AI Article Synopsis
- The marine medaka fish has emerged as a model for studying environmental stress and chemical pollutants in marine ecosystems.
- Recent research utilizing RNA sequencing techniques revealed a comprehensive profile of various microRNAs (miRNAs) in different tissues of the fish.
- The study identified 223 distinct miRNA types, showing that certain miRNAs are affected by hypoxic conditions, indicating potential for marine medaka to further our understanding of gene regulation under stress in vertebrates.
Article Abstract
The marine medaka (Oryzias melastigma) has been increasingly used as a fish model for detecting environmental stresses and chemical contaminants in the marine environment. Recent mammalian studies have shown that environmental stresses can alter the expression profiles of microRNAs (miRNAs), leading to transgenerational effects. Here, we use high-throughput Illumina RNA sequencing (RNA-Seq) for miRNA transcriptome analysis of brain, liver, and gonads from sexually mature male and female marine medaka. A total of 128,883,806 filtered sequence reads were generated from six small RNA libraries, identifying a total of 2,125,663 non-redundant sequences. These sequences were aligned and annotated to known animal miRNAs (miRBase) using the BLAST method. A total of 223 distinct miRNA types were identified, with the greatest number expressed in brain tissue. Our data suggested that 55 miRNA types from 34 families are common to all tested tissues, while some of the miRNAs are tissue-enriched or sex-enriched. Quantitative real-time PCR analysis further demonstrated that let-7a, miR-122, and miR-9-3p were downregulated in hypoxic female medaka, while miR-2184 was specifically upregulated in the testis of hypoxic male fish. This is the first study to identify miRNAs in O. melastigma using small RNA deep sequencing technology. Because miRNA expression is highly conserved between marine medaka and other vertebrates, marine medaka may serve as a good model for studies on the functional roles of miRNAs in hypoxia stress response and signaling in marine fish.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4211694 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0110698 | PLOS |
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