[HTML][HTML] Adenosine deaminases acting on RNA (ADARs): RNA-editing enzymes
Genome biology, 2004•Springer
Adenosine deaminases acting on RNA (ADARs) were discovered as a result of their ability
extensively to deaminate adenosines in any long double-stranded RNA, converting them to
inosines. Subsequently, ADARs were found to deaminate adenosines site-specifically within
the coding sequences of transcripts encoding ion-channel subunits, increasing the diversity
of these proteins in the central nervous system. ADAR1 is now known to be involved in
defending the genome against viruses, and it may affect RNA interference. ADARs are found …
extensively to deaminate adenosines in any long double-stranded RNA, converting them to
inosines. Subsequently, ADARs were found to deaminate adenosines site-specifically within
the coding sequences of transcripts encoding ion-channel subunits, increasing the diversity
of these proteins in the central nervous system. ADAR1 is now known to be involved in
defending the genome against viruses, and it may affect RNA interference. ADARs are found …
Summary
Adenosine deaminases acting on RNA (ADARs) were discovered as a result of their ability extensively to deaminate adenosines in any long double-stranded RNA, converting them to inosines. Subsequently, ADARs were found to deaminate adenosines site-specifically within the coding sequences of transcripts encoding ion-channel subunits, increasing the diversity of these proteins in the central nervous system. ADAR1 is now known to be involved in defending the genome against viruses, and it may affect RNA interference. ADARs are found in animals but are not known in other organisms. It appears that ADARs evolved from a member of another family, adenosine deaminases acting on tRNAs (ADATs), by steps including fusion of two or more double-stranded-RNA binding domains to a common type of zinc-containing adenosine-deaminase domain.
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