Complementary roles of initiation factor 1 and ribosome recycling factor in 70S ribosome splitting.
about
Slow peptide bond formation by proline and other N-alkylamino acids in translationMechanism of Elongation Factor-G-mediated Fusidic Acid Resistance and Fitness Compensation in Staphylococcus aureusStructural basis of highly conserved ribosome recycling in eukaryotes and archaeaHow Hibernation Factors RMF, HPF, and YfiA Turn Off Protein SynthesisStructure and function of FusB: an elongation factor G-binding fusidic acid resistance protein active in ribosomal translocation and recyclingHflX is a ribosome-splitting factor rescuing stalled ribosomes under stress conditionsEvolutionary and genetic analyses of mitochondrial translation initiation factors identify the missing mitochondrial IF3 in S. cerevisiae.Targeting and function of proteins mediating translation initiation in organelles of Plasmodium falciparumRecycling factors for ribosome disassembly in the apicoplast and mitochondrion of Plasmodium falciparumChemical and structural characterization of a model Post-Termination Complex (PoTC) for the ribosome recycling reaction: Evidence for the release of the mRNA by RRF and EF-G.Activation of initiation factor 2 by ligands and mutations for rapid docking of ribosomal subunitsProbing translation with small-molecule inhibitorsKey Intermediates in Ribosome Recycling Visualized by Time-Resolved Cryoelectron Microscopy.Improved cell-free RNA and protein synthesis system.Complete kinetic mechanism for recycling of the bacterial ribosome.Translation factors direct intrinsic ribosome dynamics during translation termination and ribosome recycling.The role of GTP in transient splitting of 70S ribosomes by RRF (ribosome recycling factor) and EF-G (elongation factor G).Specificity of the ribosomal A site for aminoacyl-tRNAs.Beyond ribosome rescue: tmRNA and co-translational processesAntibiotics as probes of biological complexity.A tRNA body with high affinity for EF-Tu hastens ribosomal incorporation of unnatural amino acidsError-prone initiation factor 2 mutations reduce the fitness cost of antibiotic resistance.Control of translation initiation involves a factor-induced rearrangement of helix 44 of 16S ribosomal RNAA disease-causing point mutation in human mitochondrial tRNAMet results in tRNA misfolding leading to defects in translational initiation and elongation.Role of helix 44 of 16S rRNA in the fidelity of translation initiation.A general mechanism of ribosome dimerization revealed by single-particle cryo-electron microscopyThe kinetic mechanism of bacterial ribosome recycling.De novo design and synthesis of a 30-cistron translation-factor module.
P2860
Q24646781-246904A0-C670-40C6-A7A4-2901AC18304BQ27670650-1BF23121-7D2B-46B0-B8DE-B6B818B9D01EQ27677430-533A6C02-C6F3-4164-8DA7-5B70D18E38B4Q27679167-F9B10587-17AA-4EFF-B21E-AA33D05AF689Q27679364-984F22DF-3C1C-4658-95B0-85EE29490968Q27702284-21A176DF-50AD-4BD8-BC9B-F1457BDD6F39Q27931220-B316FD4C-5B30-48F7-960E-D0E4C92122A7Q27972663-200C5101-7C6A-449C-8AAF-3BD5FBE92516Q30043076-EF4719B1-D480-4870-9A8B-EE8CECB25E10Q33724909-5A1974E4-FDB6-40EF-8CC7-A0137EDCCFAFQ33768709-5AA89275-177E-40DD-A195-D3A64BFF2B48Q34038634-F57F5448-442B-475C-93A1-7F3D716423ACQ34544174-81AC07ED-FB00-4124-AB3E-9F437FE5C98BQ35236697-1F215F7A-3664-42EA-8884-18CEF5D98024Q35830120-A3ED146D-E8D3-4BDA-9E5D-C48924CED8E2Q36565521-73EDB24B-7941-4074-BE04-D34410C589ADQ36986743-42FBF25C-6167-47AA-BE55-7DA904857CE4Q37118748-6868601D-7F07-499D-8895-E4A6F0CBFD72Q37479931-0DD30F7C-0107-48D5-A954-BFEF1B02BA06Q37891661-028DD144-5C85-4D0A-9DC9-1D7EC94B9B02Q38782146-1423B99E-B4B2-466D-9C12-035AE1978CC4Q40178295-74A0F001-A2AD-4ADA-BD1D-167E040D51E0Q40501171-1904AA42-888C-4D39-8DF3-A370045E5709Q41502419-3F9E15C9-1E95-43AA-95EC-259EFA61A80FQ41510482-3126AE92-FC22-4CA8-8A87-8309729299F9Q41596245-100F5CEB-622C-48DC-B2EB-BD8FA4CF6E5AQ47100996-3F8C1FEF-854A-484E-9EA9-6CE23BC4E0A0Q47280690-C3BE7737-2A8D-42E1-BADC-0C1FCFD544FA
P2860
Complementary roles of initiation factor 1 and ribosome recycling factor in 70S ribosome splitting.
description
2008 nî lūn-bûn
@nan
2008 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@ast
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@en
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@nl
type
label
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@ast
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@en
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@nl
prefLabel
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@ast
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@en
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@nl
P2860
P356
P1433
P1476
Complementary roles of initiat ...... tor in 70S ribosome splitting.
@en
P2093
Martin Lovmar
Michael Y Pavlov
P2860
P304
P356
10.1038/EMBOJ.2008.99
P407
P577
2008-05-22T00:00:00Z