Divergence in Expression of Candidate Genes for the Smoltification Process Between Juvenile Resident Rainbow and Anadromous Steelhead Trout

Hecht, Benjamin C.; Valle, Madeline E.; Thrower, Frank P.; Nichols, Krista M.

doi:10.1007/s10126-014-9579-7

Cited by 16 publications

(16 citation statements)

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“…Although it is difficult to know whether the genetic correlations and overlapping QTL represent the pleiotropic effect or close linkage of genes ( Flint and Mackay 2009 ; Stearns 2010 ), the close genetic relationship between many of these traits and the distribution of QTL suggest evolutionary forces acting on a single trait will be constrained, or correlated phenotypic responses to selection would be anticipated. Furthermore, analysis in this extended population provides additional support for the potential pleiotropic nature of QTL on Omy12 and Omy14 found in Hecht et al (2012) , and that these regions deserve further inquiry to identify potential candidate genes of the migratory life history within this population ( Hecht et al 2014 ).…”

Section: Discussionmentioning

confidence: 67%

Quantitative Genetics of Migration-Related Traits in Rainbow and Steelhead Trout

Hecht

Hard

Thrower

et al. 2015

G3 Genes|Genomes|Genetics

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Rainbow trout (Oncorhynchus mykiss) exhibit remarkable life history diversity throughout their native range, and among the most evident is variation in migratory propensity. Although some populations and ecotypes will remain resident in freshwater habitats throughout their life history, others have the ability to undertake tremendous marine migrations. Those that migrate undergo a suite of behavioral, morphological, and physiological adaptations in a process called smoltification. We describe a quantitative genetic analysis of 22 growth, size, and morphological traits in addition to overall life history classification (resident or migrant) over the temporal process of smoltification in a large multi-generation experimental pedigree (n = 16,139) of migratory and resident rainbow trout derived from a wild population, which naturally segregates for migratory propensity. We identify significant additive genetic variance and covariance among the suite of traits that make up a component of the migratory syndrome in this species. Additionally, we identify high heritability estimates for the life history classifications and observe a strong negative genetic correlation between the migratory and resident life history trajectories. Given the large heritability estimates of all of the traits that segregate between migratory and resident rainbow trout, we conclude that these traits can respond to selection. However, given the high degree of genetic correlation between these traits, they do not evolve in isolation, but rather as a suite of coordinated characters in a predictable manner.

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Section: Discussionmentioning

confidence: 67%

Quantitative Genetics of Migration-Related Traits in Rainbow and Steelhead Trout

Hecht

Hard

Thrower

et al. 2015

G3 Genes|Genomes|Genetics

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“…; Hecht et al . ). However, as stated, these studies sampled individuals that had already undergone smoltification.…”

Section: Introductionmentioning

confidence: 97%

“…Thus, it is rare for these types of studies to detect the causal gene influencing traits of interest. Finally, expression-based approaches such as qPCR (Amstutz et al 2006;Aykanat et al 2011;Hecht et al 2014), microarray analysis (Giger et al 2008;Nolte et al 2009;Robertson & McCormick 2012;Sutherland et al 2014) and gene network analysis (Filteau et al 2013) have demonstrated differential gene expression between fish with different life histories. Combining approaches of gene expression and mapping provides an efficient means to identify candidate genes involved in life history by identifying differentially expressed genes in genomic regions previously associated with life history variation (Liu et al 2001;Cox et al 2002;Wayne & McIntyre 2002;Tabakoff et al 2003;Xu et al 2011;Poelstra et al 2014).…”

Section: Introductionmentioning

confidence: 99%

“…The two populations differ in life history type but share a recent co-ancestry . There is a strong genetic basis for life history variation in these two populations, including a high heritability for life history type , SNPs associated with life history (Hecht et al 2012;Hale et al 2013) and differential candidate gene expression at the timing of migration (Aykanat et al 2011;Hecht et al 2014). However, as stated, these studies sampled individuals that had already undergone smoltification.…”

Section: Introductionmentioning

confidence: 99%

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Ontogenetic changes in embryonic and brain gene expression in progeny produced from migratory and residentOncorhynchus mykiss

et al. 2015

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Little information has been gathered regarding the ontogenetic changes that contribute to differentiation between resident and migrant individuals, particularly before the onset of gross morphological and physiological changes in migratory individuals. The aim of this study was to evaluate gene expression during early development in Oncorhynchus mykiss populations with different life histories, in a tissue known to integrate environmental cues to regulate complex developmental processes and behaviours. We sampled offspring produced from migrant and resident parents, collecting whole embryos prior to the beginning of first feeding, and brain tissue at three additional time points over the first year of development. RNA sequencing for 32 individuals generated a reference transcriptome of 30 177 genes that passed count thresholds. Differential gene expression between migrant and resident offspring was observed for 1982 genes. The greatest number of differentially expressed genes occurred at 8 months of age, in the spring a full year before the obvious physiological transformation from stream-dwelling parr to sea water-adaptable smolts begins for migrant individuals. Sex and age exhibited considerable effects on differential gene expression between migrants and resident offspring. Differential gene expression was observed in genes previously associated with migration, but also in genes previously unassociated with early life history divergence. Pathway analysis revealed coordinated differential expression in genes related to phototransduction, which could modulate photoperiod responsiveness and variation in circadian rhythms. The role for early differentiation in light sensitivity and biological rhythms is particularly intriguing in understanding early brain processes involved in differentiation of migratory and resident life history types.

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“…However, in the last two decades, and especially after the publication of the Atlantic salmon (Salmo salar) and rainbow trout (Oncorhynchus mykiss) genomes [18,19], an increasing number of DNA and RNA-based studies have been published on smoltification. Findings include gene expression changes after seawater transfer [20][21][22], epigenetic modifications [23], quantitative trait loci [24], and gene expression patterns [25][26][27] associated with the likelihood of steelhead trout to migrate to seawater. At the protein level, studies are restricted to targeted, top-down studies of key protein hormones such as insulin, insulin-like growth factor 1 (IGF-I), growth hormone (GH) and their receptors [8,28,29].…”

Section: Introductionmentioning

confidence: 99%

Plasma proteome profiling of freshwater and seawater life stages of rainbow trout (Oncorhynchus mykiss)

et al. 2020

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The sea-run phenotype of rainbow trout (Oncorhynchus mykiss), like other anadromous salmonids, present a juvenile stage fully adapted to life in freshwater known as parr. Development in freshwater is followed by the smolt stage, where preadaptations needed for seawater life are developed making fish ready to migrate to the ocean, after which event they become post-smolts. While these three life stages have been studied using a variety of approaches, proteomics has never been used for such purpose. The present study characterised the blood plasma proteome of parr, smolt and post-smolt rainbow trout using a gel electrophoresis liquid chromatography tandem mass spectrometry approach alone or in combination with low-abundant protein enrichment technology (combinatorial peptide ligand library). In total, 1,822 proteins were quantified, 17.95% of them being detected only in plasma post enrichment. Across all life stages, the most abundant proteins were ankyrin-2, DNA primase large subunit, actin, serum albumin, apolipoproteins, hemoglobin subunits, hemopexin-like proteins and complement C3. When comparing the different life stages, 17 proteins involved in mechanisms to cope with hyperosmotic stress and retinal changes, as well as the downregulation of nonessential processes in smolts, were significantly different between parr and smolt samples. On the other hand, 11 proteins related to increased growth in post-smolts, and also related to coping with hyperosmotic stress and to retinal changes, were significantly different between smolt and post-smolt samples. Overall, this study presents a series of proteins with the potential to complement current seawater-readiness assessment tests in rainbow trout, which can be measured non-lethally in an easily accessible biofluid. Furthermore, this study represents a first in-depth characterisation of the rainbow trout blood plasma proteome, having considered three life stages of the fish and used both fractionation alone or in combination with enrichment methods to increase protein detection. PLOS ONE | https://doi.org/10.1371/journal.pone.0227003 January 3, 2020 1 / 23 OPEN ACCESS Citation: Morro B, Doherty MK, Balseiro P, Handeland SO, MacKenzie S, Sveier H, et al. (2020) Plasma proteome profiling of freshwater and seawater life stages of rainbow trout (Oncorhynchus mykiss). PLoS ONE 15(1): e0227003. https://doi.org/10.

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Divergence in Expression of Candidate Genes for the Smoltification Process Between Juvenile Resident Rainbow and Anadromous Steelhead Trout

Cited by 16 publications

References 90 publications

Quantitative Genetics of Migration-Related Traits in Rainbow and Steelhead Trout

Quantitative Genetics of Migration-Related Traits in Rainbow and Steelhead Trout

Ontogenetic changes in embryonic and brain gene expression in progeny produced from migratory and residentOncorhynchus mykiss

Plasma proteome profiling of freshwater and seawater life stages of rainbow trout (Oncorhynchus mykiss)

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