Discovery of miRNAs and Their Corresponding miRNA Genes in Atlantic Cod(Gadus morhua): Use of Stable miRNAs as Reference Genes Reveals Subgroups of miRNAs That Are Highly Expressed in Particular Organs
Peer reviewed, Journal article, Journal article
Published version
Date
2016-04-29Metadata
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Abstract
Background
Atlantic cod (Gadus morhua) is among the economically most important species in the
northern Atlantic Ocean and a model species for studying development of the immune system
in vertebrates. MicroRNAs (miRNAs) are an abundant class of small RNA molecules
that regulate fundamental biological processes at the post-transcriptional level. Detailed
knowledge about a species miRNA repertoire is necessary to study how the miRNA transcriptome
modulate gene expression.We have therefore discovered and characterized
mature miRNAs and their corresponding miRNA genes in Atlantic cod. We have also performed
a validation study to identify suitable reference genes for RT-qPCR analysis of
miRNA expression in Atlantic cod. Finally, we utilized the newly characterized miRNA repertoire
and the dedicated RT-qPCR method to reveal miRNAs that are highly expressed in
certain organs.
Results
The discovery analysis revealed 490 mature miRNAs (401 unique sequences) along with
precursor sequences and genomic location of the miRNA genes. Twenty six of these were
novel miRNA genes. Validation studies ranked gmo-miR-17-1—5p or the two-gene combination
gmo-miR25-3p and gmo-miR210-5p as most suitable qPCR reference genes. Analysis
by RT-qPCR revealed 45 miRNAs with significantly higher expression in tissues from
one or a few organs. Comparisons to other vertebrates indicate that some of these miRNAs
may regulate processes like growth, lipid metabolism, immune response to microbial infections and scar damage repair. Three teleost-specific and three novel Atlantic cod miRNAs
were among the differentially expressed miRNAs.
Conclusions
The number of known mature miRNAs was considerably increased by our identification of
miRNAs and miRNA genes in Atlantic cod. This will benefit further functional studies of
miRNA expression using deep sequencing methods. The validation study showed that stable
miRNAs are suitable reference genes for RT-qPCR analysis of miRNA expression.
Applying RT-qPCR we have identified several miRNAs likely to have important regulatory
functions in particular organs.
Publisher
Public Library of Science
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