2021
DOI: 10.1101/2021.08.21.457212
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Diversification of small RNA pathways underlies germline RNAi incompetence in wild C. elegans strains

Abstract: The discovery that experimental delivery of dsRNA can induce gene silencing at target genes revolutionized genetics research, by both uncovering essential biological processes and creating new tools for developmental geneticists. However, wild-type C. elegans strains vary dramatically in their response to exogenous RNAi, challenging our characterization of RNAi in the lab relative to its activity and significance in nature. Here, we investigate why some strains fail to mount a robust RNAi response to germline … Show more

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Cited by 4 publications
(36 citation statements)
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References 84 publications
(275 reference statements)
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“…However, overlap among strains was sparse (Figure S6): no genes with differential expression to both par-1 and pos-1 RNAi were shared across all five strains, and the only gene responsive to both treatments in the competent strains (JU1088, N2, and EG4348) was asp-14, a predicted aspartyl protease involved in innate immunity (Harris et al, 2020). Such strain-specific patterns fit with our observations of RNAi variability: not only does C. elegans exhibit substantial natural variation in germline RNAi competence (Elvin et al, 2011;Felix, 2008;Felix et al, 2011;Paaby et al, 2015;Tijsterman et al, 2002), but the genetic basis for RNAi failure appears strain-specific as well (Chou et al, 2022). We posit that even among competent strains, C. elegans varies in details of the RNAi biological response mechanism, including which genes are affected, the magnitude or functionality of their activity, and their timing.…”
supporting
confidence: 80%
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“…However, overlap among strains was sparse (Figure S6): no genes with differential expression to both par-1 and pos-1 RNAi were shared across all five strains, and the only gene responsive to both treatments in the competent strains (JU1088, N2, and EG4348) was asp-14, a predicted aspartyl protease involved in innate immunity (Harris et al, 2020). Such strain-specific patterns fit with our observations of RNAi variability: not only does C. elegans exhibit substantial natural variation in germline RNAi competence (Elvin et al, 2011;Felix, 2008;Felix et al, 2011;Paaby et al, 2015;Tijsterman et al, 2002), but the genetic basis for RNAi failure appears strain-specific as well (Chou et al, 2022). We posit that even among competent strains, C. elegans varies in details of the RNAi biological response mechanism, including which genes are affected, the magnitude or functionality of their activity, and their timing.…”
supporting
confidence: 80%
“…This majority represents a slight enrichment relative to the proportion of missing or low coverage genes within the complete set of 'off' genes (286/411 or 70%) (onesided proportion test with continuity correction: c 2 = 3.05, df = 1, p = 0.04). Enrichment of genome divergence among RNAi-responsive 'off' genes supports the hypothesis that genes associated with RNAi are evolving rapidly in C. elegans (Chou et al, 2022). By adding the missing and low DNA coverage filters, we infer that, of genes with an RNAi effect in another strain, zero (in N2) to 12 (in QX1211) were missing from the strain's genome and 1-6 genes per strain were present but truly unexpressed at the RNA level.…”
supporting
confidence: 66%
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