The Discovery and Characterization of Conserved and Novel miRNAs in the Different Developmental Stages and Organs of Pikeperch (Sander lucioperca)
Verleih, Marieke; Visnovska, Tina; Nguinkal, Julien; Rebl, Alexander; Goldammer, Tom; Andreassen, Rune
Peer reviewed, Journal article
Published version
Date
2024Metadata
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Abstract
Micro RNAs (miRNAs) are short non-coding RNAs that act as post-transcriptional gene
expression regulators. Genes regulated in vertebrates include those affecting growth and development
or stress and immune response. Pikeperch (Sander lucioperca) is a species that is increasingly being
considered for farming in recirculation aquaculture systems. We characterized the pikeperch miRNA
repertoire to increase the knowledge of the genomic mechanisms affecting performance and health
traits by applying small RNA sequencing to different developmental stages and organs. There were
234 conserved and 8 novel miRNA genes belonging to 104 families. A total of 375 unique mature
miRNAs were processed from these genes. Many mature miRNAs showed high relative abundances
or were significantly more expressed at early developmental stages, like the miR-10 and miR-430
family, let-7, the miRNA clusters 106-25-93, and 17-19-92. Several miRNAs associated with immune
responses (e.g., slu-mir-731-5p, slu-mir-2188-5p, and slu-mir-8159-5p) were enriched in the spleen.
The mature miRNAs slu-mir-203a-3p and slu-mir-205-5p were enriched in gills. These miRNAs are
similarly abundant in many vertebrates, indicating that they have shared regulatory functions. There
was also a significantly increased expression of the disease-associated miR-462/miR-731 cluster in
response to hypoxia stress. This first pikeperch miRNAome reference resource paves the way for
future functional studies to identify miRNA-associated variations that can be utilized in marker-
assisted breeding programs.