Chromosome aberrations in pressure-induced triploid Atlantic salmon

Glover, Kevin A.; Harvey, Alison C.; Hansen, Tom; Fjelldal, Per Gunnar; Besnier, François; Bos, J. B.; Ayllón, Fernando; Taggart, John B.; Solberg, Monica Favnebøe

doi:10.1186/s12863-020-00864-0

Cited by 16 publications

(23 citation statements)

References 86 publications

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“…Over the past decade, we have conducted a number of pedigree-controlled studies on a multiple-generation experimental population of domesticated and wild Atlantic salmon and their crosses at the aquaculture facility owned by the Institute of Marine Research located in Matre, western Norway ( Solberg et al, 2013 , 2014 ; Ayllon et al, 2015 ; Harvey et al, 2016 , 2018 ; Glover et al, 2018 , 2020 ; Perry et al, 2019 ; Besnier et al, 2020 ). The reader is directed to these publications for full details regarding the standard rearing conditions experienced in this fish farm.…”

Section: Methodsmentioning

confidence: 99%

Autosomal sdY Pseudogenes Explain Discordances Between Phenotypic Sex and DNA Marker for Sex Identification in Atlantic Salmon

et al. 2020

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Despite the key role that sex-determination plays in evolutionary processes, it is still poorly understood in many species. In salmonids, which are among the best studied fishes, the master sex-determining gene sexually dimorphic on the Y-chromosome ( sdY ) has been identified. However, sdY displays unexplained discordance to the phenotypic sex, with a variable frequency of phenotypic females being reported as genetic males. Multiple sex determining loci in Atlantic salmon have also been reported, possibly as a result of recent transposition events in this species. We hypothesized the existence of an autosomal copy of sdY , causing apparent discordance between phenotypic and genetic sex, that is transmitted in accordance with autosomal inheritance. To test this, we developed a qPCR methodology to detect the total number of sdY copies present in the genome. Based on the observed phenotype/genotype frequencies and linkage analysis among 2,025 offspring from 64 pedigree-controlled families of accurately phenotyped Atlantic salmon, we identified both males and females carrying one or two autosomal copies of sdY in addition to the Y-specific copy present in males. Patterns across families were highly consistent with autosomal inheritance. These autosomal sdY copies appear to have lost the ability to function as a sex determining gene and were only occasionally assigned to the actual sex chromosome in any of the affected families.

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Section: Methodsmentioning

confidence: 99%

Autosomal sdY Pseudogenes Explain Discordances Between Phenotypic Sex and DNA Marker for Sex Identification in Atlantic Salmon

et al. 2020

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“…In diploid Atlantic salmon, reduced hypo-osmoregulatory ability during transfer to seawater creates loser fish, but these individuals survive up to harvest size, often retaining normal growth rates and condition factors after a period in seawater (unpublished personal results). Recently, Glover et al (2020) reported that triploid salmon display chromosomal aberrations. If the triploid loser fish phenomenon is related to osmoregulatory dysfunction, infections and/or genetic aberrations need to be further investigated to fully understand the suitability of triploid salmon in commercial aquaculture…”

Section: Discussionmentioning

confidence: 99%

A comparison of triploid and diploid Atlantic salmon (Salmo salar) performance and welfare under commercial farming conditions in Norway

Madaro

Kjøglum

Hansen

et al. 2021

Journal of Applied Aquaculture

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Avoiding genetic interactions between wild and farmed Atlantic salmon is regarded as one of the major requirements for a sustainable salmon aquaculture industry. For this reason, farming functional sterile triploids has been suggested as a possible solution. However, knowledge about how triploids cope under commercial conditions is lacking. In the present study, we compared the performance of diploid and triploid Atlantic salmon among four Norwegian aquaculture companies. Diploid and triploid groups of the same genetic line were farmed in western, mid, and northern Norway under commercial conditions from seawater transfer until slaughter.Overall, triploid salmon exhibited reduced survival, higher incidence of emaciated fish, and scored, on average, a lower quality rating during primary processing. The results highlight the need for further research on how to improve the welfare and performance of triploid salmon in commercial aquaculture operations.

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“…While triploid embryos do produce a peak nuclear volume approximately 50% larger than that of diploids (as expected), the values are not normally distributed, extending into and below the modal volume of diploid embryos. This may reflect some degree of aneuploidy; indeed, recent work has demonstrated a high frequency of chromosomal aberrations in pressure‐induced triploid Atlantic salmon especially in cases when the rate of triploid induction is low (Glover et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Early, nonlethal ploidy and genome size quantification using confocal microscopy in zebrafish embryos

et al. 2021

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Ploidy transitions through whole genome duplication have shaped evolution by allowing the sub‐ and neo‐functionalization of redundant copies of highly conserved genes to express novel traits. The nuclear:cytoplasmic (n:c) ratio is maintained in polyploid vertebrates resulting in larger cells, but body size is maintained by a concomitant reduction in cell number. Ploidy can be manipulated easily in most teleosts, and the zebrafish, already well established as a model system for biomedical research, is therefore an excellent system in which to study the effects of increased cell size and reduced cell numbers in polyploids on development and physiology. Here we describe a novel technique using confocal microscopy to measure genome size and determine ploidy non‐lethally at 48 h post‐fertilization (hpf) in transgenic zebrafish expressing fluorescent histones. Volumetric analysis of myofiber nuclei using open‐source software can reliably distinguish diploids and triploids from a mixed‐ploidy pool of embryos for subsequent experimentation. We present an example of this by comparing heart rate between confirmed diploid and triploid embryos at 54 hpf.

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Chromosome aberrations in pressure-induced triploid Atlantic salmon

Cited by 16 publications

References 86 publications

Autosomal sdY Pseudogenes Explain Discordances Between Phenotypic Sex and DNA Marker for Sex Identification in Atlantic Salmon

Autosomal sdY Pseudogenes Explain Discordances Between Phenotypic Sex and DNA Marker for Sex Identification in Atlantic Salmon

A comparison of triploid and diploid Atlantic salmon (Salmo salar) performance and welfare under commercial farming conditions in Norway

Early, nonlethal ploidy and genome size quantification using confocal microscopy in zebrafish embryos

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