formation |
| Q24633108 | Abundance of type I toxin-antitoxin systems in bacteria: searches for new candidates and discovery of novel families |
| Q27027012 | Acquired inducible antimicrobial resistance in Gram-positive bacteria |
| Q35345094 | Allosteric vs. spontaneous exit-site (E-site) tRNA dissociation early in protein synthesis |
| Q90029476 | Alternative ORFs and small ORFs: shedding light on the dark proteome |
| Q28732449 | An exit cavity was crucial to the polymerase activity of the early ribosome |
| Q54368450 | Antibiotic-induced ribosomal assembly defects result from changes in the synthesis of ribosomal proteins. |
| Q36600266 | Arginine changes the conformation of the arginine attenuator peptide relative to the ribosome tunnel |
| Q37428512 | Binding of Macrolide Antibiotics Leads to Ribosomal Selection against Specific Substrates Based on Their Charge and Size |
| Q41904486 | Computational prediction of regulatory, premature transcription termination in bacteria |
| Q33878421 | Critical 23S rRNA interactions for macrolide-dependent ribosome stalling on the ErmCL nascent peptide chain. |
| Q50924008 | Deregulation of translation due to post-transcriptional modification of rRNA explains why erm genes are inducible |
| Q37684316 | Divergent stalling sequences sense and control cellular physiology. |
| Q41607219 | Drug sensing by the ribosome induces translational arrest via active site perturbation |
| Q39195574 | Environmental and genetic modulation of the phenotypic expression of antibiotic resistance |
| Q54204524 | Erythromycin leads to differential protein expression through differences in electrostatic and dispersion interactions with nascent proteins. |
| Q60957480 | HflXr, a homolog of a ribosome-splitting factor, mediates antibiotic resistance |
| Q90578584 | How Macrolide Antibiotics Work |
| Q26750776 | How Widespread is Metabolite Sensing by Ribosome-Arresting Nascent Peptides? |
| Q41629971 | Identification of Arabidopsis thaliana upstream open reading frames encoding peptide sequences that cause ribosomal arrest |
| Q41903505 | Identification of novel Arabidopsis thaliana upstream open reading frames that control expression of the main coding sequences in a peptide sequence-dependent manner. |
| Q37518622 | Interactions of the TnaC nascent peptide with rRNA in the exit tunnel enable the ribosome to respond to free tryptophan |
| Q30584257 | Macrolide antibiotics allosterically predispose the ribosome for translation arrest |
| Q38804355 | Macrolide resistance mechanisms in Enterobacteriaceae: Focus on azithromycin |
| Q46475319 | Measuring cotranslational folding of nascent polypeptide chains on ribosomes |
| Q36105305 | Mechanisms of SecM-mediated stalling in the ribosome |
| Q35118815 | Mechanisms of integral membrane protein insertion and folding |
| Q36534007 | Mechanisms of ribosome stalling by SecM at multiple elongation steps |
| Q27682411 | Molecular basis for erythromycin-dependent ribosome stalling during translation of the ErmBL leader peptide |
| Q36155063 | Nascent chain-monitored remodeling of the Sec machinery for salinity adaptation of marine bacteria. |
| Q47104797 | Nascent peptide assists the ribosome in recognizing chemically distinct small molecules |
| Q36673038 | Nascent peptides that block protein synthesis in bacteria |
| Q48237888 | New Macrolide-Lincosamide-Streptogramin B Resistance Gene erm(48) on the Novel Plasmid pJW2311 in Staphylococcus xylosus |
| Q34038634 | Probing translation with small-molecule inhibitors |
| Q35630043 | Recognition of the regulatory nascent chain TnaC by the ribosome |
| Q34794882 | Recruitment of a species-specific translational arrest module to monitor different cellular processes |
| Q37163477 | Regional discrimination and propagation of local rearrangements along the ribosomal exit tunnel |
| Q38649943 | Regulation of bacterial gene expression by ribosome stalling and rescuing |
| Q37418561 | Regulation of gene expression by macrolide-induced ribosomal frameshifting |
| Q48179461 | Regulatory genes coordinating antibiotic-induced changes in promoter activity and early transcriptional termination of the mycobacterial intrinsic resistance gene whiB7. |
| Q34026241 | Relaxed selection drives a noisy noncoding transcriptome in members of the Mycobacterium tuberculosis complex |
| Q38928353 | Resistance to Macrolide Antibiotics in Public Health Pathogens |
| Q36207357 | Resistance to ketolide antibiotics by coordinated expression of rRNA methyltransferases in a bacterial producer of natural ketolides |
| Q59136646 | Ribosomal stalling landscapes revealed by high-throughput inverse toeprinting of mRNA libraries |
| Q53689783 | Ribosome protection by antibiotic resistance ATP-binding cassette protein. |
| Q38171225 | Ribosome-targeting antibiotics and mechanisms of bacterial resistance. |
| Q39321244 | Roles of Regulatory RNAs for Antibiotic Resistance in Bacteria and Their Potential Value as Novel Drug Targets |
| Q34412752 | Sequence requirements for ribosome stalling by the arginine attenuator peptide |
| Q34442039 | Sequence selectivity of macrolide-induced translational attenuation |
| Q34200467 | Small proteins can no longer be ignored |
| Q48158161 | SuhB is a novel ribosome associated protein that regulates expression of MexXY by modulating ribosome stalling in Pseudomonas aeruginosa |
| Q33787717 | The Berkeleylactones, Antibiotic Macrolides from Fungal Coculture |
| Q37428633 | The Expression of Antibiotic Resistance Methyltransferase Correlates with mRNA Stability Independently of Ribosome Stalling |
| Q34031513 | The arginine attenuator peptide interferes with the ribosome peptidyl transferase center |
| Q37375780 | The double life of antibiotics. |
| Q34526342 | The general mode of translation inhibition by macrolide antibiotics |
| Q36667049 | The genetic environment of the cfr gene and the presence of other mechanisms account for the very high linezolid resistance of Staphylococcus epidermidis isolate 426-3147L |
| Q34148533 | The key function of a conserved and modified rRNA residue in the ribosomal response to the nascent peptide |
| Q39406507 | The macrolide antibiotic renaissance |
| Q89982266 | The novel macrolide resistance genes mef(D), msr(F) and msr(H) are present on resistance islands in Macrococcus canis, Macrococcus caseolyticus and Staphylococcus aureus |
| Q42050225 | The role of the universally conserved A2450-C2063 base pair in the ribosomal peptidyl transferase center. |
| Q41163904 | The slow dissociation rate of K-1602 contributes to the enhanced inhibitory activity of this novel alkyl-aryl-bearing fluoroketolide |
| Q26860816 | The tmRNA ribosome-rescue system |
| Q87303166 | Translation: Ribosomes make sweeping arrests |
| Q41851942 | Translational stalling at polyproline stretches is modulated by the sequence context upstream of the stall site |
| Q47314016 | Unraveling co-translational protein folding: Concepts and methods |
| Q89443176 | d-Amino Acid-Mediated Translation Arrest Is Modulated by the Identity of the Incoming Aminoacyl-tRNA |
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