Polygenic and major‐locus contributions to sexual maturation timing in Atlantic salmon

Debes, Paul V.; Piavchenko, Nikolai; Ruokolainen, Annukka; Ovaskainen, Outi; Moustakas-Verho, Jacqueline Emmanuel; Parre, Noora; Aykanat, Tutku; Erkinaro, Jaakko; Primmer, Craig R.

doi:10.1111/mec.16062

Cited by 58 publications

(127 citation statements)

References 87 publications

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“…which relates to higher condition, is also associated with increased migration activity while in males, the vgll3*L allele, which relates to lower condition, is associated with higher migration activity. Interestingly, body condition has been suggested to, at least partly, be a factor contributing to the detected vgll3 effects on maturation timing of male parr (Debes et al 2021). Our results add more evidence supporting the notion that vgll3 effects on trait expression might be mediated by body condition, although more research on the topic is needed.…”

Section: Potential Mechanisms Explaining Variation In Migration Activity Linked To Vgll3supporting

confidence: 65%

“…For example, in Atlantic salmon (Salmo salar), variation in a genome region including the vestigial-like family member 3 gene (vgll3) on chromosome 25 has been shown to explain a large proportion of variation in the sea-age at maturity in males and females (Barson et al 2015). Since vgll3 is involved in fat cell regulation (Halperin et al 2013), potentially controlling resource allocation between energy reserves and somatic growth, and its effects are at least partially phylogenetically conserved, it potentially contributes to moderating the expression of life-history strategies across species (Debes et al 2021). Indeed, vgll3 is associated with size, as well as age, at maturity in both salmon and humans (Cousminer et al 2013;Barson et al 2015).…”

Section: Introductionmentioning

confidence: 99%

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Life-history genotype explains variation in migration activity in Atlantic salmon (Salmo salar)

Niemelä

Klemme

Karvonen

et al. 2021

Preprint

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One of the most important life-history continuums is the fast-slow axis, where fast individuals mature earlier than slow individuals. Fast individuals are predicted to be more active than slow individuals; high activity is required to maintain a fast life-history strategy. Recent meta-analyses revealed mixed evidence for such integration. Here, we test whether known life-history genotypes differ in activity expression by using Atlantic salmon (Salmo salar) as a model. In salmon, variation in Vgll3, a transcription co-factor, explains ~40% of variation in maturation timing. We predicted that the allele related to early maturation (vgll3*E) would be associated with increased activity. We used an automated surveillance system to follow ~1900 juveniles including both migrants and non-migrants (i.e. smolt and parr fish, respectively) in semi-natural conditions over 31 days (~580 000 activity measurements). Against our prediction, vgll3 did not explain variation in activity in pooled migrant and non-migrant data. However, in migrants, vgll3 explained variation in activity according to our prediction in a sex-dependent manner. Specifically, in females the vgll3*E allele was related to increasing activity, whereas in males the vgll3*L allele (later maturation allele) was related to increasing activity. These sex-dependent effects might be a mechanism maintaining within-population genetic life-history variation.

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Section: Potential Mechanisms Explaining Variation In Migration Activity Linked To Vgll3supporting

confidence: 65%

Section: Introductionmentioning

confidence: 99%

Life-history genotype explains variation in migration activity in Atlantic salmon (Salmo salar)

Niemelä

Klemme

Karvonen

et al. 2021

Preprint

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“…However, we did not detect any difference in either SMR or body condition between juvenile Atlantic salmon individuals of different homozygous vgll3 genotypes. The lack of difference in body condition might be related to body size or life-stage; the fish in the study by Debes et al (2021) were considerably more developmentally advanced, averaging 19 g, and had been reared for approximately 3100 degree days at stable daily temperatures with many of the males maturing the same autumn. In comparison, the fish in this study averaged just 1.08 g and had been reared at approximately 1900 degree days and also under a variable temperature regime, which could have further reduced growth (Imholt et al, 2011).…”

Section: Discussionmentioning

confidence: 98%

“…Vgll3 genotype has been shown to have a strong effect on salmon life-history (Ayllon et al, 2015;Barson et al, 2015;Verta et al, 2020), and recent findings have suggested that this effect might be mediated by vgll3-induced differences in body condition (Debes et al, 2021). Taking this together with the connections between standard metabolic rate (SMR) and resource acquisition and assimilation (Armstrong et al, 2011;Auer, Bassar, et al, 2020;Auer, Solowey, et al, 2020;Bochdansky et al, 2005;Millidine et al, 2009;Rosenfeld et al, 2015), we hypothesized that vgll3 genotype might be asserting some of its effects through changes in energetic physiology that would be reflected in SMR.…”

Section: Discussionmentioning

confidence: 99%

“…Taking studies of this gene to the lab, examining body condition and maturation probability in a common garden setting, Debes et al (2021) found that the vgll3*E allele associated with a higher body condition in males and females (but not body length), as well as a higher probability of male maturation in the first autumn after hatching. Interestingly, Debes et al (2021) also showed that maturation probability in males could be predicted using the body condition of their sisters (all immature), demonstrating a connection between vgll3 and body condition that is not caused by the enlarging gonads in maturing individuals. Additionally, expression of vgll3 has been linked with activation of the intracellular HIPPO signalling pathway, suggesting a role in inhibiting gonad development and promoting adipocyte differentiation (Kjaerner-Semb et al, 2018;Kurko et al, 2020;Verta et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Standard metabolic rate does not associate with age-at-maturity genotype in juvenile Atlantic salmon

Åsheim

Prokkola

Morozov

et al. 2021

Preprint

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Atlantic salmon (Salmo salar) is a species with diverse life-history strategies, to which the timing of maturation contributes considerably. Recently, the genome region including the gene vgll3 has gained attention as a locus with a large effect on salmon maturation timing, and recent studies on the vgll3 locus in salmon have indicated that its effect might be mediated through body condition and accumulation of adipose tissue. However, the cellular and physiological pathways leading from vgll3 genotype to phenotype are still unknown. Standard metabolic rate is a potentially important trait for resource acquisition and assimilation and we hypothesized that this trait, being a proxy for the maintenance energy expenditure of an individual, could be an important link in the pathway from vgll3 genotype to maturation-timing phenotype. As a first step to studying links between vgll3 and the metabolic phenotype of Atlantic salmon, we measured the standard metabolic rate of 150 first year Atlantic salmon juveniles of both sexes, originating from 14 different families with either late maturing or early maturing vgll3 genotypes. No significant difference in mass-adjusted standard metabolic rate was detected between individuals with different vgll3 genotypes, indicating that juvenile salmon of different vgll3 genotypes have similar maintenance energy requirements in the experimental conditions used and that the effects of vgll3 on body condition and maturation are not strongly related to maintenance energy expenditure in either sex at this life stage.

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Investigating the role of genetic variation in vgll3 and six6 in the domestication of gilthead seabream (Sparus aurata Linnaeus) and European seabass (Dicentrarchus labrax Linnaeus)

Moulistanos,

Nikolaou,

Sismanoglou

et al. 2023

Ecology and Evolution

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Gene function conservation is crucial in molecular ecology, especially for key traits like growth and maturation in teleost fish. The vgll3 and six6 genes are known to influence age‐at‐maturity in Atlantic salmon, but their impact on other fish species is poorly understood. Here, we investigated the association of vgll3 and six6 in the domestication of gilthead seabream and European seabass, both undergoing selective breeding for growth‐related traits in the Mediterranean. We analysed two different sets of samples using two different genotyping approaches. The first dataset comprised farmed and wild populations from Greece, genotyped for SNPs within the two genes (‘gene‐level genotyping’). The second dataset examined 300–600 k SNPs located in the chromosomes of the two genes, derived from a meta‐analysis of a Pool‐Seq experiment involving farmed and wild populations distributed widely across the Mediterranean (‘chromosome‐level genotyping’). The gene‐level analysis revealed a statistically significant allele frequency differences between farmed and wild populations on both genes in each species. This finding was partially supported by the chromosome‐level analysis, identifying highly differentiated regions may be involved in the domestication process at varying distances from the candidate genes. Noteworthy genomic features were found, such as a CpG island in gilthead seabream and novel candidate genes in European seabass, warranting further investigation. These findings support a putative role of vgll3 and six6 in the maturation and growth of gilthead seabream and European seabass, emphasizing the need for further research on their conserved function.

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Polygenic and major‐locus contributions to sexual maturation timing in Atlantic salmon

Cited by 58 publications

References 87 publications

Life-history genotype explains variation in migration activity in Atlantic salmon (Salmo salar)

Life-history genotype explains variation in migration activity in Atlantic salmon (Salmo salar)

Standard metabolic rate does not associate with age-at-maturity genotype in juvenile Atlantic salmon

Investigating the role of genetic variation in vgll3 and six6 in the domestication of gilthead seabream (Sparus aurata Linnaeus) and European seabass (Dicentrarchus labrax Linnaeus)

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