AI Article Synopsis
- Doubly uniparental inheritance (DUI) is a unique mitochondrial DNA (mtDNA) transmission method found in certain freshwater mussels, where both female (F) and male (M) mtDNAs coexist in the species.
- The presence of specific genes (F-orf and M-orf) in F and M mtDNAs is linked to sex determination, and DUI is correlated with gonochorism (distinct male and female sexes) in the Unionida family, though it is absent in one of its superfamilies, Etherioidea.
- Genetic analysis of four unionid species revealed that early evolutionary changes in mtDNAs led to the development of the M-orf gene, suggesting that new mt
Article Abstract
Doubly uniparental inheritance (DUI) describes a mode of mtDNA transmission widespread in gonochoric freshwater mussels (Bivalvia: Palaeoheterodonta: Unionida). In this system, both female- and male-transmitted mtDNAs, named F and M respectively, coexist in the same species. In unionids, DUI is strictly correlated to gonochorism and to the presence of the atypical open reading frames (ORFans) F-orf and M-orf, respectively inside F and M mtDNAs, which are hypothesized to participate in sex determination. However, DUI is not found in all three Unionida superfamilies (confirmed in Hyrioidea and Unionoidea but not in Etherioidea), raising the question of its origin in these bivalves. To reconstruct the co-evolution of DUI and of ORFans, we sequenced the mtDNAs of four unionids (two gonochoric with DUI, one gonochoric and one hermaphroditic without DUI) and of the related gonochoric species Neotrigonia margaritacea (Palaeoheterodonta: Trigoniida). Our analyses suggest that rearranged mtDNAs appeared early during unionid radiation, and that a duplicated and diverged atp8 gene evolved into the M-orf associated with the paternal transmission route in Hyrioidea and Unionoidea, but not in Etherioidea. We propose that novel mtDNA-encoded genes can deeply influence bivalve sex determining systems and the evolution of the mitogenomes in which they occur.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5431520 | PMC |
| http://dx.doi.org/10.1038/s41598-017-01708-1 | DOI Listing |
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