Conformational change of pseudouridine 55 synthase upon its association with RNA substrate.
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The Crystal Structure of E. coli rRNA Pseudouridine Synthase RluECrystal Structure of an RluF–RNA Complex: A Base-Pair Rearrangement Is the Key to Selectivity of RluF for U2604 of the RibosomeStructural and functional evidence of high specificity of Cbf5 for ACA trinucleotideThe mechanism of pseudouridine synthases from a covalent complex with RNA, and alternate specificity for U2605 versus U2604 between close homologsThe structure of Rv2372c identifies an RsmE-like methyltransferase from Mycobacterium tuberculosisCrystal structure of the highly divergent pseudouridine synthase TruD reveals a circular permutation of a conserved foldPrecursor complex structure of pseudouridine synthase TruB suggests coupling of active site perturbations to an RNA-sequestering peripheral protein domain.Crystal structure of Bacillus subtilis TrmB, the tRNA (m7G46) methyltransferaseArchaeal Pus10 proteins can produce both pseudouridine 54 and 55 in tRNAFormation of the conserved pseudouridine at position 55 in archaeal tRNAContribution of two conserved histidines to the dual activity of archaeal RNA guide-dependent and -independent pseudouridine synthase Cbf5.Structure of the pseudouridine synthase RsuA from Haemophilus influenzae.Pseudouridine: still mysterious, but never a fake (uridine)!Solution structure of Archaeglobus fulgidis peptidyl-tRNA hydrolase (Pth2) provides evidence for an extensive conserved family of Pth2 enzymes in archea, bacteria, and eukaryotes.Substrate recognition by RNA 5-methyluridine methyltransferases and pseudouridine synthases: a structural perspective.The PUA domain - a structural and functional overview.Mechanistic investigations of the pseudouridine synthase RluA using RNA containing 5-fluorouridineConformational changes in redox pairs of protein structures.An arginine-aspartate network in the active site of bacterial TruB is critical for catalyzing pseudouridine formation.Insights into folate/FAD-dependent tRNA methyltransferase mechanism: role of two highly conserved cysteines in catalysis.The Cbf5-Nop10 complex is a molecular bracket that organizes box H/ACA RNPs.Role of forefinger and thumb loops in production of Ψ54 and Ψ55 in tRNAs by archaeal Pus10.Substrate tRNA recognition mechanism of tRNA (m7G46) methyltransferase from Aquifex aeolicus.Formation of a stalled early intermediate of pseudouridine synthesis monitored by real-time FRET.Conserved amino acids in each subunit of the heteroligomeric tRNA m1A58 Mtase from Saccharomyces cerevisiae contribute to tRNA binding.Dye label interference with RNA modification reveals 5-fluorouridine as non-covalent inhibitor.
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Conformational change of pseudouridine 55 synthase upon its association with RNA substrate.
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article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 27 February 2004
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vetenskaplig artikel
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Conformational change of pseud ...... ssociation with RNA substrate.
@en
Conformational change of pseud ...... ssociation with RNA substrate.
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type
label
Conformational change of pseud ...... ssociation with RNA substrate.
@en
Conformational change of pseud ...... ssociation with RNA substrate.
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prefLabel
Conformational change of pseud ...... ssociation with RNA substrate.
@en
Conformational change of pseud ...... ssociation with RNA substrate.
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P2860
P356
P1476
Conformational change of pseud ...... ssociation with RNA substrate.
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P2093
Kulwadee Phannachet
Raven H Huang
P2860
P304
P356
10.1093/NAR/GKH287
P407
P577
2004-02-27T00:00:00Z