about
Using an RNA secondary structure partition function to determine confidence in base pairs predicted by free energy minimizationIncorporating chemical modification constraints into a dynamic programming algorithm for prediction of RNA secondary structureActivity of 3'-thioAMP derivatives as ribosomal P-site substrates.Alterations at the peptidyl transferase centre of the ribosome induced by the synergistic action of the streptogramins dalfopristin and quinupristinChemical engineering of the peptidyl transferase center reveals an important role of the 2'-hydroxyl group of A2451POPSCOMP: an automated interaction analysis of biomolecular complexes.Structural and evolutionary classification of G/U wobble basepairs in the ribosomeEnzyme catalysis by entropy without Circe effectStructures of deacylated tRNA mimics bound to the E site of the large ribosomal subunit.Mutations Outside the Anisomycin-Binding Site Can Make Ribosomes Drug-ResistantPeptidyl-CCA deacylation on the ribosome promoted by induced fit and the O3'-hydroxyl group of A76 of the unacylated A-site tRNATargeting Antibiotic ResistanceRecent developments of engineered translational machineries for the incorporation of non-canonical amino acids into polypeptidesMapping functionally important motifs SPF and GGQ of the decoding release factor RF2 to the Escherichia coli ribosome by hydroxyl radical footprinting. Implications for macromolecular mimicry and structural changes in RF2A comparison of the crystal structures of eukaryotic and bacterial SSU ribosomal RNAs reveals common structural features in the hypervariable regionsSimulating movement of tRNA into the ribosome during decoding.Simulating the pulling of stalled elongated peptide from the ribosome by the translocon.Tracking fluctuation hotspots on the yeast ribosome through the elongation cycleThe ribosome as an entropy trapHoechst 33258 selectively inhibits group I intron self-splicing by affecting RNA folding.Detection of non-coding RNAs on the basis of predicted secondary structure formation free energy change.SecM-stalled ribosomes adopt an altered geometry at the peptidyl transferase center.Mechanism of peptide bond synthesis on the ribosome.23S rRNA base pair 2057-2611 determines ketolide susceptibility and fitness cost of the macrolide resistance mutation 2058A-->G.The key function of a conserved and modified rRNA residue in the ribosomal response to the nascent peptide.5 S rRNA: structure and interactions.Novel base triples in RNA structures revealed by graph theoretical searching methods.Cross-linking in the living cell locates the site of action of oxazolidinone antibiotics.The fragmented mitochondrial ribosomal RNAs of Plasmodium falciparum.New tertiary constraints between the RNA components of active yeast spliceosomes: a photo-crosslinking study.Binding of misacylated tRNAs to the ribosomal A site.The catalytic diversity of RNAs.An induced-fit mechanism to promote peptide bond formation and exclude hydrolysis of peptidyl-tRNA.pH-sensitivity of the ribosomal peptidyl transfer reaction dependent on the identity of the A-site aminoacyl-tRNA.Participation of the tRNA A76 hydroxyl groups throughout translation.After the ribosome structures: how does peptidyl transferase work?Interaction strengths between the ribosome and tRNA at various steps of translocation.The hybrid state of tRNA binding is an authentic translation elongation intermediateRNA as a drug target: the case of aminoglycosides.The roles of RNA in the synthesis of protein.
P2860
Q24540294-A98030E9-D1A5-4D72-AC6B-DE6DFEC12FBCQ24562398-BB3E9E1B-1734-45ED-BEA7-28809FFCD4A7Q24794771-689E7F07-3ADD-42FB-803E-BCFAEFF1E3A7Q24796140-F7A40E03-7448-4D78-9C13-8518373598D2Q24803240-DC3C27E4-1C2F-4891-A1C3-9EBD23BF383CQ24812172-D5E1E7A4-E6CD-4323-A793-C387FC73F9AEQ25255904-52A3FAC6-7326-47E0-A235-A69A1E591F38Q26779468-50B1E44F-16D6-40D4-8B95-5D2592923CA7Q27642366-610F4645-AA56-4802-B9FE-846D5A40ED3DQ27650525-D2489C0F-A4AE-40AD-BCFF-3E7F9A791573Q27652297-8CFA4648-D8DB-425A-A61A-E2471CD3D322Q28078130-9B153F4B-B594-4608-B0EE-E95A521270CAQ28080804-E69A421E-EF90-497B-B420-C7EFDA6E621EQ28216346-4F36007E-21F3-4D26-85E4-AAA1629959F8Q28484025-21D1A9AB-6302-4B93-AE1B-E9B78ABE9AB4Q30476304-6823C58B-994A-4DC2-8F7D-5EA2B1C87B74Q30540869-8F15E54A-3773-4647-8438-5887F02A9DCBQ30847758-0DCE187D-37A3-43F2-98DC-C96492550F12Q30930830-A7A5EDA6-08E3-486C-AD6C-E40D3F0F59B1Q33208798-832CDC69-0CEB-4907-B076-87480BBB4FA8Q33237759-167AD36F-B06D-426B-81A8-A960C2A4A44DQ33803719-3CBF05ED-18CD-4C08-A117-C88121B31D7EQ33933897-FFC256EE-F8DD-4484-940B-A921ECD9E554Q33935053-5568F1D3-6759-4874-B6E1-71175601AC4DQ34148533-ADCE4646-630E-479C-ABD6-491DA7F77359Q34174687-8DE22E96-FAB1-4798-A7E9-46D103F7921CQ34175170-CBE177CD-8EC5-48A4-AD32-B678AEF6A4E1Q34189984-997906FE-19B2-418D-B124-74B850FF483EQ34325703-CF4783A3-3E4B-45E0-BACB-1A78A8992D07Q34365932-07FB9369-2C41-4AB9-94F3-1997340FB99AQ34366629-36CA83B0-E9F4-488A-86BC-54CCA1E4428AQ34426633-46ECADD9-9DD0-40E1-9B15-2882803567CDQ34470091-3AC0F1A4-E7F6-4B0F-9269-449F94707F9CQ34471932-8A482ACB-BCAD-411F-9892-075292B19BDDQ34522745-4D2D1184-0FC7-4ADB-AAA8-3CCC13BEFD01Q35055506-6C9D4E5B-96DC-4DCF-838C-A8A914946A49Q35144694-A92F6623-69A8-433C-A8FE-71039A5330C6Q35205553-DA0B9778-693E-4BB2-8ECB-DC862A12D144Q35549370-948E9F60-6D1A-4E5A-842B-37257BA64F39Q35562201-7C2AD6D2-FB93-4D27-ABAE-F235039A6B98
P2860
description
2002 nî lūn-bûn
@nan
2002 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
name
Structural insights into peptide bond formation
@nl
Structural insights into peptide bond formation.
@ast
Structural insights into peptide bond formation.
@en
type
label
Structural insights into peptide bond formation
@nl
Structural insights into peptide bond formation.
@ast
Structural insights into peptide bond formation.
@en
prefLabel
Structural insights into peptide bond formation
@nl
Structural insights into peptide bond formation.
@ast
Structural insights into peptide bond formation.
@en
P2093
P2860
P3181
P356
P1476
Structural insights into peptide bond formation.
@en
P2093
Jeffrey L Hansen
Peter B Moore
T Martin Schmeing
Thomas A Steitz
P2860
P304
11670-11675
P3181
P356
10.1073/PNAS.172404099
P407
P577
2002-08-16T00:00:00Z