scholarly journals Mechanisms of transmission ratio distortion at hybrid sterility loci within and between Mimulus species

2017 ◽  
Author(s):  
Rachel E. Kerwin ◽  
Andrea L. Sweigart
Keyword(s):  
Male Sterility ◽  
Native Species ◽  
Hybrid Sterility ◽  
Transmission Ratio Distortion ◽  
Transmission Ratio ◽  
Hybrid Male ◽  
Hybrid Male Sterility ◽  
Hybrid Incompatibility ◽  
Hybrid Transmission ◽  
Ratio Distortion

ABSTRACTHybrid incompatibilities are a common correlate of genomic divergence and a potentially important contributor to reproductive isolation. However, we do not yet have a detailed understanding of how hybrid incompatibility loci function and evolve within their native species, or why they are dysfunctional in hybrids. Here, we explore these issues for a well-studied, two-locus hybrid incompatibility between hybrid male sterility 1 (hms1) and hybrid male sterility 2 (hms2) in the closely related yellow monkeyflower species Mimulus guttatus and M. nasutus. By performing reciprocal backcrosses with introgression lines, we find evidence for gametic expression of the hms1-hms2 incompatibility. Surprisingly, however, hybrid transmission ratios at hms1 do not reflect this incompatibility, suggesting additional mechanisms counteract the effects of gametic sterility. Indeed, our backcross experiment shows hybrid transmission bias toward M. guttatus through both pollen and ovules, an effect that is particularly strong when hms2 is homozygous for M. nasutus alleles. In contrast, we find little evidence for hms1 transmission bias in crosses within M. guttatus, providing no indication of selfish evolution at this locus. Although we do not yet have sufficient genetic resolution to determine if hybrid sterility and transmission ratio distortion map to the same loci, our preliminary fine-mapping uncovers a genetically independent hybrid lethality system involving at least two loci linked to hms1. This fine-scale dissection of transmission ratio distortion at hms1 and hms2 provides insight into genomic differentiation between closely related Mimulus species and reveals multiple mechanisms of hybrid dysfunction.

scholarly journals The role of meiotic drive in hybrid male sterility

2010 ◽  
Vol 365 (1544) ◽  
pp. 1265-1272 ◽  
Author(s):  
Shannon R. McDermott ◽  
Mohamed A. F. Noor
Keyword(s):  
Male Sterility ◽  
Hybrid Sterility ◽  
Meiotic Drive ◽  
Mechanistic Explanation ◽  
Hybrid Progeny ◽  
Hybrid Male ◽  
Hybrid Male Sterility ◽  
Species Formation ◽  
Allelic Segregation

Meiotic drive causes the distortion of allelic segregation away from Mendelian expected ratios, often also reducing fecundity and favouring the evolution of drive suppressors. If different species evolve distinct drive-suppressor systems, then hybrid progeny may be sterile as a result of negative interactions of these systems' components. Although the hypothesis that meiotic drive may contribute to hybrid sterility, and thus species formation, fell out of favour early in the 1990s, recent results showing an association between drive and sterility have resurrected this previously controversial idea. Here, we review the different forms of meiotic drive and their possible roles in speciation. We discuss the recent empirical evidence for a link between drive and hybrid male sterility, also suggesting a possible mechanistic explanation for this link in the context of chromatin remodelling. Finally, we revisit the population genetics of drive that allow it to contribute to speciation.

scholarly journals Hybrid Sterility, Genetic Conflict and Complex Speciation: Lessons From the Drosophila simulans Clade Species

2021 ◽  
Vol 12 ◽  
Author(s):  
Daven C. Presgraves ◽  
Colin D. Meiklejohn
Keyword(s):  
Gene Flow ◽  
Male Sterility ◽  
Hybrid Sterility ◽  
Model Organism ◽  
Drosophila Simulans ◽  
Special Role ◽  
Hybrid Male ◽  
Hybrid Male Sterility ◽  
Genetic Conflict ◽  
Modern Evolutionary Synthesis

The three fruitfly species of the Drosophila simulans clade— D. simulans, D. mauritiana, and D. sechellia— have served as important models in speciation genetics for over 40 years. These species are reproductively isolated by geography, ecology, sexual signals, postmating-prezygotic interactions, and postzygotic genetic incompatibilities. All pairwise crosses between these species conform to Haldane’s rule, producing fertile F1 hybrid females and sterile F1 hybrid males. The close phylogenetic proximity of the D. simulans clade species to the model organism, D. melanogaster, has empowered genetic analyses of their species differences, including reproductive incompatibilities. But perhaps no phenotype has been subject to more continuous and intensive genetic scrutiny than hybrid male sterility. Here we review the history, progress, and current state of our understanding of hybrid male sterility among the D. simulans clade species. Our aim is to integrate the available information from experimental and population genetics analyses bearing on the causes and consequences of hybrid male sterility. We highlight numerous conclusions that have emerged as well as issues that remain unresolved. We focus on the special role of sex chromosomes, the fine-scale genetic architecture of hybrid male sterility, and the history of gene flow between species. The biggest surprises to emerge from this work are that (i) genetic conflicts may be an important general force in the evolution of hybrid incompatibility, (ii) hybrid male sterility is polygenic with contributions of complex epistasis, and (iii) speciation, even among these geographically allopatric taxa, has involved the interplay of gene flow, negative selection, and positive selection. These three conclusions are marked departures from the classical views of speciation that emerged from the modern evolutionary synthesis.

scholarly journals Deletion analysis of male sterility effects of t–haplotypes in the mouse

1990 ◽  
Vol 56 (2-3) ◽  
pp. 179-183 ◽  
Author(s):  
Dorothea Bennett ◽  
Karen Artzt
Keyword(s):  
Male Sterility ◽  
Deletion Analysis ◽  
Transmission Ratio Distortion ◽  
Chromosome 17 ◽  
Transmission Ratio ◽  
Wild Type ◽  
Ratio Distortion ◽  
Very High

SummaryWe present data on the effects of three chromosome 17 deletions on transmission ratio distortion (TRD) and sterility of several t-haplotypes. All three deletions have similar effects on male TRD: that is, Tdel/tcomplete genotypes all transmit their t–haplotype in very high proportion. However, each deletion has different effects on sterility of heterozygous males, with Tor/t being fertile, Thp/t less fertile, and Torl/t still less fertile. These data suggest that wild-type genes on chromosomes homologous to f-haplotypes can be important regulators of both TRD and fertility in males, and that the wild-type genes concerned with TRD and fertility are at least to some extent different. The data also provide a rough map of the positions of these genes.

scholarly journals Selfish evolution of cytonuclear hybrid incompatibility in Mimulus

2016 ◽  
Vol 283 (1838) ◽  
pp. 20161493 ◽  
Author(s):  
Andrea L. Case ◽  
Findley R. Finseth ◽  
Camille M. Barr ◽  
Lila Fishman
Keyword(s):  
Male Sterility ◽  
Population Genetic ◽  
Hybrid Male ◽  
Hybrid Male Sterility ◽  
Hybrid Incompatibility ◽  
Local Selection ◽  
Distinct Haplotype ◽  
Theoretical Predictions ◽  
Population Genetic Variation ◽  
Neutral Models

Intraspecific coevolution between selfish elements and suppressors may promote interspecific hybrid incompatibility, but evidence of this process is rare. Here, we use genomic data to test alternative models for the evolution of cytonuclear hybrid male sterility in Mimulus . In hybrids between Iron Mountain (IM) Mimulus guttatus × Mimulus nasutus , two tightly linked M. guttatus alleles ( Rf 1 /Rf 2) each restore male fertility by suppressing a local mitochondrial male-sterility gene (IM-CMS). Unlike neutral models for the evolution of hybrid incompatibility loci, selfish evolution predicts that the Rf alleles experienced strong selection in the presence of IM-CMS. Using whole-genome sequences, we compared patterns of population-genetic variation in Rf at IM to a neighbouring population that lacks IM-CMS. Consistent with local selection in the presence of IM-CMS, the Rf region shows elevated F ST , high local linkage disequilibrium and a distinct haplotype structure at IM, but not at Cone Peak (CP), suggesting a recent sweep in the presence of IM-CMS. In both populations, Rf 2 exhibited lower polymorphism than other regions, but the low-diversity outliers were different between CP and IM. Our results confirm theoretical predictions of ubiquitous cytonuclear conflict in plants and provide a population-genetic mechanism for the evolution of a common form of hybrid incompatibility.

scholarly journals Rampant Misexpression in a Mimulus (Monkeyflower) Introgression Line Caused by Hybrid Sterility, Not Regulatory Divergence

2020 ◽  
Vol 37 (7) ◽  
pp. 2084-2098 ◽  
Author(s):  
Rachel E Kerwin ◽  
Andrea L Sweigart
Keyword(s):  
Male Sterility ◽  
Gene Expression Regulation ◽  
Hybrid Sterility ◽  
Introgression Line ◽  
Transcript Abundance ◽  
Stabilizing Selection ◽  
Hybrid Male ◽  
Specific Expression ◽  
Hybrid Male Sterility ◽  
Genome Wide

Abstract Divergence in gene expression regulation is common between closely related species and may give rise to incompatibilities in their hybrid progeny. In this study, we investigated the relationship between regulatory evolution within species and reproductive isolation between species. We focused on a well-studied case of hybrid sterility between two closely related yellow monkeyflower species, Mimulus guttatus and Mimulus nasutus, that is caused by two epistatic loci, hybrid male sterility 1 (hms1) and hybrid male sterility 2 (hms2). We compared genome-wide transcript abundance across male and female reproductive tissues (i.e., stamens and carpels) from four genotypes: M. guttatus, M. nasutus, and sterile and fertile progeny from an advanced M. nasutus–M. guttatus introgression line carrying the hms1–hms2 incompatibility. We observed substantial variation in transcript abundance between M. guttatus and M. nasutus, including distinct but overlapping patterns of tissue-biased expression, providing evidence for regulatory divergence between these species. We also found rampant genome-wide misexpression, but only in the affected tissues (i.e., stamens) of sterile introgression hybrids carrying incompatible alleles at hms1 and hms2. Examining patterns of allele-specific expression in sterile and fertile introgression hybrids, we found evidence for interspecific divergence in cis- and trans-regulation, including compensatory cis–trans mutations likely to be driven by stabilizing selection. Nevertheless, species divergence in gene regulatory networks cannot explain the vast majority of the gene misexpression we observe in Mimulus introgression hybrids, which instead likely manifests as a downstream consequence of sterility itself.

scholarly journals Genetics of hybrid male sterility between drosophila sibling species: a complex web of epistasis is revealed in interspecific studies.

Genetics ◽  
1994 ◽  
Vol 138 (2) ◽  
pp. 329-341 ◽  
Author(s):  
M F Palopoli ◽  
C I Wu
Keyword(s):  
Male Sterility ◽  
X Chromosome ◽  
Functional Divergence ◽  
Hybrid Sterility ◽  
Sequence Divergence ◽  
Hybrid Male ◽  
Hybrid Male Sterility ◽  
Common Component ◽  
Drosophila Mauritiana ◽  
Linkage Relationships

Abstract To study the genetic differences responsible for the sterility of their male hybrids, we introgressed small segments of an X chromosome from Drosophila simulans into a pure Drosophila mauritiana genetic background, then assessed the fertility of males carrying heterospecific introgressions of varying size. Although this analysis examined less than 20% of the X chromosome (roughly 5% of the euchromatic portion of the D. simulans genome), and the segments were introgressed in only one direction, a minimum of four factors that contribute to hybrid male sterility were revealed. At least two of the factors exhibited strong epistasis: males carrying either factor alone were consistently fertile, whereas males carrying both factors together were always sterile. Distinct spermatogenic phenotypes were observed for sterile introgressions of different lengths, and it appeared that an interaction between introgressed segments also influenced the stage of spermatogenic defect. Males with one category of introgression often produced large quantities of motile sperm and were observed copulating, but never inseminated females. Evidently these two species have diverged at a large number of loci which have varied effects on hybrid male fertility. By extrapolation, we estimate that there are at least 40 such loci on the X chromosome alone. Because these species exhibit little DNA-sequence divergence at arbitrarily chosen loci, it seems unlikely that the extensive functional divergence observed could be due mainly to random genetic drift. Significant epistasis between conspecific genes appears to be a common component of hybrid sterility between recently diverged species of Drosophila. The linkage relationships of interacting factors could shed light on the role played by epistatic selection in the dynamics of the allele substitutions responsible for reproductive barriers between species.

scholarly journals Mechanisms of Transmission Ratio Distortion at Hybrid Sterility Loci Within and BetweenMimulusSpecies

2017 ◽  
Vol 7 (11) ◽  
pp. 3719-3730 ◽  
Author(s):  
Rachel E. Kerwin ◽  
Andrea L. Sweigart
Keyword(s):  
Hybrid Sterility ◽  
Transmission Ratio Distortion ◽  
Transmission Ratio ◽  
Ratio Distortion
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