%0 Journal Article %A Danny Arends %A Stefan Kärst %A Sebastian Heise %A Paula Korkuc %A Deike Hesse %A Gudrun A. Brockmann %T Transmission distortion and genetic incompatibilities between alleles in a multigenerational mouse advanced intercross line %D 2021 %R 10.1101/2021.06.09.447720 %J bioRxiv %P 2021.06.09.447720 %X Background/Objectives While direct additive and dominance effects on complex traits have been mapped repeatedly, additional genetic factors contributing to the heterogeneity of complex traits have been scarcely investigated. To assess genetic background effects, we investigated transmission ratio distortions (TRDs) of alleles from parent to offspring using an advanced intercross line (AIL) of an initial cross between the mouse inbred strains C57BL/6NCrl (B6N) and BFMI860-12 (BFMI).Subjects/Methods 341 males of generation 28 and their respective 61 parents and 66 grandparents were genotyped using Mega Mouse Universal Genotyping Arrays (MegaMUGA). TRDs were investigated using allele transmission asymmetry tests, and pathway overrepresentation analysis was performed. Sequencing data was used to test for overrepresentation of non-synonymous SNPs in TRD regions. Genetic incompatibilities were tested using the Bateson-Dobzhansky-Muller two-locus model.Results 62 TRD regions were detected, many in close proximity to the telocentric centromere. TRD regions contained 44.5% more non-synonymous SNPs than randomly selected regions (182 vs. 125.9 ± 17.0, P < 1×10−4). Testing for genetic incompatibilities between TRD regions identified 29 genome-wide significant incompatibilities between TRD regions (P(BF) < 0.05). Pathway overrepresentation analysis of genes in TRD regions showed that DNA methylation, epigenetic regulation of RNA, and meiotic/meiosis regulation pathways were affected independent of the parental origin of the TRD. Paternal BFMI TRD regions showed overrepresentation in the small interfering RNA (siRNA) biogenesis and in the metabolism of lipids and lipoproteins. Maternal B6N TRD regions harbored genes involved in meiotic recombination, cell death, and apoptosis pathways. The analysis of genes in TRD regions suggests the potential distortion of protein-protein interactions accounting for obesity and diabetic retinopathy as a result of disadvantageous combinations of allelic variants in Aass, Pgx6 and Nme8.Conclusions Since genes in TRD regions showed a significant increase in the number of non-synonymous SNPs, these loci likely co-evolved to ensure protein-protein interaction compatibility, survival and optimal adaptation to the genetic background environment. Genes in these regions provide new targets for investigating genetic adaptation, protein-protein interactions, and determinants of complex traits such as obesity.AILAdvanced intercross lineBFMIBerlin Fat Mouse inbred lineB6NC57BL/6N inbred lineMatMaternal transmission ratio distortionMAFMinor allele frequencynsSNPNon-Synonymous Single Nucleotide PolymorphismP(BF)Bonferroni corrected p-valueP(BH)Benjamini–Hochberg corrected p-valuePatPaternal transmission ratio distortionQTLQuantitative trait locusSNPSingle nucleotide polymorphismTRDTransmission ratio distortion %U https://www.biorxiv.org/content/biorxiv/early/2021/06/10/2021.06.09.447720.full.pdf