Messenger RNA modifications: Form, distribution, and function - Wikidata - awgldk - TriplyDB

Messenger RNA modifications: Form, distribution, and function

Messenger RNA modifications: Form, distribution, and function

http://www.wikidata.org/entity/Q28074540

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Advances in analyzing RNA diversity in eukaryotic transcriptomes: peering through the Omics lens Identification of NAD+ capped mRNAs in Saccharomyces cerevisiae Obstacles and opportunities in the functional analysis of extracellular vesicle RNA - an ISEV position paper Wolbachia elevates host methyltransferase expression to block an RNA virus early during infection.Chemical and structural effects of base modifications in messenger RNA.mRNA N6-methyladenosine methylation of postnatal liver development in pig.Human eIF3: from 'blobology' to biological insight.Trm112, a Protein Activator of Methyltransferases Modifying Actors of the Eukaryotic Translational Apparatus.Three distinct 3-methylcytidine (m3C) methyltransferases modify tRNA and mRNA in mice and humans.Statistically robust methylation calling for whole-transcriptome bisulfite sequencing reveals distinct methylation patterns for mouse RNAs.Epigenetic Regulation of the Epithelial to Mesenchymal Transition in Lung Cancer.A pseudouridine synthase module is essential for mitochondrial protein synthesis and cell viability.Eukaryotic stand-alone pseudouridine synthases - RNA modifying enzymes and emerging regulators of gene expression?Beyond the Triplet Code: Context Cues Transform Translation.RNA modifications and structures cooperate to guide RNA-protein interactions.Antibodies specific for nucleic acid modifications.Chemical and Conformational Diversity of Modified Nucleosides Affects tRNA Structure and Function Integration of mRNP formation and export.The Epitranscriptome of Noncoding RNAs in Cancer.Next-Generation Sequencing-Based RiboMethSeq Protocol for Analysis of tRNA 2'-O-Methylation.Epitranscriptomics: Toward A Better Understanding of RNA Modifications.Translational Dysregulation in Cancer: Molecular Insights and Potential Clinical Applications in Biomarker Development.Identification of sites of 2'-O-methylation vulnerability in human ribosomal RNAs by systematic mapping.Label-free, direct localization and relative quantitation of the RNA nucleobase methylations m6A, m5C, m3U, and m5U by top-down mass spectrometry.Protein recoding by ADAR1-mediated RNA editing is not essential for normal development and homeostasis.Quantification of Pseudouridine Levels in Cellular RNA Pools with a Modified HPLC-UV Assay.Circular RNAs: emerging cancer biomarkers and targets.Deazaguanine derivatives, examples of crosstalk between RNA and DNA modification pathways.Pseudouridine and N6-methyladenosine modifications weaken PUF protein/RNA interactions.The Secret Life of RNA: Lessons from Emerging Methodologies.RMBase v2.0: deciphering the map of RNA modifications from epitranscriptome sequencing data.Fingerprints of Modified RNA Bases from Deep Sequencing Profiles.Genome-Wide Maps of m6A circRNAs Identify Widespread and Cell-Type-Specific Methylation Patterns that Are Distinct from mRNAs.Tuning the ribosome: The influence of rRNA modification on eukaryotic ribosome biogenesis and function.Extracellular Vesicle-Associated RNA as a Carrier of Epigenetic Information.Rewriting the transcriptome: adenosine-to-inosine RNA editing by ADARs.pre-mRNA processing includes N6 methylation of adenosine residues that are retained in mRNA exons and the fallacy of "RNA epigenetics".Post-transcriptional Regulation of De Novo Lipogenesis by mTORC1-S6K1-SRPK2 Signaling.The GAIT translational control system.Positive-sense RNA viruses reveal the complexity and dynamics of the cellular and viral epitranscriptomes during infection.

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P2860

Messenger RNA modifications: Form, distribution, and function

http://www.wikidata.org/entity/Q28074540

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2016 nî lūn-bûn

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2016 թուականի Յունիսին հրատարակուած գիտական յօդուած

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2016 թվականի հունիսին հրատարակված գիտական հոդված

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2016年の論文

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2016年論文

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2016年論文

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2016年論文

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2016年論文

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2016年論文

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2016年论文

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Messenger RNA modifications: Form, distribution, and function

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Messenger RNA modifications: Form, distribution, and function

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Messenger RNA modifications: Form, distribution, and function

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Messenger RNA modifications: Form, distribution, and function

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Messenger RNA modifications: Form, distribution, and function

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Messenger RNA modifications: Form, distribution, and function

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Messenger RNA modifications: Form, distribution, and function

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Messenger RNA modifications: Form, distribution, and function

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Messenger RNA modifications: Form, distribution, and function

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C. Schaening

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W. V. Gilbert

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P2860

N6-methyladenosine in nuclear RNA is a major substrate of the obesity-associated FTO

ALKBH5 is a mammalian RNA demethylase that impacts RNA metabolism and mouse fertility

N6-methyladenosine-dependent regulation of messenger RNA stability

A METTL3-METTL14 complex mediates mammalian nuclear RNA N6-adenosine methylation

Mammalian WTAP is a regulatory subunit of the RNA N6-methyladenosine methyltransferase

N(6)-methyladenosine-dependent RNA structural switches regulate RNA-protein interactions

Topology of the human and mouse m6A RNA methylomes revealed by m6A-seq

N6-methyladenosine marks primary microRNAs for processing

N(6)-methyladenosine Modulates Messenger RNA Translation Efficiency

Identification of methylated nucleosides in messenger RNA from Novikoff hepatoma cells

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