The flatfish, Solea senegalensis has considerable scientific interest and commercial value. The metamorphosis in this species occurs between 12 and 19 days after hatching and it takes about 1 week to complete. Eleven Bacterial Artificial Chromosomes (BAC) clones containing the various candidate genes involved in the process of metamorphosis: thyroxine 5 deiodinase 3 (dio3); forkhead box protein E4 (foxe4); melatonin receptor type 1C (mel1c); calsequestrin 1b (casq1b); thyrotropin subunit beta (tshβ); thyrotropin-releasing hormone receptor 1, 2, and 3 (trhr1, trhr2, trhr3); thyroid hormone receptor α a and b (thrαa, thrαb); and thyroid hormone receptor beta (thrβ) were analyzed by multiple Fluorescence in situ Hybridization (mFISH) and Next Generation Sequencing (NGS) techniques. The mFISH technique localized the 11 BAC clones on 12 different chromosome pairs because three of them, specifically the trhr1a, trhr2 and thrβ BAC clones, showed double signals. This signal duplication indicates a duplication of the genomic region inserted within the BAC clone, which provides evidence for the Teleost-Specific Whole Genome Duplication (TS-WGD). Micro-synteny and phylogenetic analysis showed that Cynoglossus semilaevis is the nearest species to S. senegalensis and that Danio rerio is the most distant one. The tshβ BAC clone was highly conserved as the genes belonging to this BAC were located on a single chromosome in all the species studied. These genes participate in proliferation, migration and cell-death, which are key processes during metamorphosis. Overall, micro-synteny analysis showed that most candidate genes are found in conserved genomic surroundings.
Keywords: Aquaculture; Bacterial artificial chromosome; Metamorphosis; Solea senegalensis; Thyroid hormones.
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