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microRNA expression variation as a potential molecular mechanism contributing to adaptation to hydrogen sulphide

2020; Oxford University Press; Volume: 34; Issue: 6 Linguagem: Inglês

10.1111/jeb.13727

1420-9101

Joanna L. Kelley, Thomas Desvignes, Kerry L. McGowan, Marcos A. Perez, Lenin Arias‐Rodríguez, Anthony P. Brown, Zach Culumber, Michael Tobler,

Aquaculture Nutrition and Growth

Abstract microRNAs (miRNAs) are post‐transcriptional regulators of gene expression and can play an important role in modulating organismal development and physiology in response to environmental stress. However, the role of miRNAs in mediating adaptation to diverse environments in natural study systems remains largely unexplored. Here, we characterized miRNAs and their expression in Poecilia mexicana , a species of small fish that inhabits both normal streams and extreme environments in the form of springs rich in toxic hydrogen sulphide (H 2 S). We found that P. mexicana has a similar number of miRNA genes as other teleosts. In addition, we identified a large population of mature miRNAs that were differentially expressed between locally adapted populations in contrasting habitats, indicating that miRNAs may contribute to P. mexicana adaptation to sulphidic environments. In silico identification of differentially expressed miRNA‐mRNA pairs revealed, in the sulphidic environment, the downregulation of miRNAs predicted to target mRNAs involved in sulphide detoxification and cellular homeostasis, which are pathways essential for life in H 2 S‐rich springs. In addition, we found that predicted targets of upregulated miRNAs act in the mitochondria (16.6% of predicted annotated targets), which is the main site of H 2 S toxicity and detoxification, possibly modulating mitochondrial function. Together, the differential regulation of miRNAs between these natural populations suggests that miRNAs may be involved in H 2 S adaptation by promoting functions needed for survival and reducing functions affected by H 2 S. This study lays the groundwork for further research to directly demonstrate the role of miRNAs in adaptation to H 2 S. Overall, this study provides a critical stepping‐stone towards a comprehensive understanding of the regulatory mechanisms underlying the adaptive variation in gene expression in a natural system.