about
Structural insights into ribosome translocationStructural basis for the erythro-stereospecificity of the l-arginine oxygenase VioC in viomycin biosynthesisThe structures of the anti-tuberculosis antibiotics viomycin and capreomycin bound to the 70S ribosomeStructure of the ribosome with elongation factor G trapped in the pretranslocation stateMutation of tlyA confers capreomycin resistance in Mycobacterium tuberculosis.Roles of VioG and VioQ in the incorporation and modification of the Capreomycidine residue in the peptide antibiotic viomycinIdentification of the rrmA gene encoding the 23S rRNA m1G745 methyltransferase in Escherichia coli and characterization of an m1G745-deficient mutant.Correlated conformational events in EF-G and the ribosome regulate translocation.Following movement of domain IV of elongation factor G during ribosomal translocation.Molecular basis for the selectivity of antituberculosis compounds capreomycin and viomycin.Ribosomal translocation: one step closer to the molecular mechanism.Movement of elongation factor G between compact and extended conformations.Interaction strengths between the ribosome and tRNA at various steps of translocation.Fluctuations of transfer RNAs between classical and hybrid statesCapreomycin susceptibility is increased by TlyA-directed 2'-O-methylation on both ribosomal subunits.Molecular mechanism of viomycin inhibition of peptide elongation in bacteriaUnexpected N-acetylation of capreomycin by mycobacterial Eis enzymes.EF-G Activation by Phosphate AnalogsCodon-anticodon interaction at the ribosomal P (peptidyl-tRNA)site.Dinucleotide codon-anticodon interaction as a minimum requirement for ribosomal aa-tRNA binding: stabilisation by viomycin of aa-tRNA in the A site.The Forgotten Virulence Factor: The 'non-conventional' Hemolysin TlyA And Its Role in Helicobacter pylori Infection.Crystallization and preliminary crystallographic analysis of the first condensation domain of viomycin synthetase.Post-termination complex disassembly by ribosome recycling factor, a functional tRNA mimicActivity of di-beta-lysyl-capreomycin IIA and palmitoyl tuberactinamine N against drug-resistant mutants with altered ribosomesPeptide release promoted by methylated RF2 and ArfA in nonstop translation is achieved by an induced-fit mechanismThe translocation inhibitor tuberactinomycin binds to nucleic acids and blocks the in vitro assembly of 50S subunitsEnhancement of Neurospora VS ribozyme cleavage by tuberactinomycin antibiotics.Models of the elongation cycle: an evaluation.Development, antibiotic production, and ribosome assembly in Streptomyces venezuelae are impacted by RNase J and RNase III deletion.GTP hydrolysis by EF-G synchronizes tRNA movement on small and large ribosomal subunits.Reverse translocation of tRNA in the ribosome.tRNA binding to programmed ribosomes increases the ribosomal affinity for tuberactinomycin O.VioC is a non-heme iron, alpha-ketoglutarate-dependent oxygenase that catalyzes the formation of 3S-hydroxy-L-arginine during viomycin biosynthesis.Formation of the nonproteinogenic amino acid 2S,3R-capreomycidine by VioD from the viomycin biosynthesis pathway.Studies of viomycin, an anti-tuberculosis antibiotic: copper(ii) coordination, DNA degradation and the impact on delta ribozyme cleavage activity.Translocation at work.Choreography of molecular movements during ribosome progression along mRNA.The role of ribosomes in the sensitivity of mycobacteria to tuberactinomycin.The Mechanisms of Action of Ribosome-Targeting Peptide Antibiotics.
P2860
Q26749520-F69D4A25-CA4F-49E8-83A8-BDF6BE7AEC98Q27655715-87ED19B1-FD49-43AF-9044-7AEB21182E7EQ27659850-815C3CCB-AA22-482F-9B0B-FD95B77C2024Q27680854-7B838DC2-2844-417C-9E0C-F593D4E02D95Q31143833-C45D6451-1938-42F0-A4C9-2100A90325D2Q33674365-FC59F642-BDFD-4DBE-8199-1ADBBD53E085Q33722967-A584CB32-B98D-4AC2-941A-8BB49AD77721Q34380655-9F92D577-F5C8-4847-8249-5B64FE792BDFQ34409109-DCD5C831-1056-4725-BE63-2B7880FBB0D7Q34631045-C833FA1E-F6AD-4035-B9BB-F17077E305BFQ34931132-BAF41324-9BB4-4AB1-A362-15E8E78EF412Q34979440-63DE1AAD-E271-45A6-A8B9-620FE5D8845EQ35144694-242E1C27-0635-4E06-BC21-A3D48C272D52Q36129047-4F48E677-AD5D-4986-90DF-9ACCF4E178E4Q36223145-A772CB06-44C8-4550-93DA-CD556CC8644EQ36551606-DE735A89-C448-4A86-90F8-BED188CD2788Q36675157-D73A04CA-D209-4B31-A5FE-35B1C8DF9318Q36945595-E5DA589D-54E6-4D3F-A1BC-A7DE0EB19AFEQ37329688-F3B82EB4-60AF-46C6-92D2-405C1CE5668FQ38356587-39C01674-1773-491A-AA34-CFCF7CD3F5F0Q38968049-0BEB5F8D-0AC5-4C32-8CF8-B2BEAC205A58Q39507766-91C1A611-05C9-4DBE-8F2B-E76DC7C4F15FQ39647166-B578D334-0A6D-44BE-8C3F-EFE92D83F2D7Q39856215-785A519A-F75F-462F-8D34-EE0403982D7BQ40338352-B105632C-995E-4A89-9DF0-EB3A5E5F1529Q40482856-46A5B273-B523-4E42-A459-DA067493B349Q40788721-C0C643AB-D6D9-419C-8356-B0507025C213Q41633284-A85EC6C8-F6A8-4996-9471-7BADC9CE175AQ41722624-B425604D-A23B-4788-AF64-17C16DDFB0F8Q42035460-F0648177-342E-4796-8EBE-0A1E7B42F42DQ43155393-B2698D40-DB1D-4102-9868-B4BAE59147DDQ44446377-BEC884CA-8565-4605-90A2-C54A03CFDB65Q45059769-9F9744D2-089A-4F05-8A33-2F169D4A0630Q45059774-4BAEB8C1-DFE9-4FC3-A18F-87834677ED7DQ46553863-4EE79BAE-DCE0-4764-B1DE-D9FC940AD167Q52882581-84395120-D077-40BA-8468-D52BD82A39FFQ53143260-97295780-B145-461C-96EC-F9AC006A45DAQ54770236-C6FCE566-BCC0-409C-942D-C1C2FE0B0AF7Q55007999-977DC61A-84B5-4042-AC2C-26EC94EDC37A
P2860
description
1977 nî lūn-bûn
@nan
1977年の論文
@ja
1977年論文
@yue
1977年論文
@zh-hant
1977年論文
@zh-hk
1977年論文
@zh-mo
1977年論文
@zh-tw
1977年论文
@wuu
1977年论文
@zh
1977年论文
@zh-cn
name
The inhibition of ribosomal translocation by viomycin.
@en
type
label
The inhibition of ribosomal translocation by viomycin.
@en
prefLabel
The inhibition of ribosomal translocation by viomycin.
@en
P2860
P1433
P1476
The inhibition of ribosomal translocation by viomycin.
@en
P2093
P2860
P304
P356
10.1111/J.1432-1033.1977.TB11974.X
P407
P577
1977-12-01T00:00:00Z