Abstract
Salmonids (e.g. Atlantic salmon, Pacific salmon, and trouts) have a long legacy of genome duplication. In addition to three ancient genome duplications that all teleosts are thought to share, salmonids have had one additional genome duplication. We explored a methodology for untangling these duplications from each other to better understand them in Atlantic salmon. In this methodology, homeologous regions (paralogous/duplicated genomic regions originating from a whole genome duplication) from the most recent genome duplication were assumed to have duplicated genes at greater density and have greater sequence similarity. This assumption was used to differentiate duplicated gene pairs in Atlantic salmon that are either from the most recent genome duplication or from earlier duplications. From a comparison with multiple vertebrate species, it is clear that Atlantic salmon have retained more duplicated genes from ancient genome duplications than other vertebrates--often at higher density in the genome and containing fewer synonymous mutations. It may be that polysomic inheritance is the mechanism responsible for maintaining ancient gene duplicates in salmonids. Polysomic inheritance (when multiple chromosomes pair during meiosis) is thought to be relatively common in salmonids compared to other vertebrate species. These findings illuminate how genome duplications may not only increase the number of duplicated genes, but may also be involved in the maintenance of them from previous genome duplications as well.
Highlights
Atlantic salmon belong to the family Salmonidae, which includes the Pacific salmon (e.g. Chinook salmon–Oncorhynchus tshawytscha), chars (e.g. Arctic char–Salvelinus alpinus), trout, graylings, and whitefishes
Based on the zebrafish protein dataset used in this study, a total of 58,362 gene models were produced at 24,199 unique genomic locations in the Atlantic salmon genome (Fig 2)
The human and chicken circos plots are shown in S1 Fig. Both show extensive evidence for ancient genome duplications
Summary
Atlantic salmon belong to the family Salmonidae, which includes the Pacific salmon (e.g. Chinook salmon–Oncorhynchus tshawytscha), chars (e.g. Arctic char–Salvelinus alpinus), trout (e.g. rainbow trout–Oncorhynchus mykiss), graylings, and whitefishes. The ancestral species of the salmonids experienced a whole genome duplication not shared by other modern fishes [1]. This genome duplication (commonly referred to as the 4R genome duplication) is believed to have been a within species event (i.e. autopolyploidy). The autotetraploid genome duplication in the Salmonidae family is thought to have occurred around 88 million years ago [1,2,3,4]. During the last 88 million years, it appears that. PLOS ONE | DOI:10.1371/journal.pone.0173053 February 27, 2017
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