Modular pathways for editing non-cognate amino acids by human cytoplasmic leucyl-tRNA synthetase - Wikidata - awgldk - TriplyDB

Modular pathways for editing non-cognate amino acids by human cytoplasmic leucyl-tRNA synthetase

Modular pathways for editing non-cognate amino acids by human cytoplasmic leucyl-tRNA synthetase

http://www.wikidata.org/entity/Q34474121

about

Discovery of a potent benzoxaborole-based anti-pneumococcal agent targeting leucyl-tRNA synthetase Multiple Quality Control Pathways Limit Non-protein Amino Acid Use by Yeast Cytoplasmic Phenylalanyl-tRNA Synthetase.Recent Advances in Understanding Amino Acid Sensing Mechanisms that Regulate mTORC1 Sestrin2 is a leucine sensor for the mTORC1 pathway tRNA synthetase: tRNA aminoacylation and beyond Self-protective responses to norvaline-induced stress in a leucyl-tRNA synthetase editing-deficient yeast strain.A bridge between the aminoacylation and editing domains of leucyl-tRNA synthetase is crucial for its synthetic activity Amino-acid-dependent shift in tRNA synthetase editing mechanisms.In vivo identification of essential nucleotides in tRNALeu to its functions by using a constructed yeast tRNALeu knockout strain.Merging and scoring molecular interactions utilising existing community standards: tools, use-cases and a case study.Modulation of Aminoacylation and Editing Properties of Leucyl-tRNA Synthetase by a Conserved Structural Module.Degenerate connective polypeptide 1 (CP1) domain from human mitochondrial leucyl-tRNA synthetase.Kinetic partitioning between synthetic and editing pathways in class I aminoacyl-tRNA synthetases occurs at both pre-transfer and post-transfer hydrolytic steps C-terminal Domain of Leucyl-tRNA Synthetase from Pathogenic Candida albicans Recognizes both tRNASer and tRNALeu Crucial role of the C-terminal domain of Mycobacterium tuberculosis leucyl-tRNA synthetase in aminoacylation and editing.The Yin and Yang of tRNA: proper binding of acceptor end determines the catalytic balance of editing and aminoacylation.Sestrin regulation of TORC1: Is Sestrin a leucine sensor?Five conditions commonly used to down-regulate tor complex 1 generate different physiological situations exhibiting distinct requirements and outcomes.Aminoacylation and translational quality control strategy employed by leucyl-tRNA synthetase from a human pathogen with genetic code ambiguity Coexistence of bacterial leucyl-tRNA synthetases with archaeal tRNA binding domains that distinguish tRNA(Leu) in the archaeal mode.Emergence and evolution.Biochemical Basis of Sestrin Physiological Activities.Role of tRNA amino acid-accepting end in aminoacylation and its quality control Multilevel functional and structural defects induced by two pathogenic mitochondrial tRNA mutations.A naturally occurring nonapeptide functionally compensates for the CP1 domain of leucyl-tRNA synthetase to modulate aminoacylation activity.The Dawn of the Age of Amino Acid Sensors for the mTORC1 Pathway.Identification of two inherited copy number variants in a male with autism supports two-hit and compound heterozygosity models of autism.

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Modular pathways for editing non-cognate amino acids by human cytoplasmic leucyl-tRNA synthetase

http://www.wikidata.org/entity/Q34474121

description

2010 nî lūn-bûn

@nan

2010 թուականի Օգոստոսին հրատարակուած գիտական յօդուած

@hyw

2010 թվականի օգոստոսին հրատարակված գիտական հոդված

@hy

2010年の論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年论文

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name

Modular pathways for editing n ...... plasmic leucyl-tRNA synthetase

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Modular pathways for editing n ...... plasmic leucyl-tRNA synthetase

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Modular pathways for editing n ...... plasmic leucyl-tRNA synthetase

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Modular pathways for editing n ...... plasmic leucyl-tRNA synthetase

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Modular pathways for editing n ...... plasmic leucyl-tRNA synthetase

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Modular pathways for editing n ...... plasmic leucyl-tRNA synthetase

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Modular pathways for editing n ...... plasmic leucyl-tRNA synthetase

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Modular pathways for editing n ...... plasmic leucyl-tRNA synthetase

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Nucleic Acids Research

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Modular pathways for editing n ...... plasmic leucyl-tRNA synthetase

@en

P2093

En-Duo Wang

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

Gilbert Eriani

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Jing-Jing Ma

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

Min Tan

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

Peng Yao

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Qing-Hua Hu

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

Xin Chen

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P2860

The C-terminal appended domain of human cytosolic leucyl-tRNA synthetase is indispensable in its interaction with arginyl-tRNA synthetase in the multi-tRNA synthetase complex

Kinetic proofreading: a new mechanism for reducing errors in biosynthetic processes requiring high specificity

Genetic dissection of protein-protein interactions in multi-tRNA synthetase complex

A top-half tDNA minihelix is a good substrate for the eubacterial CCA-adding enzyme.

The 2 Å crystal structure of leucyl-tRNA synthetase and its complex with a leucyl-adenylate analogue

Structural basis for double-sieve discrimination of L-valine from L-isoleucine and L-threonine by the complex of tRNA(Val) and valyl-tRNA synthetase

Transfer RNA-mediated editing in threonyl-tRNA synthetase. The class II solution to the double discrimination problem

Structural and mechanistic basis of pre- and posttransfer editing by leucyl-tRNA synthetase

An antifungal agent inhibits an aminoacyl-tRNA synthetase by trapping tRNA in the editing site

Crystal structures of the human and fungal cytosolic Leucyl-tRNA synthetase editing domains: A structural basis for the rational design of antifungal benzoxaboroles

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235-247

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scholarly article

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10.1093/NAR/GKQ763

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1

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39

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2010-08-30T00:00:00Z

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46095193

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20805241

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3017609

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