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Mitochondrial DNA Inheritance and Germline Purifying Selection: Insights From Drosophila.

Created on 10 Jul 2026

Authors

Zhe Chen, Hong Xu

Published in

Annual review of genetics. Jul 09, 2026. Epub Jul 09, 2026.

Abstract

The mitochondrial genome resides in a highly mutagenic environment and is typically maternally inherited with little recombination, features that should render mitochondrial DNA (mtDNA) prone to the accumulation of deleterious variants. Contrary to this expectation, mtDNA integrity is remarkably well-preserved over evolution. Purifying selection in the female germline that limits transmission of deleterious mtDNA mutations has been documented in various animal models and in humans. Here, we synthesize the literature, with an emphasis on insights from Drosophila, revealing that replication competition-the preferential propagation of healthy genomes over deleterious ones-is the main mechanism driving mtDNA purifying selection in the germline. We highlight developmentally orchestrated mitochondrial processes that couple genome function to replication, enabling selection based on the bioenergetic performance of individual genomes during oogenesis. Finally, we discuss how replication competition can generate genetic conflicts, particularly through the emergence of selfish mtDNA, and how such conflicts may have shaped mtDNA evolution and features of mitochondrial genetics, including maternal inheritance and the mitochondrial bottleneck.

PMID:
42424615
Bibliographic data and abstract were imported from PubMed on 10 Jul 2026.

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