An intact ribose moiety at A2602 of 23S rRNA is key to trigger peptidyl-tRNA hydrolysis during translation termination. - Wikidata - thesis-toulmin - TriplyDB

An intact ribose moiety at A2602 of 23S rRNA is key to trigger peptidyl-tRNA hydrolysis during translation termination.

An intact ribose moiety at A2602 of 23S rRNA is key to trigger peptidyl-tRNA hydrolysis during translation termination.

http://www.wikidata.org/entity/Q41846673

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Insights into Translational Termination from the Structure of RF2 Bound to the Ribosome Crystal structure of a translation termination complex formed with release factor RF2 Ribosomal protein L3 functions as a 'rocker switch' to aid in coordinating of large subunit-associated functions in eukaryotes and Archaea.tRNA mimicry in translation termination and beyond.Critical 23S rRNA interactions for macrolide-dependent ribosome stalling on the ErmCL nascent peptide chain.Impact of P-Site tRNA and antibiotics on ribosome mediated protein folding: studies using the Escherichia coli ribosome Combined Approaches to Site-Specific Modification of RNA A structural view on the mechanism of the ribosome-catalyzed peptide bond formation.Functionalized polystyrene supports for solid-phase synthesis of glycyl-, alanyl-, and isoleucyl-RNA conjugates as hydrolysis-resistant mimics of peptidyl-tRNAs.Proximal disruptor aided ligation (ProDAL) of kilobase-long RNAs.Synthesis of aminoacylated N(6),N(6)-dimethyladenosine solid support for efficient access to hydrolysis-resistant 3'-charged tRNA mimics Atomic mutagenesis at the ribosomal decoding site.Peptide release on the ribosome depends critically on the 2' OH of the peptidyl-tRNA substrate.A Role for the 2' OH of peptidyl-tRNA substrate in peptide release on the ribosome revealed through RF-mediated rescue.Nucleotide modifications within bacterial messenger RNAs regulate their translation and are able to rewire the genetic code.The role of the universally conserved A2450-C2063 base pair in the ribosomal peptidyl transferase center.Oxidative stress damages rRNA inside the ribosome and differentially affects the catalytic center.Atomic mutagenesis of stop codon nucleotides reveals the chemical prerequisites for release factor-mediated peptide release.The ribosome meets synthetic biology.Generation of chemically engineered ribosomes for atomic mutagenesis studies on protein biosynthesis.Native Chemical Ligation of Hydrolysis-Resistant 3'-NH-Cysteine-Modified RNA.Different substrate-dependent transition states in the active site of the ribosome.

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P2860

An intact ribose moiety at A2602 of 23S rRNA is key to trigger peptidyl-tRNA hydrolysis during translation termination.

http://www.wikidata.org/entity/Q41846673

description

2007 nî lūn-bûn

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2007年の論文

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2007年論文

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2007年論文

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2007年論文

@zh-hk

2007年論文

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2007年論文

@zh-tw

2007年论文

@wuu

2007年论文

@zh

2007年论文

@zh-cn

name

An intact ribose moiety at A26 ...... uring translation termination.

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type

label

An intact ribose moiety at A26 ...... uring translation termination.

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prefLabel

An intact ribose moiety at A26 ...... uring translation termination.

@en

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Nucleic Acids Research

P1476

An intact ribose moiety at A26 ...... during translation termination

@en

P2093

Brigitte Wotzel

http://www.w3.org/2001/XMLSchema#string

Matthias D Erlacher

http://www.w3.org/2001/XMLSchema#string

Melanie Amort

http://www.w3.org/2001/XMLSchema#string

Ronald Micura

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P2860

Alterations at the peptidyl transferase centre of the ribosome induced by the synergistic action of the streptogramins dalfopristin and quinupristin

Chemical engineering of the peptidyl transferase center reveals an important role of the 2'-hydroxyl group of A2451

The crystal structure of human eukaryotic release factor eRF1--mechanism of stop codon recognition and peptidyl-tRNA hydrolysis

The structural basis of ribosome activity in peptide bond synthesis

Bacterial polypeptide release factor RF2 is structurally distinct from eukaryotic eRF1

A pre-translocational intermediate in protein synthesis observed in crystals of enzymatically active 50S subunits

A cryo-electron microscopic study of ribosome-bound termination factor RF2

Structural basis of the ribosomal machinery for peptide bond formation, translocation, and nascent chain progression

Structures of deacylated tRNA mimics bound to the E site of the large ribosomal subunit.

Mapping 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 RF2

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5130-5140

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scholarly article

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10.1093/NAR/GKM539

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15

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35

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Kamilla Bakowska-Zywicka

Norbert Polacek

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2007-07-26T00:00:00Z

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6179215

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17660192

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1976462

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