Cold adaptation drives population genomic divergence in the ecological specialist,<i>Drosophila montana</i>

Wiberg, R. Axel W.; Tyukmaeva, Venera; Hoikkala, Anneli; Ritchie, Michael G.; Kankare, Maaria

doi:10.1101/2020.04.20.050450

Cited by 9 publications

(17 citation statements)

References 92 publications

(138 reference statements)

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“…Latitudinal variation in CCRT, but not in CTmin, has also been observed in two widespread ant species, Myrmica rubra and Myrmica ruginodis [29]. Although it is possible that the low variation in cold tolerance in our study is a consequence of relatively low number of studied strains or populations, a recent study found similar trends when using mass-bred D. montana populations for a limited number of places from North America [89].…”

Section: Effects Of Latitude and Bioclimatic Variables On Fly Cold Tolerance Vary Even Between Closely-related Speciessupporting

confidence: 72%

“…The candidate gene D. virilis species group shows several distinct features in their circadian clock system compared to D. melanogaster, which has enabled their adaptation in high-latitudes [72][73][74]. Interestingly, vrille was the only core circadian clock gene that was found to show both population-level differentiation in clinal cold tolerance study [89] as well as expression level differences when cold-acclimated and non-acclimated D. montana flies were compared [77]. This gene was also one of the differentially expressed genes in our earlier microarray study investigating cold tolerance of D. montana and D. virilis [65].…”

Section: Investigating Circadian Clock Gene Vrille and Its Effects On Fly Cold Tolerance Using Sequence Variation And Rna Interference (Rmentioning

confidence: 99%

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Multiple paths to cold tolerance: the role of environmental cues, morphological traits and the circadian clock genevrille

Poikela

Tyukmaeva

Hoikkala

et al. 2020

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20Identifying elements that enhance insect adaptation into changing environmental conditions is 21 challenging, especially for traits affected by multiple factors. We studied latitudinal variation 22 in the basal cold tolerance and body colour of two highly cold-tolerant Drosophila virilis group 23 species, D. montana and D. flavomontana, in climatically diverse locations in North America. 24 D. montana, which is generally found on higher latitudes and altitudes than D. flavomontana, 25 was darker and more cold-tolerant than D. flavomontana. In D. montana only fly cold tolerance 26 showed latitudinal variation, while in D. flavomontana both traits varied according to latitude 27 and local climatic conditions, but showed no correlation with each other. We also examined the 28 role of a circadian clock gene vrille and an insulin-signalling pathway gene Yolk protein 3 (Yp3) 29 in the basal cold tolerance and cold acclimation ability of D. montana females using RNA 30 interference. Silencing of vrille induced expression changes in the period, but not clock, and 31 decreased flies' basal cold tolerance and cold acclimation ability, while silencing of Yp3 32 affected only cold acclimation. Our study demonstrates that the dependence of insect cold 33 tolerance on latitudinally varying factors and local climatic conditions may vary even between 34 closely-related species. Furthermore, we propose that a functional circadian clock system plays 35 an essential role both in insect basal cold tolerance and cold acclimation ability, and that Yp3 36 affects cold acclimation likely through its interactions with other genes in the insulin-signalling 37 pathway. 38 39 40

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Section: Effects Of Latitude and Bioclimatic Variables On Fly Cold Tolerance Vary Even Between Closely-related Speciessupporting

confidence: 72%

Section: Investigating Circadian Clock Gene Vrille and Its Effects On Fly Cold Tolerance Using Sequence Variation And Rna Interference (Rmentioning

confidence: 99%

Multiple paths to cold tolerance: the role of environmental cues, morphological traits and the circadian clock genevrille

Poikela

Tyukmaeva

Hoikkala

et al. 2020

Preprint

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“…Insect species with a wide distribution offer a great opportunity to trace latitudinal variation in traits that are important in reproduction and stress tolerances, and particularly in the contribution of circadian clock(s) and/or PPTM in their regulation. Our study species, D. montana , shows steep latitudinal clines in CDL and its temperature-sensitivity ( Tyukmaeva et al, 2020 ), as well as in the flies’ basal cold tolerance ( Wiberg et al, 2020 ). In the present study, variation in the diapause proportions of D. montana cline strains, and the control and selection lines, in extra long and short photoperiods revealed many interesting aspects of PPTM related to our study questions.…”

Section: Discussionmentioning

confidence: 86%

Nanda-Hamner Curves Show Huge Latitudinal Variation but No Circadian Components in Drosophila Montana Photoperiodism

2021

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Insect species with a wide distribution offer a great opportunity to trace latitudinal variation in the photoperiodic regulation of traits important in reproduction and stress tolerances. We measured this variation in the photoperiodic time-measuring system underlying reproductive diapause in Drosophila montana, using a Nanda-Hamner (NH) protocol. None of the study strains showed diel rhythmicity in female diapause proportions under a constant day length (12 h) and varying night lengths in photoperiods ranging from 16 to 84 h at 16°C. In the northernmost strains (above 55°N), nearly all females entered diapause under all photoperiods and about half of them even in continuous darkness, while the females of the southern strains showed high diapause proportions only in the circadian 24 h photoperiod. Significant correlation between the strains’ mean diapause proportions in ≥ 24 h photoperiods and critical day length (CDL; half of the females enter diapause) suggests at least partial causal connection between the traits. Interestingly, females of the northern strains entered diapause even in ≤ 24 h photoperiods, where the night length was shorter than their critical night length (24 h - CDL), but where the females experienced a higher number of Light:Dark cycles than in 24 h photoperiods. NH experiments, performed on the control and selection lines in our previous selection experiment, and completed here, gave similar results and confirmed that selection for shorter, southern-type CDL decreases female diapausing rate in non-circadian photoperiods. Overall, our study shows that D. montana females measure night length quantitatively, that the photoperiodic counter may play a prominent but slightly different role in extra short and extra long photoperiods and that northern strains show high stability against perturbations in the photoperiod length and in the presence of LD cycles. These features are best explained by the quantitative versions of the damped external coincidence model.

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“…Also morphological differences, particularly in body pigmentation, have been documented in this group, though the evolutionary processes underpinning pigmentation differences is not yet well understood (Wittkopp et al 2002, Wittkopp et al 2002; Kulikov et al 2004; Bubliy et al 2007; Ahmed-Braimah and Sweigart 2015; Lamb et al 2020). Several species of the virilis group, especially those of the montana phylad, persist in extreme cold environments, and show high cold acclimation and diapause which may contribute to genomic divergence (Vesala et al 2012; Parker et al 2015, 2016; Salminen et al 2015; Tyukmaeva et al 2015; Wiberg et al 2021). Fixed and polymorphic chromosomal inversions have been reported within the group and may be driven by the activity and expansion of transposable elements, giving rise to regions of high differentiation between species and populations (Evgen’ev et al 2000; Fonseca et al 2013; Reis et al 2018).…”

Section: Introductionmentioning

confidence: 99%

Divergence and introgression among the virilis group of Drosophila

Yusuf

Tyukmaeva

Hoikkala

et al. 2022

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Speciation with gene flow is now widely regarded as common. However, the frequency of introgression between recently diverged species and the evolutionary consequences of gene flow are still poorly understood. The virilis group of Drosophila contains around a dozen species that are geographically widespread and show varying levels of pre-zygotic and post-zygotic isolation. Here, we utilize de novo genome assemblies and whole-genome sequencing data to resolve phylogenetic relationships and describe patterns of introgression and divergence across the group. We suggest that the virilis group consists of three, rather than the traditional two, subgroups. We found evidence of pervasive phylogenetic discordance caused by ancient introgression events between distant lineages within the group, and much more recent gene flow between closely-related species. When assessing patterns of genome-wide divergence in species pairs across the group, we found no consistent genomic evidence of a disproportionate role for the X chromosome. Some genes undergoing rapid sequence divergence across the group were involved in chemical communication and may be related to the evolution of sexual isolation. We suggest that gene flow between closely-related species has potentially had an impact on lineage-specific adaptation and the evolution of reproductive barriers. Our results show how ancient and recent introgression confuse phylogenetic reconstruction, and suggest that shared variation can facilitate adaptation and speciation.

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Cold adaptation drives population genomic divergence in the ecological specialist,Drosophila montana

Cited by 9 publications

References 92 publications

Multiple paths to cold tolerance: the role of environmental cues, morphological traits and the circadian clock genevrille

Multiple paths to cold tolerance: the role of environmental cues, morphological traits and the circadian clock genevrille

Nanda-Hamner Curves Show Huge Latitudinal Variation but No Circadian Components in Drosophila Montana Photoperiodism

Divergence and introgression among the virilis group of Drosophila

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