| scholarly article | Q13442814 |
| P356 | DOI | 10.7554/ELIFE.09684 |
| P8608 | Fatcat ID | release_lau6thx2yvh4hcnjj2va7jvnmy |
| P932 | PMC publication ID | 4737659 |
| P698 | PubMed publication ID | 26670735 |
| P50 | author | Sui Senfang | Q9371527 |
| Xijiang Pan | Q125324270 | ||
| Ning Gao | Q41600695 | ||
| P2093 | author name string | Jun Zhang | |
| Shan Sun | |||
| Kaige Yan | |||
| P2860 | cites work | Structures of the bacterial ribosome in classical and hybrid states of tRNA binding | Q24635922 |
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| MolProbity: all-atom structure validation for macromolecular crystallography | Q24649111 | ||
| Ribosome regulation by the nascent peptide | Q24650962 | ||
| PHENIX: a comprehensive Python-based system for macromolecular structure solution | Q24654617 | ||
| A primer to single-particle cryo-electron microscopy | Q27322872 | ||
| Crystal structure of a translation termination complex formed with release factor RF2 | Q27653093 | ||
| Ribosome-induced changes in elongation factor Tu conformation control GTP hydrolysis | Q27653327 | ||
| The Structure of the Ribosome with Elongation Factor G Trapped in the Posttranslocational State | Q27657797 | ||
| Structural insight into nascent polypeptide chain-mediated translational stalling. | Q27658309 | ||
| Structural aspects of messenger RNA reading frame maintenance by the ribosome | Q27660608 | ||
| Structure of the 70S ribosome bound to release factor 2 and a substrate analog provides insights into catalysis of peptide release | Q27660905 | ||
| Structures of the Escherichia coli ribosome with antibiotics bound near the peptidyl transferase center explain spectra of drug action | Q27664697 | ||
| Structural basis for translational stalling by human cytomegalovirus and fungal arginine attenuator peptide | Q27664949 | ||
| The Mechanism for Activation of GTP Hydrolysis on the Ribosome | Q27665613 | ||
| Cryo-EM structure of the ribosome–SecYE complex in the membrane environment | Q27667539 | ||
| Structural basis for potent inhibitory activity of the antibiotic tigecycline during protein synthesis | Q27676529 | ||
| Electron counting and beam-induced motion correction enable near-atomic-resolution single-particle cryo-EM. | Q27677990 | ||
| Control of Ribosomal Subunit Rotation by Elongation Factor G | Q27678849 | ||
| Structure of the ribosome with elongation factor G trapped in the pretranslocation state | Q27680854 | ||
| Molecular basis for erythromycin-dependent ribosome stalling during translation of the ErmBL leader peptide | Q27682411 | ||
| Structure of the Yeast Mitochondrial Large Ribosomal Subunit | Q27682617 | ||
| Initiation of Translation by Cricket Paralysis Virus IRES Requires Its Translocation in the Ribosome | Q27683626 | ||
| Structure of the Mammalian Ribosome-Sec61 Complex to 3.4 Å Resolution | Q27684332 | ||
| Regulation of the Mammalian Elongation Cycle by Subunit Rolling: A Eukaryotic-Specific Ribosome Rearrangement | Q27684558 | ||
| Architecture of the large subunit of the mammalian mitochondrial ribosome | Q27688018 | ||
| The complete structure of the large subunit of the mammalian mitochondrial ribosome | Q27695673 | ||
| Molecular basis for the ribosome functioning as an L-tryptophan sensor | Q27695702 | ||
| Structure of the 70S ribosome complexed with mRNA and tRNA | Q27860602 | ||
| UCSF Chimera--a visualization system for exploratory research and analysis | Q27860666 | ||
| Accurate determination of local defocus and specimen tilt in electron microscopy | Q27861008 | ||
| Refinement of macromolecular structures by the maximum-likelihood method | Q27861011 | ||
| EMAN2: an extensible image processing suite for electron microscopy | Q27861052 | ||
| Features and development of Coot | Q27861079 | ||
| Structure of the large ribosomal subunit from human mitochondria. | Q28116177 | ||
| Following the signal sequence from ribosomal tunnel exit to signal recognition particle | Q28272496 | ||
| RELION: implementation of a Bayesian approach to cryo-EM structure determination | Q29547673 | ||
| The process of mRNA-tRNA translocation | Q30480890 | ||
| Secretion monitor, SecM, undergoes self-translation arrest in the cytosol | Q31923120 | ||
| SecA protein hydrolyzes ATP and is an essential component of the protein translocation ATPase of Escherichia coli | Q33562047 | ||
| Regulation of Escherichia coli secA by cellular protein secretion proficiency requires an intact gene X signal sequence and an active translocon | Q33737540 | ||
| SecM-stalled ribosomes adopt an altered geometry at the peptidyl transferase center | Q33803719 | ||
| Upstream open reading frames as regulators of mRNA translation | Q33966388 | ||
| Ribosome. Mechanical force releases nascent chain-mediated ribosome arrest in vitro and in vivo | Q42151283 | ||
| A "push and slide" mechanism allows sequence-insensitive translocation of secretory proteins by the SecA ATPase | Q42209016 | ||
| Effects on translation pausing of alterations in protein and RNA components of the ribosome exit tunnel | Q42406802 | ||
| How the ribosome hands the A-site tRNA to the P site during EF-G-catalyzed translocation | Q42745601 | ||
| Structural insights into the roles of water and the 2' hydroxyl of the P site tRNA in the peptidyl transferase reaction | Q46802328 | ||
| SecA promotes preprotein translocation by undergoing ATP-driven cycles of membrane insertion and deinsertion. | Q52513940 | ||
| The antibiotic kasugamycin mimics mRNA nucleotides to destabilize tRNA binding and inhibit canonical translation initiation. | Q52930336 | ||
| Translation arrest requires two-way communication between a nascent polypeptide and the ribosome. | Q54463767 | ||
| Genetically encoded but nonpolypeptide prolyl-tRNA functions in the A site for SecM-mediated ribosomal stall. | Q54465004 | ||
| Homogeneous stalled ribosome nascent chain complexes produced in vivo or in vitro. | Q54478521 | ||
| Combining Electron Microscopic with X-Ray Crystallographic Structures | Q63866208 | ||
| Regulation of the Escherichia coli secA gene is mediated by two distinct RNA structural conformations | Q77742977 | ||
| The ribosomal exit tunnel functions as a discriminating gate | Q34118341 | ||
| A proton wire to couple aminoacyl-tRNA accommodation and peptide-bond formation on the ribosome | Q34145335 | ||
| The key function of a conserved and modified rRNA residue in the ribosomal response to the nascent peptide | Q34148533 | ||
| The mechanism of eukaryotic translation initiation: new insights and challenges | Q34289214 | ||
| Critical regions of secM that control its translation and secretion and promote secretion-specific secA regulation | Q34309801 | ||
| Structural characterization of the complex of SecB and metallothionein-labeled proOmpA by cryo-electron microscopy. | Q34442682 | ||
| An induced-fit mechanism to promote peptide bond formation and exclude hydrolysis of peptidyl-tRNA. | Q34470091 | ||
| The bacterial translation stress response. | Q34490409 | ||
| Elongation arrest by SecM via a cascade of ribosomal RNA rearrangements | Q34528562 | ||
| Classification of Structural Heterogeneity by Maximum-Likelihood Methods | Q34831758 | ||
| Single-Particle Cryo-EM at Crystallographic Resolution | Q35537724 | ||
| Structure of the Bacillus subtilis 70S ribosome reveals the basis for species-specific stalling | Q35579451 | ||
| Mechanisms of SecM-mediated stalling in the ribosome | Q36105305 | ||
| Fluctuations of transfer RNAs between classical and hybrid states | Q36129047 | ||
| Identification of two distinct hybrid state intermediates on the ribosome | Q36462728 | ||
| Translocon “Pulling” of Nascent SecM Controls the Duration of Its Translational Pause and Secretion-Responsive secA Regulation | Q37051988 | ||
| The plasticity of a translation arrest motif yields insights into nascent polypeptide recognition inside the ribosome tunnel | Q37245890 | ||
| Programmed drug-dependent ribosome stalling | Q37378026 | ||
| Translational Regulation of Gene Expression during Conditions of Cell Stress | Q37802038 | ||
| Nascent polypeptide sequences that influence ribosome function | Q37845977 | ||
| Arrest peptides: cis-acting modulators of translation. | Q38112828 | ||
| Ribosome-targeting antibiotics and mechanisms of bacterial resistance. | Q38171225 | ||
| Tetracycline antibiotics and resistance mechanisms. | Q38185338 | ||
| The regulatory potential of upstream open reading frames in eukaryotic gene expression | Q38226318 | ||
| How cryo-EM is revolutionizing structural biology | Q38301962 | ||
| The catalytic cycle of the escherichia coli SecA ATPase comprises two distinct preprotein translocation events | Q38339927 | ||
| Dual regulation of Escherichia coli secA translation by distinct upstream elements | Q38349239 | ||
| Multiple ways to regulate translation initiation in bacteria: Mechanisms, regulatory circuits, dynamics. | Q38384774 | ||
| Mechanisms of ribosome rescue in bacteria | Q38421473 | ||
| Sequence-dependent elongation dynamics on macrolide-bound ribosomes | Q39325572 | ||
| Single-molecule imaging of full protein synthesis by immobilized ribosomes | Q40640370 | ||
| The dynamics of SecM-induced translational stalling | Q40774135 | ||
| Drug sensing by the ribosome induces translational arrest via active site perturbation | Q41607219 | ||
| Ribosome dynamics and tRNA movement by time-resolved electron cryomicroscopy | Q41618424 | ||
| High-resolution noise substitution to measure overfitting and validate resolution in 3D structure determination by single particle electron cryomicroscopy | Q42103385 | ||
| P407 | language of work or name | English | Q1860 |
| P577 | publication date | 2015-12-14 | |
| P1433 | published in | eLife | Q2000008 |
| P1476 | title | Mechanisms of ribosome stalling by SecM at multiple elongation steps | |
| P478 | volume | 4 |
| Q47326437 | Aminoglycoside interactions and impacts on the eukaryotic ribosome. |
| Q92631762 | Cotranslational Folding of Proteins on the Ribosome |
| Q64897374 | EF-G-induced ribosome sliding along the noncoding mRNA. |
| Q57050110 | Effects of protein size, thermodynamic stability, and net charge on cotranslational folding on the ribosome |
| Q89168645 | How Messenger RNA and Nascent Chain Sequences Regulate Translation Elongation |
| Q26750776 | How Widespread is Metabolite Sensing by Ribosome-Arresting Nascent Peptides? |
| Q47215849 | Identification and characterization of a translation arrest motif in VemP by systematic mutational analysis. |
| Q61446196 | Increased freedom of movement in the nascent chain results in dynamic changes in the structure of the SecM arrest motif |
| Q45160993 | Molecular insights into protein synthesis with proline residues. |
| Q92492317 | Nascent SecM chain interacts with outer ribosomal surface to stabilize translation arrest |
| Q92240573 | Reverse genetics-based biochemical studies of the ribosomal exit tunnel constriction region in eukaryotic ribosome stalling: spatial allocation of the regulatory nascent peptide at the constriction |
| Q90573494 | Ribosome collisions alter frameshifting at translational reprogramming motifs in bacterial mRNAs |
| Q33773452 | Ribosome rearrangements at the onset of translational bypassing |
| Q46316930 | SecA mediates cotranslational targeting and translocation of an inner membrane protein |
| Q100428013 | Selective inhibition of human translation termination by a drug-like compound |
| Q64983280 | Structural and mutational analysis of the ribosome-arresting human XBP1u. |
| Q92503277 | Structural basis for selective stalling of human ribosome nascent chain complexes by a drug-like molecule |
| Q50900973 | The Ribosomal Protein uL22 Modulates the Shape of the Protein Exit Tunnel |
| Q41597754 | The force-sensing peptide VemP employs extreme compaction and secondary structure formation to induce ribosomal stalling |
| Q59874809 | The shape of the bacterial ribosome exit tunnel affects cotranslational protein folding. |
| Q42956873 | Translocation as continuous movement through the ribosome |
| Q91699011 | mRNA regions where 80S ribosomes pause during translation elongation in vivo interact with protein uS19, a component of the decoding site |
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