A chromosomal inversion contributes to divergence in multiple traits between deer mouse ecotypes

Hager, Emily R; Harringmeyer, Olivia S.; Wooldridge, T. Brock; Theingi, Shunn; Gable, Jacob T.; McFadden, Sade; Neugeboren, Beverly I.; Turner, Kyle M.; Jensen, Jeffrey D.; Hoekstra, Hopi E.

doi:10.1126/science.abg0718

Cited by 59 publications

(69 citation statements)

References 85 publications

(69 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We took advantage of previous work on two populations, representing forest and prairie deer mouse ecotypes (populations c and e, Fig. 4a), which are well characterized and widespread 20 . Forest and prairie mice show many pronounced phenotypic differences (for example, coat colour, tail length, foot length) despite ongoing gene flow.…”

Section: Multiple Inversions Contribute To Local Adaptationmentioning

confidence: 99%

“…Forest and prairie mice show many pronounced phenotypic differences (for example, coat colour, tail length, foot length) despite ongoing gene flow. We previously identified an inversion on chromosome 15 (inv15.0) that contributes to phenotypic divergence between these ecotypes 20 . Returning to this system, we found that multiple newly identified inversions were also major contributors to differentiation between these populations.…”

Section: Multiple Inversions Contribute To Local Adaptationmentioning

confidence: 99%

“…Here, we perform an unbiased genome-wide scan for inversion polymorphisms in the deer mouse, Peromyscus maniculatus. The deer mouse is the most abundant and widespread mammal in North America: it has large effective population sizes 20,21 and a range spanning all major terrestrial habitats, including dense forests and open prairies 22 . Early cytogenetic work in deer mice identified at least 13 visible chromosomal rearrangements 23,24 .…”

mentioning

confidence: 99%

See 2 more Smart Citations

Chromosomal inversion polymorphisms shape the genomic landscape of deer mice

Harringmeyer

Hoekstra

2022

Nat Ecol Evol

View full text Add to dashboard Cite

Chromosomal inversions are an important form of structural variation that can affect recombination, chromosome structure and fitness. However, because inversions can be challenging to detect, the prevalence and hence the significance of inversions segregating within species remains largely unknown, especially in natural populations of mammals. Here, by combining population-genomic and long-read sequencing analyses in a single, widespread species of deer mouse (Peromyscus maniculatus), we identified 21 polymorphic inversions that are large (1.5–43.8 Mb) and cause near-complete suppression of recombination when heterozygous (0–0.03 cM Mb−1). We found that inversion breakpoints frequently occur in centromeric and telomeric regions and are often flanked by long inverted repeats (0.5–50 kb), suggesting that they probably arose via ectopic recombination. By genotyping inversions in populations across the species’ range, we found that the inversions are often widespread and do not harbour deleterious mutational loads, and many are likely to be maintained as polymorphisms by divergent selection. Comparisons of forest and prairie ecotypes of deer mice revealed 13 inversions that contribute to differentiation between populations, of which five exhibit significant associations with traits implicated in local adaptation. Taken together, these results show that inversion polymorphisms have a significant impact on recombination, genome structure and genetic diversity in deer mice and likely facilitate local adaptation across the widespread range of this species.

show abstract

Section: Multiple Inversions Contribute To Local Adaptationmentioning

confidence: 99%

Section: Multiple Inversions Contribute To Local Adaptationmentioning

confidence: 99%

mentioning

confidence: 99%

See 1 more Smart Citation

Chromosomal inversion polymorphisms shape the genomic landscape of deer mice

Harringmeyer

Hoekstra

2022

Nat Ecol Evol

View full text Add to dashboard Cite

show abstract

“…Recent genome-scale studies have illuminated wide-ranging impacts of supergene evolution on complex phenotypes across diverse taxa (e.g. Schwander et al, 2014 ; Pearse et al, 2019 ; Hager et al, 2022 ; Joron et al, 2011 ; Kunte et al, 2014 ; Kess et al, 2019 ; Lundberg et al, 2017 ; Roberts et al, 2009 ; Sanchez-Donoso et al, 2022 ; Funk et al, 2021 ). Currently, the mechanisms by which functionally divergent supergene haplotypes evolve in the face of multiple evolutionary forces remain poorly understood, presenting a critical gap in knowledge.…”

Section: Introductionmentioning

confidence: 99%

Dynamic molecular evolution of a supergene with suppressed recombination in white-throated sparrows

Jeong

Baran

Sun

et al. 2022

eLife

View full text Add to dashboard Cite

In white-throated sparrows, two alternative morphs differing in plumage and behavior segregate with a large chromosomal rearrangement. As with sex chromosomes such as the mammalian Y, the rearranged version of chromosome two (ZAL2m) is in a near-constant state of heterozygosity, offering opportunities to investigate both degenerative and selective processes during the early evolutionary stages of ‘supergenes.’ Here, we generated, synthesized, and analyzed extensive genome-scale data to better understand the forces shaping the evolution of the ZAL2 and ZAL2m chromosomes in this species. We found that features of ZAL2m are consistent with substantially reduced recombination and low levels of degeneration. We also found evidence that selective sweeps took place both on ZAL2m and its standard counterpart, ZAL2, after the rearrangement event. Signatures of positive selection were associated with allelic bias in gene expression, suggesting that antagonistic selection has operated on gene regulation. Finally, we discovered a region exhibiting long-range haplotypes inside the rearrangement on ZAL2m. These haplotypes appear to have been maintained by balancing selection, retaining genetic diversity within the supergene. Together, our analyses illuminate mechanisms contributing to the evolution of a young chromosomal polymorphism, revealing complex selective processes acting concurrently with genetic degeneration to drive the evolution of supergenes.

show abstract

“…For example, loci that are locally adaptive can benefit from inversions since they can be co-inherited as an adaptive multi-loci haplotype and protected from recombination with non-adaptive alleles (Kirkpatrick and Barton 2006). Numerous non-model systems have been observed to have inversions with adaptive significance: sunflower (Todesco et al 2020), monkeyflower (Lowry and Willis 2010), rainbow trout (Leitwein et al 2017), Atlantic cod (Barth et al 2017; Sodeland et al 2022), stickleback (Jones et al 2012), deer mice (Hager et al 2022; Harringmeyer and Hoekstra 2022).…”

Section: Introductionmentioning

confidence: 99%

The rate of inversion fixation in plant genomes is highly variable

Hirabayashi

Owens

2022

Preprint

View full text Add to dashboard Cite

Chromosomal inversions are theorized to play an important role in adaptation by preventing recombination, but testing this hypothesis requires an understanding of the rate of inversion fixation. Here we use chromosome-level whole genome assemblies for 32 genera of plants to ask how fast inversions accumulate and what factors affect this rate. We find that on average species accumulate 4 to 28 inversions per million generations, but this rate is highly variable, and we find no correlation between sequence divergence or repeat content and the number of inversions and only a small correlation with chromosome size. We also find that inversion regions are depleted for genes and enriched for TEs compared to the genomic background. This suggests that idiosyncratic forces, like natural selection and demography, are controlling how fast inversions fix.

show abstract

A chromosomal inversion contributes to divergence in multiple traits between deer mouse ecotypes

Cited by 59 publications

References 85 publications

Chromosomal inversion polymorphisms shape the genomic landscape of deer mice

Chromosomal inversion polymorphisms shape the genomic landscape of deer mice

Dynamic molecular evolution of a supergene with suppressed recombination in white-throated sparrows

The rate of inversion fixation in plant genomes is highly variable

Contact Info

Product

Resources

About