A-to-I RNA editing occurs at over a hundred million genomic sites, located in a majority of human genes. - Wikidata - awgldk - TriplyDB

A-to-I RNA editing occurs at over a hundred million genomic sites, located in a majority of human genes.

A-to-I RNA editing occurs at over a hundred million genomic sites, located in a majority of human genes.

http://www.wikidata.org/entity/Q37614931

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Reprogramming, Circular Reasoning and Self versus Non-self: One-Stop Shopping with RNA Editing Translating the epitranscriptome A-to-I editing of coding and non-coding RNAs by ADARs ADAR1, inosine and the immune sensing system: distinguishing self from non-self To edit or not to edit: regulation of ADAR editing specificity and efficiency The Epitranscriptome and Innate Immunity Trypanosome RNA editing: the complexity of getting U in and taking U out New Insights into the Biological Role of Mammalian ADARs; the RNA Editing Proteins A-to-I RNA Editing: Current Knowledge Sources and Computational Approaches with Special Emphasis on Non-Coding RNA Molecules Advances in analyzing RNA diversity in eukaryotic transcriptomes: peering through the Omics lens Functions of the RNA Editing Enzyme ADAR1 and Their Relevance to Human Diseases Structural Variation of Alu Element and Human Disease Fmrp Interacts with Adar and Regulates RNA Editing, Synaptic Density and Locomotor Activity in Zebrafish Discriminative Prediction of A-To-I RNA Editing Events from DNA Sequence The dynamic epitranscriptome: A to I editing modulates genetic information Profiling RNA editing in human tissues: towards the inosinome Atlas Knowledge in the Investigation of A-to-I RNA Editing Signals A genome-wide map of hyper-edited RNA reveals numerous new sites Characterizing of functional human coding RNA editing from evolutionary, structural, and dynamic perspectives.Genome-wide analysis of differential RNA editing in epilepsy.Transient overexpression of exogenous APOBEC3A causes C-to-U RNA editing of thousands of genes.Evidence for transcriptome-wide RNA editing among Sus scrofa PRE-1 SINE elements.Transposable elements in cancer as a by-product of stress-induced evolvability Single-cell transcriptomics reveals specific RNA editing signatures in the human brain ADAR1 deletion induces NFκB and interferon signaling dependent liver inflammation and fibrosis Understanding RNA modifications: the promises and technological bottlenecks of the 'epitranscriptome'.RED-ML: a novel, effective RNA editing detection method based on machine learning.Chemical and structural effects of base modifications in messenger RNA.Fingerprints of a message: integrating positional information on the transcriptome.ADAR2 induces reproducible changes in sequence and abundance of mature microRNAs in the mouse brain.In search of beneficial coding RNA editing.Profiling the RNA editomes of wild-type C. elegans and ADAR mutants.Evidence for multiple, distinct ADAR-containing complexes in Xenopus laevis.One hundred million adenosine-to-inosine RNA editing sites: hearing through the noise.Genome sequence-independent identification of RNA editing sites.The majority of transcripts in the squid nervous system are extensively recoded by A-to-I RNA editing Predicting A-to-I RNA editing by feature selection and random forest.Genome-wide profiling of the C. elegans dsRNAome.Genome-Wide Characterization of RNA Editing in Chicken Embryos Reveals Common Features among Vertebrates.The role of Alu elements in the cis-regulation of RNA processing.

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A-to-I RNA editing occurs at over a hundred million genomic sites, located in a majority of human genes.

http://www.wikidata.org/entity/Q37614931

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scientific article published on 17 December 2013

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A-to-I RNA editing occurs at o ...... in a majority of human genes.

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A-to-I RNA editing occurs at o ...... in a majority of human genes.

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A-to-I RNA editing occurs at o ...... in a majority of human genes.

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A-to-I RNA editing occurs at o ...... in a majority of human genes.

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Genome Research

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A-to-I RNA editing occurs at o ...... in a majority of human genes.

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Ami Haviv

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Farren J Isaacs

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Gideon Rechavi

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Jasmine Jacob-Hirsch

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Jin Billy Li

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Lily Bazak

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Michal Barak

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Patricia Deng

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P2860

Initial sequencing and analysis of the human genome

Very few RNA and DNA sequence differences in the human transcriptome

Ultrafast and memory-efficient alignment of short DNA sequences to the human genome

RNA-editing-mediated exon evolution

The impact of retrotransposons on human genome evolution

Screening of human SNP database identifies recoding sites of A-to-I RNA editing

Fast and accurate short read alignment with Burrows-Wheeler transform

RNA editing by adenosine deaminases that act on RNA

Widespread A-to-I RNA editing of Alu-containing mRNAs in the human transcriptome

Identification of RNA editing sites in the SNP database

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10.1101/GR.164749.113

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Erez Y. Levanon

Jasmine Jacob-Hirsch

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2013-12-17T00:00:00Z

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