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Deep transcriptome profiling reveals limited conservation of A-to-I RNA editing in Xenopus. , Nguyen TA., BMC Biol. November 9, 2023; 21 (1): 251.
Conserved microRNA editing in mammalian evolution, development and disease. , Warnefors M., Genome Biol. June 25, 2014; 15 (6): R83.
A survey of genomic traces reveals a common sequencing error, RNA editing, and DNA editing. , Zaranek AW., PLoS Genet. May 20, 2010; 6 (5): e1000954.
The RISC subunit Tudor-SN binds to hyper-edited double-stranded RNA and promotes its cleavage. , Scadden AD., Nat Struct Mol Biol. June 1, 2005; 12 (6): 489-96.
Distinct in vivo roles for double-stranded RNA-binding domains of the Xenopus RNA-editing enzyme ADAR1 in chromosomal targeting. , Doyle M., J Cell Biol. April 28, 2003; 161 (2): 309-19.
Nucleocytoplasmic distribution of human RNA-editing enzyme ADAR1 is modulated by double-stranded RNA-binding domains, a leucine-rich export signal, and a putative dimerization domain. , Strehblow A., Mol Biol Cell. November 1, 2002; 13 (11): 3822-35.
The human but not the Xenopus RNA-editing enzyme ADAR1 has an atypical nuclear localization signal and displays the characteristics of a shuttling protein. , Eckmann CR., Mol Biol Cell. July 1, 2001; 12 (7): 1911-24.
The RNA-editing enzyme ADAR1 is localized to the nascent ribonucleoprotein matrix on Xenopus lampbrush chromosomes but specifically associates with an atypical loop. , Eckmann CR., J Cell Biol. February 22, 1999; 144 (4): 603-15.
A minor fraction of basic fibroblast growth factor mRNA is deaminated in Xenopus stage VI and matured oocytes. , Saccomanno L., RNA. January 1, 1999; 5 (1): 39-48.
Deamination of mammalian glutamate receptor RNA by Xenopus dsRNA adenosine deaminase: similarities to in vivo RNA editing. , Hurst SR., RNA. December 1, 1995; 1 (10): 1051-60.
The cytoplasm of Xenopus oocytes contains a factor that protects double-stranded RNA from adenosine-to-inosine modification. , Saccomanno L., Mol Cell Biol. August 1, 1994; 14 (8): 5425-32.