Abstract
Site-specific 2’-O-ribose methylation is an abundant post-transcriptional modification mediated by small non-coding nuclear RNAs known as box C/D modification guide RNAs. The minimal structural requirements for these guide RNAs to function in higher eukaryotes are still unclear. To address this question, we generated a series of mutant variants of Drosophila box C/D scaRNA:MeU2-C28 and tested their modification guide activities in the Xenopus oocyte system. Our data suggest that box C/D guide RNA function requires either a terminal or an internal consensus kink-turn structure. We identified the minimal functional box C/D guide RNA. It consists of a single-domain molecule with (i) a terminal stem with a consensus kink-turn domain, (ii) one box C and box D connected by a 14-nucleotide antisense element and (iii) a one-nucleotide spacer between the box C and the antisense element. In this single domain RNA, the sequence of the spacer is more important than its length. We suggest that the secondary structure of box C/D RNAs, essential for guide RNA function, is more complex than generally supposed. At the same time, the expression of functional extremely short single-domain box C/D RNAs is possible in higher eukaryotes.
Highlights
IntroductionSmall nucleolar RNAs (snoRNAs) are non-coding RNAs that may function as modification guide RNAs
Small nucleolar RNAs are non-coding RNAs that may function as modification guide RNAs
We suggest that the secondary structure of box C/D RNAs, essential for guide RNA function, is more complex than generally supposed
Summary
Small nucleolar RNAs (snoRNAs) are non-coding RNAs that may function as modification guide RNAs. The C and D boxes are two distinctive short motifs—‘RUGAUGA’ and ‘CUGA’, respectively. They localize close to the ends of a snoRNA molecule and participate in the formation of a specific terminal structure called the kink-turn, or K-turn. This structure consists of a canonical ‘stem I’ formed by 5’ and 3’ termini complementary to each other and a noncanonical ‘stem II’, which contains one U-U and two A-G pairs formed by the C and D boxes. Additional slightly diverged copies of the C and D boxes, the so-called C’
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