Genome wide association and genomic prediction for growth traits in juvenile farmed Atlantic salmon using a high density SNP array

Tsai, Hsin-Yuan; Hamilton, Alastair; Tinch, A. E.; Guy, D. R.; Gharbi, Karim; Stear, M. J.; Matika, Oswald; Bishop, S.C.; Houston, Ross D.

doi:10.1186/s12864-015-2117-9

Cited by 208 publications

(234 citation statements)

References 36 publications

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“…While the initial concept of GS was to detect and utilise population-wide linkage disequilibrium between genome-wide markers and QTL (Meuwissen et al, 2001), the benefits of genomic selection also include a more accurate estimate of the genetic relationship between any two individuals than could be given by pedigree records alone, particularly within families . In all studies of aquaculture species to date, the use of GS has resulted in higher prediction accuracy of breeding values than the use of pedigree information alone (Odegård et al, 2014;Tsai et al, 2015;Dou et al, 2016). A prerequisite for genomic selection is a platform to generate high-density SNP marker genotypes across populations of animals and SNP arrays have been developed for several aquaculture species, including Atlantic salmon Yáñez et al, 2016), rainbow trout (Palti et al, 2015), common carp (Xu et al, 2014), and catfish .…”

Section: Current Methods Of Breeding For Disease Resistancementioning

confidence: 99%

Future directions in breeding for disease resistance in aquaculture species

Houston

2017

R. Bras. Zootec.

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107

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-Infectious disease is a major constraint for all species produced via aquaculture. The majority of farmed fish and shellfish production is based on stocks with limited or no selective breeding. Since disease resistance is almost universally heritable, there is huge potential to select for improved resistance to key diseases. This short review discusses the current methods of breeding more resistant aquaculture stocks, with success stories and current bottlenecks highlighted. The current implementation of genomic selection in breeding for disease resistance and routes to wider-scale implementation and improvement in aquaculture are discussed. Future directions are highlighted, including the potential of genome editing tools for mapping causative variation underlying disease resistance traits and for breeding aquaculture animals with enhanced resistance to disease.

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Section: Current Methods Of Breeding For Disease Resistancementioning

confidence: 99%

Future directions in breeding for disease resistance in aquaculture species

Houston

2017

R. Bras. Zootec.

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107

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“…Ssa11 was also found to contain growth QTL in the transAtlantic backcross families of Boulding et al (2008), and Pedersen et al (2013), and in previous studies using European salmon (Houston et al 2009;Gutierrez et al 2012;Besnier et al 2015). Ssa15 (Reid et al 2005;Gutierrez et al 2012), Ssa18 (Gutierrez et al 2012;Tsai et al 2015), and Ssa19 (Gutierrez et al 2012) have also previously been reported to contain growth QTLs.…”

Section: Length and Weightmentioning

confidence: 95%

“…All QTL were located relative to a physical map of the Atlantic salmon genome allowing putative candidate genes to be identified and our QTL to be compared with those found in future studies. Finer QTL mapping and genome-wide association study (Gutierrez et al 2015;Tsai et al 2015) will be necessary to see if the candidate genes proposed to underlie these traits continue to be associated with them in future studies.…”

Section: Discussionmentioning

confidence: 99%

“…Several studies have mapped QTL for growth-related traits in Atlantic salmon due to their economic importance in cultured fish (Reid et al 2005;Boulding et al 2008;Houston et al 2009;Baranski et al 2010;Gutierrez et al 2012;Pedersen et al 2013;Besnier et al 2015;Tsai et al 2015). A recent analysis of growth QTL mapping studies shows that QTL for length, weight, and condition factor often mapped to the same chromosome in different studies ( fig.…”

Section: Length and Weightmentioning

confidence: 99%

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Mapping of quantitative trait loci associated with size, shape, and parr mark traits using first- and second-generation backcrosses between European and North American Atlantic salmon (Salmo salar)

Pedersen

Liu

Glebe

et al. 2018

Genome

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Abstract:Little is known about the genetic architecture of traits important for salmonid restoration ecology. We mapped quantitative trait loci (QTL) using single nucleotide polymorphisms (SNPs) for juvenile body length, weight, shape, and vertical skin pigmentation patterns (parr marks) within three hybrid backcross families between European and North American subspecies of Atlantic salmon. Amounts of variation in skin colour and pattern quantified in the two second-generation transAtlantic families exceeded the ranges seen in purebred populations. GridQTL analyses using low-density female-specific linkage maps detected QTL showing experiment-wide significance on Ssa02, Ssa03, Ssa09, Ssa11, Ssa19, and Ssa26/28 for both length and weight; on Ssa04 and Ssa23 for parr mark number; on Ssa09 and Ssa13 for parr mark contrast; and on Ssa05, Ssa07, Ssa10, Ssa11, Ssa18, Ssa23, and Ssa26/28 for geometric morphometric shape coordinates. Pleiotrophic QTL on Ssa11 affected length, weight, and shape. No QTL was found that explained more than 10% of the phenotypic variance in pigmentation or shape traits. Each QTL was approximately positioned on the physical map of the Atlantic salmon genome. Some QTL locations confirmed previous studies but many were new. Studies like ours may increase the success of salmon restoration projects by enabling better phenotypic and genetic matching between introduced and extirpated strains.Key words: conservation genetics, geometric morphometrics, parr marks, quantitative trait mapping, single nucleotide polymorphisms.Résumé : Peu de choses sont connues au sujet de l'architecture génétique des caractères importants en matière de l'écologie de rétablissement chez les salmonidés. Les auteurs ont effectué une cartographie QTL à l'aide de marqueurs mononucléotidiques (SNP) pour la taille, la masse, la forme et la pigmentation cutanée verticale (marques de tacon) chez les juvéniles au sein de trois familles hybrides rétrocroisées entre les sous-espèces européennes et nord-américaines du saumon atlantique. La variation pour la couleur et les motifs de la peau a été quantifiée au sein des deux familles transatlantiques de seconde génération et elle excédait celle rencontrée au sein des populations pures. Des analyses GridQTL à l'aide de cartes génétiques femelles à faible densité en marqueurs ont permis de détecter des QTL significatifs sur Ssa02, Ssa03, Ssa09, Ssa11, Ssa19 et Ssa26/28 tant pour la taille que pour la masse, sur Ssa04 et Ssa23 pour le nombre de marques de tacon, sur Ssa09 et Ssa13 pour le contraste des marques de tacon, et sur Ssa05, Ssa07, Ssa10, Ssa11, Ssa18, Ssa23 et Ssa26/28 pour les coordonnées morphométriques géométriques. Des QTL pléiotropiques sur Ssa11 affectaient la taille, la masse et la forme. Aucun QTL expliquant plus de 10 % de la variation phénotypique pour la pigmentation ou la taille n'a été identifié. Chaque QTL a été assigné à une position approximative sur la carte physique du génome du saumon atlantique. Certaines positions de QTL confirmaient celles rapportées dan...

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“…These traits inluence the commercial value of farmed aquatic organisms. Traits for body weight and length have been identiied in several ish species such as Atlantic salmon [149], rainbow trout [150], Big heard carp (H. nobilis) [151], common carp [152,153] and tilapia (Oreochromis niloticus) [154], nine spined stickleback (Pungitius pungitius) [155] and Arctic char (Salvelinus alpinus) [156]. In shrimps and prawns, body weight and length traits have been identiied in kruma shrimp [157,158], Chinese shrimp [159], Giant fresh water prawn [160], Ridge white prawn [161] and Oriental river prawns [162].…”

Section: Growth Traitsmentioning

confidence: 99%

Current Advances in Functional Genomics in Aquaculture

Munang’andu¹,

Evensen²

2017

Applications of RNA-Seq and Omics Strategies - From Microorganisms to Human Health

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Gene expression studies in aquaculture have slowly evolved from the traditional reductionist approach of single gene sequencing to high throughput sequencing (HTS) techniques able to sequence entire genomes of living organisms. The upcoming of HTS techniques has led to emergence of metagenomics, nutrigenomics, epigenetics and other omics technologies in aquaculture in the last decade. Metagenomics analyses have accelerated the speed at which emerging pathogens are being discovered, thereby contributing to the design of timely disease control strategies in aquaculture. Using metagenomics, it is easy to identify and monitor microbial communities found in diferent ecosystems. In vaccine production, genomic studies are being used to identify cross neutralizing antigens against variant strains of the same pathogens. In genetics and epigenetics, genomics traits have been identiied that are beginning to gain commercial applications in aquaculture. Nutrigenomics have not only enhanced our understanding of the biological markers for nutrition-related diseases, but they have also enhanced our ability to formulate diets able to maintain a stable immune homeostasis in the gut. Overall, herein, we have shown that functional genomics provide multifaceted applications ranging from monitoring microbial communities in aquatic environments to optimizing production systems in aquaculture.

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Genome wide association and genomic prediction for growth traits in juvenile farmed Atlantic salmon using a high density SNP array

Cited by 208 publications

References 36 publications

Future directions in breeding for disease resistance in aquaculture species

Future directions in breeding for disease resistance in aquaculture species

Mapping of quantitative trait loci associated with size, shape, and parr mark traits using first- and second-generation backcrosses between European and North American Atlantic salmon (Salmo salar)

Current Advances in Functional Genomics in Aquaculture

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