Terminal Modification, Sequence, and Length Determine Small RNA Stability in Animals

Gainetdinov, Ildar; Colpan, Cansu; Cecchini, Katharine; Albosta, Paul; Jouravleva, Karina; Vega-Badillo, Joel; Lee, Yongjin; Özata, Deniz M.; Zamore, Phillip D.

doi:10.1101/2020.09.08.287979

Cited by 2 publications

(1 citation statement)

References 123 publications

(76 reference statements)

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“…Indeed, simultaneous deletion of both enzymes results in a higher frequency of 3′ tailing and stronger depletion of piRNAs than those of henn-1 or parn-1 single mutants. A recent pre-print revealed that both PNLDC1 (mouse homolog of PARN-1) and HENMT1 (mouse homolog of HENN-1) are required for the accumulation of piRNAs ( Gainetdinov et al, 2020 ). Together, these findings suggest that despite many differences in piRNA lengths and sequences in nematodes and mammals, the quality-control mechanism for piRNAs is nevertheless conserved.…”

Section: Discussionmentioning

confidence: 99%

pre-piRNA trimming and 2′-O-methylation protect piRNAs from 3′ tailing and degradation in C. elegans

et al. 2021

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SUMMARY The Piwi-interacting RNA (piRNA) pathway suppresses transposable elements and promotes fertility in diverse organisms. Maturation of piRNAs involves pre-piRNA trimming followed by 2′-O-methylation at their 3′ termini. Here, we report that the 3′ termini of Caenorhabditis elegans piRNAs are subject to nontemplated nucleotide addition, and piRNAs with 3′ addition exhibit extensive base-pairing interaction with their target RNAs. Animals deficient for PARN-1 (pre-piRNA trimmer) and HENN-1 (2′-O-methyltransferase) accumulate piRNAs with 3′ nontemplated nucleotides. In henn-1 mutants, piRNAs are shortened prior to 3′ addition, whereas long isoforms of untrimmed piRNAs are preferentially modified in parn-1 mutant animals. Loss of either PARN-1 or HENN-1 results in modest reduction in steady-state levels of piRNAs. Deletion of both enzymes leads to depletion of piRNAs, desilenced piRNA targets, and impaired fecundity. Together, our findings suggest that pre-piRNA trimming and 2′-O-methylation act collaboratively to protect piRNAs from tailing and degradation.

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Section: Discussionmentioning

confidence: 99%

pre-piRNA trimming and 2′-O-methylation protect piRNAs from 3′ tailing and degradation in C. elegans

et al. 2021

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The conserved zinc-finger protein GTSF1 helps PIWI proteins achieve their full catalytic potential

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Özata

Anderson

et al. 2021

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Argonaute proteins use nucleic acid guides to find and bind specific DNA or RNA target sequences. Argonaute proteins can be found in all kingdoms of life, and play diverse biological functions including genome defense, gene regulation, and chromosome partitioning. Many Argonautes retain their ancestral endoribonuclease activity, cleaving the phosphodiester bond between target nucleotides t10 and t11. In animals, a specialized class of Argonautes, the PIWI proteins, use 21–35 nt PIWI-interacting RNAs (piRNAs) to direct transposon silencing, protect the germline genome, and regulate gene expression during gametogenesis1. The piRNA pathway is required for fertility in one or both sexes of nearly all animals. Both piRNA production and function require RNA cleavage catalyzed by PIWI proteins. Spermatogenesis in mice and other placental mammals requires three distinct, developmentally regulated PIWI proteins: MIWI (PIWIL1), MILI (PIWIL2), and MIWI2 (PIWIL4)2 4; the piRNA-guided endoribonuclease activities of MIWI and MILI are essential to produce functional sperm5,6. piRNA-directed silencing in mice, insects, and worms also requires Gametocyte-Specific Factor 1 (GTSF1), a PIWI-associated protein of unknown function7 12. Here, we report that GTSF1 potentiates the weak, intrinsic, piRNA-directed RNA cleavage activities of PIWI proteins, transforming them into efficient endoribonucleases. GTSF1 represents the first example of an auxiliary protein that potentiates the catalytic activity of an Argonaute protein.

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Terminal Modification, Sequence, and Length Determine Small RNA Stability in Animals

Cited by 2 publications

References 123 publications

pre-piRNA trimming and 2′-O-methylation protect piRNAs from 3′ tailing and degradation in C. elegans

pre-piRNA trimming and 2′-O-methylation protect piRNAs from 3′ tailing and degradation in C. elegans

The conserved zinc-finger protein GTSF1 helps PIWI proteins achieve their full catalytic potential

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