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Emerging clinical applications of ADAR based RNA editing. [PDF]
Stem Cells Transl MedRainaldi J, Mali P, Nourreddine S.
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Abundant A-to-I RNA editing in spermatocytes may suppress transposons to compensate for piRNA downregulation in male germlines. [PDF]
RNA BiolDuan Y, Xie Q, Ma L, Cao Q.
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High levels of ADAR overexpression induce abundant and stochastic off-target RNA editing in rice protoplasts. [PDF]
aBIOTECHYin S, Li S, Yuan Y, Xie K.
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Targeting ADAR1-mediated RNA editing inhibits hepatic stellate cell activation and liver fibrosis by enhancing HSC-intrinsic innate immunity. [PDF]
GutXi Y +11 more
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Biochemical profiling and structural basis of ADAR1-mediated RNA editing. [PDF]
Mol CellDeng X +6 more
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Organellar genome evolution in Camellia tianeensis (Theaceae): comparative insights into RNA editing, codon usage, and DNA transfer between chloroplast and mitochondrion. [PDF]
BMC GenomicsRan Z +6 more
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Annual Review of Neuroscience, 1996
RNA editing is a term describing a variety of novel mechanisms for the modification of nucleotide sequences of RNA transcripts in different organisms. These editing events include (a) the U-insertion and -deletion type of editing found in the mitochondrion of kinetoplastid protozoa, (b) the C-insertion editing found in the mitochondrion of Physarum ...
L, Simpson, R B, Emeson
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RNA editing is a term describing a variety of novel mechanisms for the modification of nucleotide sequences of RNA transcripts in different organisms. These editing events include (a) the U-insertion and -deletion type of editing found in the mitochondrion of kinetoplastid protozoa, (b) the C-insertion editing found in the mitochondrion of Physarum ...
L, Simpson, R B, Emeson
openaire +3 more sources