AI Article Synopsis
- In marine mussels of the Mytilus genus, there are two types of mitochondrial genomes: one inherited from the female and another from the male, which is atypical in animals.
- Research reveals that a mussel's maleness and the presence of the paternal mitochondrial genome can exist independently, suggesting that while males typically pass on their paternal mitochondrial genomes, this does not determine their sex.
- The female mussel has the key role in deciding whether her offspring inherit the male’s mitochondrial genome, shedding light on a unique method of mitochondrial DNA inheritance found in bivalves.
Article Abstract
Background: In marine mussels of the genus Mytilus there are two mitochondrial genomes. One is transmitted through the female parent, which is the normal transmission route in animals, and the other is transmitted through the male parent which is an unusual phenomenon. In males the germ cell line is dominated by the paternal mitochondrial genome and the somatic cell line by the maternal. Research to date has not allowed a clear answer to the question of whether inheritance of the paternal genome is causally related to maleness.
Methodology/principal Findings: Here we present results from hybrid crosses, from triploid mussels and from observations of sperm mitochondria in fertilized eggs which clearly show that maleness and presence of the paternal mitochondrial genome can be decoupled. These same results show that the female mussel has exclusive control of whether her progeny will inherit the mitochondrial genome of the male parent.
Conclusions/significance: These findings are important in our efforts to understand the mechanistic basis of this unusual mode of mitochondrial DNA inheritance that is common among bivalves.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2736565 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0006976 | PLOS |
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