Natural Heteroplasmy and Mitochondrial Inheritance in Bivalve Molluscs
Autor: | Andrea Pecci, Yana N. Alexandrova, Arkadiy Reunov, Fabrizio Ghiselli, Maria Gabriella Maurizii, Liliana Milani, Helena Ariño-Bassols, Carmine Cifaldi, Marco Passamonti, Simone Bettini, Valeria Franceschini |
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Přispěvatelé: | Ghiselli F., Maurizii M.G., Reunov A., Arino-Bassols H., Cifaldi C., Pecci A., Alexandrova Y., Bettini S., Passamonti M., Franceschini V., Milani L. |
Jazyk: | angličtina |
Rok vydání: | 2019 |
Předmět: |
0106 biological sciences
0301 basic medicine Genetics Non-Mendelian inheritance Mitochondrial DNA Uniparental inheritance Plant Science Biology 010603 evolutionary biology 01 natural sciences Germline Heteroplasmy Bivalvia Mitochondria 03 medical and health sciences 030104 developmental biology Meiotic drive Genes Mitochondrial mitochondrial heteroplasmy doubly uniparental inheritance of mitochondria (DUI) Ruditapes philippinarum germline immunohistochemistry OXPHOS Genome Mitochondrial Animals Animal Science and Zoology Gene Germ plasm |
Popis: | Heteroplasmy is the presence of more than one type of mitochondrial genome within an individual, a condition commonly reported as unfavorable and affecting mitonuclear interactions. So far, no study has investigated heteroplasmy at protein level, and whether it occurs within tissues, cells, or even organelles. The only known evolutionarily stable and natural heteroplasmic system in Metazoa is the Doubly Uniparental Inheritance (DUI)—reported so far in ∼100 bivalve species—in which two mitochondrial lineages are present: one transmitted through eggs (F-type) and the other through sperm (M-type). Because of such segregation, mitochondrial oxidative phosphorylation proteins reach a high amino acid sequence divergence (up to 52%) between the two lineages in the same species. Natural heteroplasmy coupled with high sequence divergence between F- and M-type proteins provides a unique opportunity to study their expression and assess the level and extent of heteroplasmy. Here, for the first time, we immunolocalized F- and M-type variants of three mitochondrially-encoded proteins in the DUI species Ruditapes philippinarum, in germline and somatic tissues at different developmental stages. We found heteroplasmy at organelle level in undifferentiated germ cells of both sexes, and in male soma, whereas gametes were homoplasmic: eggs for the F-type and sperm for the M-type. Thus, during gametogenesis, only the sex-specific mitochondrial variant is maintained, likely due to a process of meiotic drive. We examine the implications of our results for DUI proposing a revised model, and we discuss interactions of mitochondria with germ plasm and their role in germline development. Molecular and phylogenetic evidence suggests that DUI evolved from the common Strictly Maternal Inheritance, so the two systems likely share the same underlying molecular mechanism, making DUI a useful system for studying mitochondrial biology. |
Databáze: | OpenAIRE |
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