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MRNA pseudouridylation affects RNA metabolism in the parasite Toxoplasma gondii.


ABSTRACT: RNA contains over 100 modified nucleotides that are created post-transcriptionally, among which pseudouridine (?) is one of the most abundant. Although it was one of the first modifications discovered, the biological role of this modification is still not fully understood. Recently, we reported that a pseudouridine synthase (TgPUS1) is necessary for differentiation of the single-celled eukaryotic parasite Toxoplasma gondii from active to chronic infection. To better understand the biological role of pseudouridylation, we report here gel-based and deep-sequencing methods to identify TgPUS1-dependent ?'s in Toxoplasma RNA, and the use of TgPUS1 mutants to examine the effect of this modification on mRNAs. In addition to identifying conserved sites of pseudouridylation in Toxoplasma rRNA, tRNA, and snRNA, we also report extensive pseudouridylation of Toxoplasma mRNAs, with the ?'s being relatively depleted in the 3'-UTR but enriched at position 1 of codons. We show that many ?'s in tRNA and mRNA are dependent on the action of TgPUS1 and that TgPUS1-dependent mRNA ?'s are enriched in developmentally regulated transcripts. RNA-seq data obtained from wild-type and TgPUS1-mutant parasites shows that genes containing a TgPUS1-dependent ? are relatively more abundant in mutant parasites, while pulse/chase labeling of RNA with 4-thiouracil shows that mRNAs containing TgPUS1-dependent ? have a modest but statistically significant increase in half-life in the mutant parasites. These data are some of the first evidence suggesting that mRNA ?'s play an important biological role.

SUBMITTER: Nakamoto MA 

PROVIDER: S-EPMC5689004 | biostudies-literature | 2017 Dec

REPOSITORIES: biostudies-literature

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mRNA pseudouridylation affects RNA metabolism in the parasite <i>Toxoplasma gondii</i>.

Nakamoto Margaret A MA   Lovejoy Alexander F AF   Cygan Alicja M AM   Boothroyd John C JC  

RNA (New York, N.Y.) 20170829 12


RNA contains over 100 modified nucleotides that are created post-transcriptionally, among which pseudouridine (Ψ) is one of the most abundant. Although it was one of the first modifications discovered, the biological role of this modification is still not fully understood. Recently, we reported that a pseudouridine synthase (TgPUS1) is necessary for differentiation of the single-celled eukaryotic parasite <i>Toxoplasma gondii</i> from active to chronic infection. To better understand the biologi  ...[more]

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