Abstract
Mitochondria perform an array of functions, many of which involve interactions with gene products encoded by the nucleus. These mitochondrial functions, particularly those involving energy production, can be expected to differ between sexes and across ages. Here we measured mitochondrial effects on sex- and age-specific gene expression in parental and reciprocal F1 hybrids between allopatric populations of Tigriopus californicus with over 20% mitochondrial DNA divergence. Because the species lacks sex chromosomes, sex-biased mitochondrial effects are not confounded by the effects of sex chromosomes. Using single-individual RNA sequencing, sex differences were found to explain more than 80% of the variance in gene expression. Males had higher expression of mitochondrial genes and mitochondrially targeted proteins (MTPs) involved in oxidative phosphorylation (OXPHOS), while females had elevated expression of non-OXPHOS MTPs, indicating strongly sex-dimorphic energy metabolism at the whole organism level. Comparison of reciprocal F1 hybrids allowed insights into the nature of mito-nuclear interactions, showing both mitochondrial effects on nuclear expression, as well as nuclear effects on mitochondrial expression. Across both sexes, increases in mitochondrial expression with age were associated with longer life. Network analyses identified nuclear components of strong mito-nuclear interactions, and found them to be sexually dimorphic. These results highlight the profound impact of mitochondria and mito-nuclear interactions on sex- and age-specific gene expression.
Competing Interest Statement
The authors have declared no competing interest.
Data Availability
The sequences generated during this study were deposited at the National Center for Biotechnical Information (NCBI) under the BioProject PRJNA660098 with the Sequence Read Archive (SRA) accession numbers SRR12545021 – SRR12545159.
Abbreviations
- ROS
- Reactive Oxygen Species
- LM-seq
- Ligation Mediated RNA sequencing
- mtDNA
- mitochondrial DNA
- MTP
- Mitochondrially Targeted Protein
- PCA
- Principal Component Analysis
- DEG
- Differentially Expressed Gene
- GO
- Gene Ontology
- KEGG
- Kyoto Encyclopedia of Genes and Genomes.