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1. Multi-genome comparisons reveal gain-and-loss evolution of anti-Mullerian hormone receptor type 2 as a candidate master sex-determining gene in Percidae

Author

Kuhl, Heiner, Euclide, Peter T., Klopp, Christophe, Cabau, Cédric, Zahm, Margot, Lopez-Roques, Céline, Iampietro, Carole, Kuchly, Claire, Donnadieu, Cécile, Feron, Romain, Parrinello, Hugues, Poncet, Charles, Jaffrelo, Lydia, Confolent, Carole, Wen, Ming, Herpin, Amaury, Jouanno, Elodie, Bestin, Anastasia, Haffray, Pierrick, Morvezen, Romain, de Almeida, Taina Rocha, Lecocq, Thomas, Schaerlinger, Bérénice, Chardard, Dominique, Żarski, Daniel, Larson, Wesley A., Postlethwait, John H., Timirkhanov, Serik, Kloas, Werner, Wuertz, Sven, Stöck, Matthias, and Guiguen, Yann

Published
2024
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2. Multi-genome comparisons reveal gain-and-loss evolution of anti-Mullerian hormone receptor type 2 as a candidate master sex-determining gene in Percidae

Author

Heiner Kuhl, Peter T. Euclide, Christophe Klopp, Cédric Cabau, Margot Zahm, Céline Lopez-Roques, Carole Iampietro, Claire Kuchly, Cécile Donnadieu, Romain Feron, Hugues Parrinello, Charles Poncet, Lydia Jaffrelo, Carole Confolent, Ming Wen, Amaury Herpin, Elodie Jouanno, Anastasia Bestin, Pierrick Haffray, Romain Morvezen, Taina Rocha de Almeida, Thomas Lecocq, Bérénice Schaerlinger, Dominique Chardard, Daniel Żarski, Wesley A. Larson, John H. Postlethwait, Serik Timirkhanov, Werner Kloas, Sven Wuertz, Matthias Stöck, and Yann Guiguen

Subjects
Sex-determination, Genome, Perches, Pikeperches, Sex chromosomes, Biology (General), QH301-705.5
Abstract

Abstract Background The Percidae family comprises many fish species of major importance for aquaculture and fisheries. Based on three new chromosome-scale assemblies in Perca fluviatilis, Perca schrenkii, and Sander vitreus along with additional percid fish reference genomes, we provide an evolutionary and comparative genomic analysis of their sex-determination systems. Results We explored the fate of a duplicated anti-Mullerian hormone receptor type-2 gene (amhr2bY), previously suggested to be the master sex-determining (MSD) gene in P. flavescens. Phylogenetically related and structurally similar amhr2 duplicates (amhr2b) were found in P. schrenkii and Sander lucioperca, potentially dating this duplication event to their last common ancestor around 19–27 Mya. In P. fluviatilis and S. vitreus, this amhr2b duplicate has been likely lost while it was subject to amplification in S. lucioperca. Analyses of the amhr2b locus in P. schrenkii suggest that this duplication could be also male-specific as it is in P. flavescens. In P. fluviatilis, a relatively small (100 kb) non-recombinant sex-determining region (SDR) was characterized on chromosome 18 using population-genomics approaches. This SDR is characterized by many male-specific single-nucleotide variations (SNVs) and no large duplication/insertion event, suggesting that P. fluviatilis has a male heterogametic sex-determination system (XX/XY), generated by allelic diversification. This SDR contains six annotated genes, including three (c18h1orf198, hsdl1, tbc1d32) with higher expression in the testis than in the ovary. Conclusions Together, our results provide a new example of the highly dynamic sex chromosome turnover in teleosts and provide new genomic resources for Percidae, including sex-genotyping tools for all three known Perca species.

Published
2024
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4. Whole‐genome sequencing identifies interferon-induced protein IFI6/IFI27-like as a strong candidate gene for VNN resistance in European sea bass

Author

Delpuech, Emilie, Vandeputte, Marc, Morvezen, Romain, Bestin, Anastasia, Besson, Mathieu, Brunier, Joseph, Bajek, Aline, Imarazene, Boudjema, François, Yoannah, Bouchez, Olivier, Cousin, Xavier, Poncet, Charles, Morin, Thierry, Bruant, Jean-Sébastien, Chatain, Béatrice, Haffray, Pierrick, Phocas, Florence, and Allal, François

Published
2023
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5. Genetic selection and novel feeds containing single cell protein as a substitute for fishmeal in European sea bass: Effects on growth, fatty acid profile and E-sensing analysis of fillets

Author

F. Moroni, M. Carvalho, A.R. Di Rosa, S. Torrecillas, R. Fontanillas, P. Haffray, F. Allal, A. Bajek, B. Chiofalo, G. Terova, and D. Montero

Subjects
Aquaculture, Future diets, E-sensory analysis, Methylococcus capsulatus, E-nose, E-tongue, Aquaculture. Fisheries. Angling, SH1-691
Abstract

The development of sustainable aquaculture relies on replacing marine raw materials like fish meal (FM) and fish oil (FO). Emerging alternatives, such as single-cell proteins and alternative lipids, offer promise. This study explored the effects of partially substituting FM with 10% bacterial protein (Methylococcus capsulatus) and completely replacing FO with a blend of poultry oil (PO) and DHA-rich microalgae oil in European sea bass (Dicentrarchus labrax) of unselected (WT) and selected (HG) genotypes. The results indicated that bacterial protein had no adverse impact on fish growth. The HG group demonstrated better growth and feed conversion due to genetic selection. This study also analysed the dietary and genotype effects on body lipid composition and fatty acid profiles. Notably, the HG fish had lower levels of major fatty acids (EPA, DHA, n-3 FAs, and n-3 LC-PUFAs) in their fillets, but not in their whole-body composition. These differences influenced sensory and qualitative aspects. Electronic sensory analyses (the first e-sensory profiling conducted for genetic purposes in fish) showed more significant differences due to diet in the WT group, with a less variable pattern in the e-tongue score in for the HG group. The volatile profiles showed no significant differences. In summary, combining selected fish genotypes with innovative feeds is a step forward in aquaculture. It maximizes nutrient utilization, enhances fish growth, and improves product quality. This approach becomes increasingly important in scenarios with limited FM/FO availability, promoting sustainability in aquaculture.

Published
2024
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7. Genetic architecture of acute hyperthermia resistance in juvenile rainbow trout (Oncorhynchus mykiss) and genetic correlations with production traits

Author

Henri Lagarde, Delphine Lallias, Pierre Patrice, Audrey Dehaullon, Martin Prchal, Yoannah François, Jonathan D’Ambrosio, Emilien Segret, Ana Acin-Perez, Frederic Cachelou, Pierrick Haffray, Mathilde Dupont-Nivet, and Florence Phocas

Subjects
Animal culture, SF1-1100, Genetics, QH426-470
Abstract

Abstract Background Selective breeding is a promising solution to reduce the vulnerability of fish farms to heat waves, which are predicted to increase in intensity and frequency. However, limited information about the genetic architecture of acute hyperthermia resistance in fish is available. Two batches of sibs from a rainbow trout commercial line were produced: the first (N = 1382) was phenotyped for acute hyperthermia resistance at nine months of age and the second (N = 1506) was phenotyped for main production traits (growth, body length, muscle fat content and carcass yield) at 20 months of age. Fish were genotyped on a 57 K single nucleotide polymorphism (SNP) array and their genotypes were imputed to high-density based on the parent’s genotypes from a 665 K SNP array. Results The heritability estimate of resistance to acute hyperthermia was 0.29 ± 0.05, confirming the potential of selective breeding for this trait. Since genetic correlations of acute hyperthermia resistance with the main production traits near harvest age were all close to zero, selecting for acute hyperthermia resistance should not impact the main production traits, and vice-versa. A genome-wide association study revealed that resistance to acute hyperthermia is a highly polygenic trait, with six quantitative trait loci (QTL) detected, but explaining less than 5% of the genetic variance. Two of these QTL, including the most significant one, may explain differences in acute hyperthermia resistance across INRAE isogenic lines of rainbow trout. Differences in mean acute hyperthermia resistance phenotypes between homozygotes at the most significant SNP was 69% of the phenotypic standard deviation, showing promising potential for marker-assisted selection. We identified 89 candidate genes within the QTL regions, among which the most convincing functional candidates are dnajc7, hsp70b, nkiras2, cdk12, phb, fkbp10, ddx5, cygb1, enpp7, pdhx and acly. Conclusions This study provides valuable insight into the genetic architecture of acute hyperthermia resistance in juvenile rainbow trout. We show that the selection potential for this trait is substantial and selection for this trait should not be too detrimental to improvement of other traits of interest. Identified functional candidate genes provide new knowledge on the physiological mechanisms involved in acute hyperthermia resistance, such as protein chaperoning, oxidative stress response, homeostasis maintenance and cell survival.

Published
2023
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8. Genetically superior European sea bass (Dicentrarchus labrax) and nutritional innovations: Effects of functional feeds on fish immune response, disease resistance, and gut microbiota

Author

Simona Rimoldi, Daniel Montero, Silvia Torrecillas, Antonio Serradell, Felix Acosta, Pierrick Haffray, Barbara Hostins, Ramon Fontanillas, François Allal, Aline Bajek, and Genciana Terova

Subjects
Bacilli, DNA barcoding, Firmicutes, Metagenomics, Proteobacteria, Aquaculture. Fisheries. Angling, SH1-691
Abstract

The objective of this study was to determine if selected fish genotypes could benefit from the use of functional additives in novel aqua feed formulations to improve growth performance, gut microbiota, immune response, and disease resistance in fish. Two batches of juvenile European sea bass selected for high growth (HG; selected sires x selected dams), and wild types (WT; wild sires x selected females) were fed a “future diet” coated with three different functional additives for 12 weeks as follows: (i) 2 weeks with a high dose, followed by (ii) 10 weeks with a low dose. The functional additives tested were a mixture of probiotics (PROB), organic acids (ORG), and phytogens (PHYTO). A pathogen challenge test (Vibrio anguillarum) and a stress condition (overcrowding) were performed after each dose. At the end of the feeding experiment, fish from the HG group performed better than fish from the WT group in terms of body weight, relative growth, SGR, and DGI. The results of the two challenge tests performed after two weeks of high dose and ten weeks of low dose showed a significant effect of diet on fish survival. GALT-associated gene expression analysis revealed an interaction between the genotype and diet for il-1β in the distal gut. Finally, regarding the gut microbiota, discriminant analysis showed no clear separation between fish fed the future diet and those fed the same diet with experimental additives. Nevertheless, the relative abundance of certain taxa varied between experimental groups. For example, fish fed the ORG diet had higher relative abundance of Streptococcus in both genotypes, whereas fish fed the PHYTO diet had higher abundance of Lactobacillales. In contrast, fish fed PROB had lower abundance of Pseudomonas and Acinetobacter.

Published
2023
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9. Whole‐genome sequencing identifies interferon-induced protein IFI6/IFI27-like as a strong candidate gene for VNN resistance in European sea bass

Author

Emilie Delpuech, Marc Vandeputte, Romain Morvezen, Anastasia Bestin, Mathieu Besson, Joseph Brunier, Aline Bajek, Boudjema Imarazene, Yoannah François, Olivier Bouchez, Xavier Cousin, Charles Poncet, Thierry Morin, Jean-Sébastien Bruant, Béatrice Chatain, Pierrick Haffray, Florence Phocas, and François Allal

Subjects
Animal culture, SF1-1100, Genetics, QH426-470
Abstract

Abstract Background Viral nervous necrosis (VNN) is a major disease that affects European sea bass, and understanding the biological mechanisms that underlie VNN resistance is important for the welfare of farmed fish and sustainability of production systems. The aim of this study was to identify genomic regions and genes that are associated with VNN resistance in sea bass. Results We generated a dataset of 838,451 single nucleotide polymorphisms (SNPs) identified from whole-genome sequencing (WGS) in the parental generation of two commercial populations (A: 2371 individuals and B: 3428 individuals) of European sea bass with phenotypic records for binary survival in a VNN challenge. For each population, three cohorts were submitted to a red-spotted grouper nervous necrosis virus (RGNNV) challenge by immersion and genotyped on a 57K SNP chip. After imputation of WGS SNPs from their parents, quantitative trait loci (QTL) were mapped using a Bayesian sparse linear mixed model (BSLMM). We found several QTL regions that were specific to one of the populations on different linkage groups (LG), and one 127-kb QTL region on LG12 that was shared by both populations and included the genes ZDHHC14, which encodes a palmitoyltransferase, and IFI6/IFI27-like, which encodes an interferon-alpha induced protein. The most significant SNP in this QTL region was only 1.9 kb downstream of the coding sequence of the IFI6/IFI27-like gene. An unrelated population of four large families was used to validate the effect of the QTL. Survival rates of susceptible genotypes were 40.6% and 45.4% in populations A and B, respectively, while that of the resistant genotype was 66.2% in population B and 78% in population A. Conclusions We have identified a genomic region that carries a major QTL for resistance to VNN and includes the ZDHHC14 and IFI6/IFI27-like genes. The potential involvement of the interferon pathway, a well-known anti-viral defense mechanism in several organisms (chicken, human, or fish), in survival to VNN infection is of particular interest. Our results can lead to major improvements for sea bass breeding programs through marker-assisted genomic selection to obtain more resistant fish.

Published
2023
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13. Publisher Correction: The DNA sequence and analysis of human chromosome 14

Author

Heilig, Roland, Eckenberg, Ralph, Petit, Jean-Louis, Fonknechten, Núria, Da Silva, Corinne, Cattolico, Laurence, Levy, Michaël, Barbe, Valérie, de Berardinis, Véronique, Ureta-Vidal, Abel, Pelletier, Eric, Vico, Virginie, Anthouard, Véronique, Rowen, Lee, Madan, Anup, Qin, Shizhen, Sun, Hui, Du, Hui, Pepin, Kymberlie, Artiguenave, François, Robert, Catherine, Cruaud, Corinne, Brüls, Thomas, Jaillon, Olivier, Friedlander, Lucie, Samson, Gaelle, Brottier, Philippe, Cure, Susan, Ségurens, Béatrice, Anière, Franck, Samain, Sylvie, Crespeau, Hervé, Abbasi, Nissa, Aiach, Nathalie, Boscus, Didier, Dickhoff, Rachel, Dors, Monica, Dubois, Ivan, Friedman, Cynthia, Gouyvenoux, Michel, James, Rose, Madan, Anuradha, Mairey–Estrada, Barbara, Mangenot, Sophie, Martins, Nathalie, Ménard, Manuela, Oztas, Sophie, Ratcliffe, Amber, Shaffer, Tristan, Trask, Barbara, Vacherie, Benoit, Bellemere, Chadia, Belser, Caroline, Besnard-Gonnet, Marielle, Bartol–Mavel, Delphine, Boutard, Magali, Briez-Silla, Stéphanie, Combette, Stephane, Dufossé-Laurent, Virginie, Ferron, Carolyne, Lechaplais, Christophe, Louesse, Claudine, Muselet, Delphine, Magdelenat, Ghislaine, Pateau, Emilie, Petit, Emmanuelle, Sirvain-Trukniewicz, Peggy, Trybou, Arnaud, Vega-Czarny, Nathalie, Bataille, Elodie, Bluet, Elodie, Bordelais, Isabelle, Dubois, Maria, Dumont, Corinne, Guérin, Thomas, Haffray, Sébastien, Hammadi, Rachid, Muanga, Jacqueline, Pellouin, Virginie, Robert, Dominique, Wunderle, Edith, Gauguet, Gilbert, Roy, Alice, Sainte-Marthe, Laurent, Verdier, Jean, Verdier-Discala, Claude, Hillier, LaDeana, Fulton, Lucinda, McPherson, John, Matsuda, Fumihiko, Wilson, Richard, Scarpelli, Claude, Gyapay, Gábor, Wincker, Patrick, Saurin, William, Quétier, Francis, Waterston, Robert, Hood, Leroy, and Weissenbach, Jean

Published
2023
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14. Realised genetic gains on growth, survival, feed conversion ratio and quality traits after ten generations of multi-trait selection in rainbow trout Oncorhynchus mykiss, fed a standard diet or a 'future' fish-free and soy-free diet

Author

Marc Vandeputte, Geneviève Corraze, Jérôme Doerflinger, Florian Enez, Frédéric Clota, Frédéric Terrier, Mathilde Horat, Laurence Larroquet, Vincent Petit, Pierrick Haffray, Sandrine Skiba-Cassy, and Mathilde Dupont-Nivet

Subjects
Selective breeding, Selection response, Rainbow trout, Genotype by feed interaction, Aquaculture. Fisheries. Angling, SH1-691
Abstract

There is limited scientific evidence on the real impact of selective breeding in aquaculture on the medium term, while the composition of aquafeeds is rapidly evolving towards plant-based raw materials. We compared a rainbow trout line selected in freshwater for fillet production (improved growth, carcass yield and fillet fat) for ten generations (G10) with an unselected control line from the same base population (G0). We crossed G10 and G0 neomales to the same G10 females, thus creating a Selected and a Control group expected to diverge by half the true difference between G0 and G10. Those were grown to 1.6 kg, and two feeds were compared across the two lines from 264 to 374 days post-hatching. One was a commercial standard, the second was a “future” feed devoid of fishmeal, fish oil and soy-based products, with microalgae as a source of docosahexaenoic acid (DHA). After doubling the difference between the Selected and the Control to estimate the true performance of G0, we saw that G10 was improved relative to G0 for body weight (+61%), feed conversion ratio (−17 to −20%), fillet fat (+28–53%) and carcass yield (+4.2%), but not for fillet yield. Survival was not affected by selection. Both feeds had a similar performance in terms of growth, but the future feed showed a higher FCR, probably due to a feed intake measurement issue. Fish had a good EPA+DHA content (>1.2 g/100 g wet weight) with both feeds, partly linked to endogenous synthesis of these fatty acids. There was little if any genotype by feed interaction. This study shows that selective breeding can produce fast growing, feed efficient and thus provide opportunity for more sustainable fish culture. We showed that highly nutritious fish can be produced with good growth performance without using any fish meal, fish oil or soy-based product.

Published
2022
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15. Genetic architecture and genomic selection of fatty acid composition predicted by Raman spectroscopy in rainbow trout

Author

Carole Blay, Pierrick Haffray, Jonathan D’Ambrosio, Enora Prado, Nicolas Dechamp, Virginie Nazabal, Jérôme Bugeon, Florian Enez, David Causeur, Christophe Eklouh-Molinier, Vincent Petit, Florence Phocas, Geneviève Corraze, and Mathilde Dupont-Nivet

Subjects
Fish, Genomic selection, QTL, GWAS, Fatty acid, Raman, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background In response to major challenges regarding the supply and sustainability of marine ingredients in aquafeeds, the aquaculture industry has made a large-scale shift toward plant-based substitutions for fish oil and fish meal. But, this also led to lower levels of healthful n−3 long-chain polyunsaturated fatty acids (PUFAs)—especially eicosapentaenoic (EPA) and docosahexaenoic (DHA) acids—in flesh. One potential solution is to select fish with better abilities to retain or synthesise PUFAs, to increase the efficiency of aquaculture and promote the production of healthier fish products. To this end, we aimed i) to estimate the genetic variability in fatty acid (FA) composition in visceral fat quantified by Raman spectroscopy, with respect to both individual FAs and groups under a feeding regime with limited n-3 PUFAs; ii) to study the genetic and phenotypic correlations between FAs and processing yields- and fat-related traits; iii) to detect QTLs associated with FA composition and identify candidate genes; and iv) to assess the efficiency of genomic selection compared to pedigree-based BLUP selection. Results Proportions of the various FAs in fish were indirectly estimated using Raman scattering spectroscopy. Fish were genotyped using the 57 K SNP Axiom™ Trout Genotyping Array. Following quality control, the final analysis contained 29,652 SNPs from 1382 fish. Heritability estimates for traits ranged from 0.03 ± 0.03 (n-3 PUFAs) to 0.24 ± 0.05 (n-6 PUFAs), confirming the potential for genomic selection. n-3 PUFAs are positively correlated to a decrease in fat deposition in the fillet and in the viscera but negatively correlated to body weight. This highlights the potential interest to combine selection on FA and against fat deposition to improve nutritional merit of aquaculture products. Several QTLs were identified for FA composition, containing multiple candidate genes with indirect links to FA metabolism. In particular, one region on Omy1 was associated with n-6 PUFAs, monounsaturated FAs, linoleic acid, and EPA, while a region on Omy7 had effects on n-6 PUFAs, EPA, and linoleic acid. When we compared the effectiveness of breeding programmes based on genomic selection (using a reference population of 1000 individuals related to selection candidates) or on pedigree-based selection, we found that the former yielded increases in selection accuracy of 12 to 120% depending on the FA trait. Conclusion This study reveals the polygenic genetic architecture for FA composition in rainbow trout and confirms that genomic selection has potential to improve EPA and DHA proportions in aquaculture species.

Published
2021
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16. Estimates of recent and historical effective population size in turbot, seabream, seabass and carp selective breeding programmes

Author

María Saura, Armando Caballero, Enrique Santiago, Almudena Fernández, Elisabeth Morales-González, Jesús Fernández, Santiago Cabaleiro, Adrián Millán, Paulino Martínez, Christos Palaiokostas, Martin Kocour, Muhammad L. Aslam, Ross D. Houston, Martin Prchal, Luca Bargelloni, Kostas Tzokas, Pierrick Haffray, Jean-Sebastien Bruant, and Beatriz Villanueva

Subjects
Animal culture, SF1-1100, Genetics, QH426-470
Abstract

Abstract Background The high fecundity of fish species allows intense selection to be practised and therefore leads to fast genetic gains. Based on this, numerous selective breeding programmes have been started in Europe in the last decades, but in general, little is known about how the base populations of breeders have been built. Such knowledge is important because base populations can be created from very few individuals, which can lead to small effective population sizes and associated reductions in genetic variability. In this study, we used genomic information that was recently made available for turbot (Scophthalmus maximus), gilthead seabream (Sparus aurata), European seabass (Dicentrarchus labrax) and common carp (Cyprinus carpio) to obtain accurate estimates of the effective size for commercial populations. Methods Restriction-site associated DNA sequencing data were used to estimate current and historical effective population sizes. We used a novel method that considers the linkage disequilibrium spectrum for the whole range of genetic distances between all pairs of single nucleotide polymorphisms (SNPs), and thus accounts for potential fluctuations in population size over time. Results Our results show that the current effective population size for these populations is small (equal to or less than 50 fish), potentially putting the sustainability of the breeding programmes at risk. We have also detected important drops in effective population size about five to nine generations ago, most likely as a result of domestication and the start of selective breeding programmes for these species in Europe. Conclusions Our findings highlight the need to broaden the genetic composition of the base populations from which selection programmes start, and suggest that measures designed to increase effective population size within all farmed populations analysed here should be implemented in order to manage genetic variability and ensure the sustainability of the breeding programmes.

Published
2021
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17. Functional Additives in a Selected European Sea Bass (Dicentrarchus labrax) Genotype: Effects on the Stress Response and Gill Antioxidant Response to Hydrogen Peroxide (H2O2) Treatment

Author

Antonio Serradell, Daniel Montero, Genciana Terova, Simona Rimoldi, Alex Makol, Félix Acosta, Aline Bajek, Pierrick Haffray, François Allal, and Silvia Torrecillas

Subjects
phytogenics, galactomannan-oligosaccharides, selective breeding, European sea bass (Dicentrarchus labrax), oxidative stress, stress response, Veterinary medicine, SF600-1100, Zoology, QL1-991
Abstract

Functional ingredients have profiled as suitable candidates for reinforcing the fish antioxidant response and stress tolerance. In addition, selective breeding strategies have also demonstrated a correlation between fish growth performance and susceptibility to stressful culture conditions as a key component in species domestication processes. The aim of the present study is to evaluate the ability of a selected high-growth genotype of 300 days post-hatch European sea bass (Dicentrarchus labrax) juveniles to use different functional additives as endogenous antioxidant capacity and stress resistance boosters when supplemented in low fish meal (FM) and fish oil (FO) diets. Three isoenergetic and isonitrogenous diets (10% FM/6% FO) were supplemented with 200 ppm of a blend of garlic and Labiatae plant oils (PHYTO0.02), 1000 ppm of a mixture of citrus flavonoids and Asteraceae and Labiatae plant essential oils (PHYTO0.1) or 5000 ppm of galactomannan-oligosaccharides (GMOS0.5). A reference diet was void of supplementation. The fish were fed the experimental diets for 72 days and subjected to a H2O2 exposure oxidative stress challenge. The fish stress response was evaluated through measuring the circulating plasma cortisol levels and the fish gill antioxidant response by the relative gene expression analysis of nfΚβ2, il-1b, hif-1a, nd5, cyb, cox, sod, cat, gpx, tnf-1α and caspase 9. After the oxidative stress challenge, the genotype origin determined the capacity of the recovery of basal cortisol levels after an acute stress response, presenting GS fish with a better pattern of recovery. All functional diets induced a significant upregulation of cat gill gene expression levels compared to fish fed the control diet, regardless of the fish genotype. Altogether, suggesting an increased capacity of the growth selected European sea bass genotype to cope with the potential negative side-effects associated to an H2O2 bath exposure.

Published
2023
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18. Development of a High-Density 665 K SNP Array for Rainbow Trout Genome-Wide Genotyping

Author

Maria Bernard, Audrey Dehaullon, Guangtu Gao, Katy Paul, Henri Lagarde, Mathieu Charles, Martin Prchal, Jeanne Danon, Lydia Jaffrelo, Charles Poncet, Pierre Patrice, Pierrick Haffray, Edwige Quillet, Mathilde Dupont-Nivet, Yniv Palti, Delphine Lallias, and Florence Phocas

Subjects
SNP, single nucleotide polymorphism, sequence, high-density chip, linkage disequilibrium, rainbow trout, Genetics, QH426-470
Abstract

Single nucleotide polymorphism (SNP) arrays, also named « SNP chips », enable very large numbers of individuals to be genotyped at a targeted set of thousands of genome-wide identified markers. We used preexisting variant datasets from USDA, a French commercial line and 30X-coverage whole genome sequencing of INRAE isogenic lines to develop an Affymetrix 665 K SNP array (HD chip) for rainbow trout. In total, we identified 32,372,492 SNPs that were polymorphic in the USDA or INRAE databases. A subset of identified SNPs were selected for inclusion on the chip, prioritizing SNPs whose flanking sequence uniquely aligned to the Swanson reference genome, with homogenous repartition over the genome and the highest Minimum Allele Frequency in both USDA and French databases. Of the 664,531 SNPs which passed the Affymetrix quality filters and were manufactured on the HD chip, 65.3% and 60.9% passed filtering metrics and were polymorphic in two other distinct French commercial populations in which, respectively, 288 and 175 sampled fish were genotyped. Only 576,118 SNPs mapped uniquely on both Swanson and Arlee reference genomes, and 12,071 SNPs did not map at all on the Arlee reference genome. Among those 576,118 SNPs, 38,948 SNPs were kept from the commercially available medium-density 57 K SNP chip. We demonstrate the utility of the HD chip by describing the high rates of linkage disequilibrium at 2–10 kb in the rainbow trout genome in comparison to the linkage disequilibrium observed at 50–100 kb which are usual distances between markers of the medium-density chip.

Published
2022
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19. Potential for genomic selection on feed efficiency in gilthead sea bream (Sparus aurata), based on individual feed conversion ratio, carcass and lipid traits

Author

Mathieu Besson, Nicky Rombout, Germain Salou, Alain Vergnet, Sophie Cariou, Jean-Sébastien Bruant, Marisol Izquierdo, Anastasia Bestin, Frédéric Clota, Pierrick Haffray, François Allal, and Marc Vandeputte

Subjects
Fine phenotyping, Selective breeding, Aquaculture, Genomic, Restricted feeding, Individual feed efficiency, Aquaculture. Fisheries. Angling, SH1-691
Abstract

Genetic improvement of feed efficiency is key to improve the economic and environmental sustainability of fish farming. However, it requires individual phenotypes of feed efficiency, which are difficult if not impossible to obtain when fish are reared in tanks or cages. Here, we applied and validated on gilthead sea bream a method to evaluate individual feed efficiency based on individual rearing of fish in aquariums under restricted feeding. We collected individual phenotypes of feed efficiency in aquariums on 538 sea bream (average weight = 54.50 g). Based on these individual phenotypes, fish (average weight = 174.6 g) were reared in groups of divergent phenotypes (high or low feed efficiency), validating that individual feed efficiency had an impact on group feed efficiency at a later stage. All 538 fish, their parents as well as 794 sibs reared in cages in a production environment, were genotyped on a 57k SNP array to estimate genomic heritability and correlations between traits. We showed that feed efficiency was heritable but did not find significant associated QTLs. We also showed that feed efficiency was negatively genetically correlated to viscera yield, indicating that the most efficient fish had less viscera than the least efficient ones. Altogether, these results support that measuring individual feed efficiency in aquariums under restricted feeding may be used as a reliable phenotyping method to genetically improve feed efficiency, despite the bias intrinsically linked to individual rearing.

Published
2022
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20. Genetic determinism of spontaneous masculinisation in XX female rainbow trout: new insights using medium throughput genotyping and whole-genome sequencing

Author

Clémence Fraslin, Florence Phocas, Anastasia Bestin, Mathieu Charles, Maria Bernard, Francine Krieg, Nicolas Dechamp, Céline Ciobotaru, Chris Hozé, Florent Petitprez, Marine Milhes, Jérôme Lluch, Olivier Bouchez, Charles Poncet, Philippe Hocdé, Pierrick Haffray, Yann Guiguen, and Edwige Quillet

Subjects
Medicine, Science
Abstract

Abstract Rainbow trout has a male heterogametic (XY) sex determination system controlled by a major sex-determining gene, sdY. Unexpectedly, a few phenotypically masculinised fish are regularly observed in all-female farmed trout stocks. To better understand the genetic determinism underlying spontaneous maleness in XX-rainbow trout, we recorded the phenotypic sex of 20,210 XX-rainbow trout from a French farm population at 10 and 15 months post-hatching. The overall masculinisation rate was 1.45%. We performed two genome-wide association studies (GWAS) on a subsample of 1139 individuals classified as females, intersex or males using either medium-throughput genotyping (31,811 SNPs) or whole-genome sequencing (WGS, 8.7 million SNPs). The genomic heritability of maleness ranged between 0.48 and 0.62 depending on the method and the number of SNPs used for the estimation. At the 31K SNPs level, we detected four QTL on three chromosomes (Omy1, Omy12 and Omy20). Using WGS information, we narrowed down the positions of the two QTL detected on Omy1 to 96 kb and 347 kb respectively, with the second QTL explaining up to 14% of the total genetic variance of maleness. Within this QTL, we detected three putative candidate genes, fgfa8, cyp17a1 and an uncharacterised protein (LOC110527930), which might be involved in spontaneous maleness of XX-female rainbow trout.

Published
2020
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21. Genetic architecture and genomic selection of female reproduction traits in rainbow trout

Author

J. D’Ambrosio, R. Morvezen, S. Brard-Fudulea, A. Bestin, A. Acin Perez, D. Guéméné, C. Poncet, P. Haffray, M. Dupont-Nivet, and F. Phocas

Subjects
Fish, Heritability, GWAS, QTL, Body weight, Spawning date, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Rainbow trout is a significant fish farming species under temperate climates. Female reproduction traits play an important role in the economy of breeding companies with the sale of fertilized eggs. The objectives of this study are threefold: to estimate the genetic parameters of female reproduction traits, to determine the genetic architecture of these traits by the identification of quantitative trait loci (QTL), and to assess the expected efficiency of a pedigree-based selection (BLUP) or genomic selection for these traits. Results A pedigreed population of 1343 trout were genotyped for 57,000 SNP markers and phenotyped for seven traits at 2 years of age: spawning date, female body weight before and after spawning, the spawn weight and the egg number of the spawn, the egg average weight and average diameter. Genetic parameters were estimated in multi-trait linear animal models. Heritability estimates were moderate, varying from 0.27 to 0.44. The female body weight was not genetically correlated to any of the reproduction traits. Spawn weight showed strong and favourable genetic correlation with the number of eggs in the spawn and individual egg size traits, but the egg number was uncorrelated to the egg size traits. The genome-wide association studies showed that all traits were very polygenic since less than 10% of the genetic variance was explained by the cumulative effects of the QTLs: for any trait, only 2 to 4 QTLs were detected that explained in-between 1 and 3% of the genetic variance. Genomic selection based on a reference population of only one thousand individuals related to candidates would improve the efficiency of BLUP selection from 16 to 37% depending on traits. Conclusions Our genetic parameter estimates made unlikely the hypothesis that selection for growth could induce any indirect improvement for female reproduction traits. It is thus important to consider direct selection for spawn weight for improving egg production traits in rainbow trout breeding programs. Due to the low proportion of genetic variance explained by the few QTLs detected for each reproduction traits, marker assisted selection cannot be effective. However genomic selection would allow significant gains of accuracy compared to pedigree-based selection.

Published
2020
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22. Estimates of recent and historical effective population size in turbot, seabream, seabass and carp selective breeding programmes

Author

Saura, María, Caballero, Armando, Santiago, Enrique, Fernández, Almudena, Morales-González, Elisabeth, Fernández, Jesús, Cabaleiro, Santiago, Millán, Adrián, Martínez, Paulino, Palaiokostas, Christos, Kocour, Martin, Aslam, Muhammad L., Houston, Ross D., Prchal, Martin, Bargelloni, Luca, Tzokas, Kostas, Haffray, Pierrick, Bruant, Jean-Sebastien, and Villanueva, Beatriz

Published
2021
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24. Corrigendum: Optimization of Genomic Selection to Improve Disease Resistance in Two Marine Fishes, The European Sea Bass (Dicentrarchus labrax) and the Gilthead Sea Bream (Sparus aurata)

Author

Ronan Griot, François Allal, Florence Phocas, Sophie Brard-Fudulea, Romain Morvezen, Pierrick Haffray, Yoannah François, Thierry Morin, Anastasia Bestin, Jean-Sébastien Bruant, Sophie Cariou, Bruno Peyrou, Joseph Brunier, and Marc Vandeputte

Subjects
genomic selection, dicentrarchus labrax, sparus aurata, disease resistance, aquacultrure, Genetics, QH426-470
Published
2021
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25. Current status and potential of genomic selection to improve selective breeding in the main aquaculture species of International Council for the Exploration of the Sea (ICES) member countries

Author

Pierre Boudry, François Allal, Muhammad L. Aslam, Luca Bargelloni, Tim P. Bean, Sophie Brard-Fudulea, Marine S.O. Brieuc, Federico C.F. Calboli, John Gilbey, Pierrick Haffray, Jean-Baptiste Lamy, Romain Morvezen, Catherine Purcell, Paulo A. Prodöhl, Marc Vandeputte, Geoffrey C. Waldbieser, Anna K. Sonesson, and Ross D. Houston

Subjects
Aquaculture, Selective breeding, Genomic selection, SNP array, Genotyping by sequencing, Aquaculture. Fisheries. Angling, SH1-691
Abstract

Selective breeding has been successfully applied to improve profitability and sustainability in numerous aquatic species. Recent developments of high throughput genotyping technology now enable the implementation of genomic selection, a method aiming to predict the breeding value of candidates based on their genotype at genome-wide markers. In this review article, we review the state of the arts, challenges and prospects for the application of genomic selection in aquaculture species. The particular focus is on the status of genomic selection in several major aquaculture species of International Council for the Exploration of the Sea (ICES) member countries: Atlantic salmon, rainbow trout, Atlantic cod, American catfish, Pacific oyster, European sea bass and gilthead sea bream. While the potential of genomic selection is clear, tailored species-specific applications will be needed to maximise its benefit for the aquaculture sector.

Published
2021
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26. Optimization of Genomic Selection to Improve Disease Resistance in Two Marine Fishes, the European Sea Bass (Dicentrarchus labrax) and the Gilthead Sea Bream (Sparus aurata)

Author

Ronan Griot, François Allal, Florence Phocas, Sophie Brard-Fudulea, Romain Morvezen, Pierrick Haffray, Yoannah François, Thierry Morin, Anastasia Bestin, Jean-Sébastien Bruant, Sophie Cariou, Bruno Peyrou, Joseph Brunier, and Marc Vandeputte

Subjects
genomic selection, dicentrarchus labrax, Sparus aurata, disease resistance, aquaculture, Genetics, QH426-470
Abstract

Disease outbreaks are a major threat to the aquaculture industry, and can be controlled by selective breeding. With the development of high-throughput genotyping technologies, genomic selection may become accessible even in minor species. Training population size and marker density are among the main drivers of the prediction accuracy, which both have a high impact on the cost of genomic selection. In this study, we assessed the impact of training population size as well as marker density on the prediction accuracy of disease resistance traits in European sea bass (Dicentrarchus labrax) and gilthead sea bream (Sparus aurata). We performed a challenge to nervous necrosis virus (NNV) in two sea bass cohorts, a challenge to Vibrio harveyi in one sea bass cohort and a challenge to Photobacterium damselae subsp. piscicida in one sea bream cohort. Challenged individuals were genotyped on 57K–60K SNP chips. Markers were sampled to design virtual SNP chips of 1K, 3K, 6K, and 10K markers. Similarly, challenged individuals were randomly sampled to vary training population size from 50 to 800 individuals. The accuracy of genomic-based (GBLUP model) and pedigree-based estimated breeding values (EBV) (PBLUP model) was computed for each training population size using Monte-Carlo cross-validation. Genomic-based breeding values were also computed using the virtual chips to study the effect of marker density. For resistance to Viral Nervous Necrosis (VNN), as one major QTL was detected, the opportunity of marker-assisted selection was investigated by adding a QTL effect in both genomic and pedigree prediction models. As training population size increased, accuracy increased to reach values in range of 0.51–0.65 for full density chips. The accuracy could still increase with more individuals in the training population as the accuracy plateau was not reached. When using only the 6K density chip, accuracy reached at least 90% of that obtained with the full density chip. Adding the QTL effect increased the accuracy of the PBLUP model to values higher than the GBLUP model without the QTL effect. This work sets a framework for the practical implementation of genomic selection to improve the resistance to major diseases in European sea bass and gilthead sea bream.

Published
2021
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27. Genome-wide estimates of genetic diversity, inbreeding and effective size of experimental and commercial rainbow trout lines undergoing selective breeding

Author

Jonathan D’Ambrosio, Florence Phocas, Pierrick Haffray, Anastasia Bestin, Sophie Brard-Fudulea, Charles Poncet, Edwige Quillet, Nicolas Dechamp, Clémence Fraslin, Mathieu Charles, and Mathilde Dupont-Nivet

Subjects
Animal culture, SF1-1100, Genetics, QH426-470
Abstract

Abstract Background Selective breeding is a relatively recent practice in aquaculture species compared to terrestrial livestock. Nevertheless, the genetic variability of farmed salmonid lines, which have been selected for several generations, should be assessed. Indeed, a significant decrease in genetic variability due to high selection intensity could have occurred, potentially jeopardizing the long-term genetic progress as well as the adaptive capacities of populations facing change(s) in the environment. Thus, it is important to evaluate the impact of selection practices on genetic diversity to limit future inbreeding. The current study presents an analysis of genetic diversity within and between six French rainbow trout (Oncorhynchus mykiss) experimental or commercial lines based on a medium-density single nucleotide polymorphism (SNP) chip and various molecular genetic indicators: fixation index (F ST), linkage disequilibrium (LD), effective population size (N e ) and inbreeding coefficient derived from runs of homozygosity (ROH). Results Our results showed a moderate level of genetic differentiation between selected lines (F ST ranging from 0.08 to 0.15). LD declined rapidly over the first 100 kb, but then remained quite high at long distances, leading to low estimates of N e in the last generation ranging from 24 to 68 depending on the line and methodology considered. These results were consistent with inbreeding estimates that varied from 10.0% in an unselected experimental line to 19.5% in a commercial line, and which are clearly higher than corresponding estimates in ruminants or pigs. In addition, strong variations in LD and inbreeding were observed along the genome that may be due to differences in local rates of recombination or due to key genes that tended to have fixed favorable alleles for domestication or production. Conclusions This is the first report on ROH for any aquaculture species. Inbreeding appeared to be moderate to high in the six French rainbow trout lines, due to founder effects at the start of the breeding programs, but also likely to sweepstakes reproductive success in addition to selection for the selected lines. Efficient management of inbreeding is a major goal in breeding programs to ensure that populations can adapt to future breeding objectives and SNP information can be used to manage the rate at which inbreeding builds up in the fish genome.

Published
2019
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28. Genetic Parameters and Genome-Wide Association Studies of Quality Traits Characterised Using Imaging Technologies in Rainbow Trout, Oncorhynchus mykiss

Author

Carole Blay, Pierrick Haffray, Jérôme Bugeon, Jonathan D’Ambrosio, Nicolas Dechamp, Guylaine Collewet, Florian Enez, Vincent Petit, Xavier Cousin, Geneviève Corraze, Florence Phocas, and Mathilde Dupont-Nivet

Subjects
aquaculture, fat content, flesh colour, magnetic resonance imaging, Fatmeter, computer vision, Genetics, QH426-470
Abstract

One of the top priorities of the aquaculture industry is the genetic improvement of economically important traits in fish, such as those related to processing and quality. However, the accuracy of genetic evaluations has been hindered by a lack of data on such traits from a sufficiently large population of animals. The objectives of this study were thus threefold: (i) to estimate genetic parameters of growth-, yield-, and quality-related traits in rainbow trout (Oncorhynchus mykiss) using three different phenotyping technologies [invasive and non-invasive: microwave-based, digital image analysis, and magnetic resonance imaging (MRI)], (ii) to detect quantitative trait loci (QTLs) associated with these traits, and (iii) to identify candidate genes present within these QTL regions. Our study collected data from 1,379 fish on growth, yield-related traits (body weight, condition coefficient, head yield, carcass yield, headless gutted carcass yield), and quality-related traits (total fat, percentage of fat in subcutaneous adipose tissue, percentage of fat in flesh, flesh colour); genotypic data were then obtained for all fish using the 57K SNP Axiom® Trout Genotyping array. Heritability estimates for most of the 14 traits examined were moderate to strong, varying from 0.12 to 0.67. Most traits were clearly polygenic, but our genome-wide association studies (GWASs) identified two genomic regions on chromosome 8 that explained up to 10% of the genetic variance (cumulative effects of two QTLs) for several traits (weight, condition coefficient, subcutaneous and total fat content, carcass and headless gutted carcass yields). For flesh colour traits, six QTLs explained 1–4% of the genetic variance. Within these regions, we identified several genes (htr1, gnpat, ephx1, bcmo1, and cyp2x) that have been implicated in adipogenesis or carotenoid metabolism, and thus represent good candidates for further functional validation. Finally, of the three techniques used for phenotyping, MRI demonstrated particular promise for measurements of fat content and distribution, while the digital image analysis-based approach was very useful in quantifying colour-related traits. This work provides new insights that may aid the development of commercial breeding programmes in rainbow trout, specifically with regard to the genetic improvement of yield and flesh-quality traits as well as the use of invasive and/or non-invasive technologies to predict such traits.

Published
2021
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29. Potential for Genetic Improvement of Resistance to Perkinsus olseni in the Manila Clam, Ruditapes philippinarum, Using DNA Parentage Assignment and Mass Spawning

Author

Morgan Smits, Florian Enez, Serena Ferraresso, Giulia Dalla Rovere, Emilie Vetois, Jean-François Auvray, Lucie Genestout, Rachid Mahla, Giuseppe Arcangeli, Christine Paillard, Pierrick Haffray, and Luca Bargelloni

Subjects
Manila clam (Ruditapes philippinarum), Perkinsus olseni infection, disease resistance, genetic selection, genetic parameter estimation, Veterinary medicine, SF600-1100
Abstract

The Manila clam Ruditapes philippinarum, a major cultured shellfish species, is threatened by infection with the microparasite Perkinsus olseni, whose prevalence increases with high water temperatures. Under the current trend of climate change, the already severe effects of this parasitic infection might rapidly increase the frequency of mass mortality events. Treating infectious diseases in bivalves is notoriously problematic, therefore selective breeding for resistance represents a key strategy for mitigating the negative impact of pathogens. A crucial step in initiating selective breeding is the estimation of genetic parameters for traits of interest, which relies on the ability to record parentage and accurate phenotypes in a large number of individuals. Here, to estimate the heritability of resistance against P. olseni, a field experiment mirroring conditions in industrial clam production was set up, a genomic tool was developed for parentage assignment, and parasite load was determined through quantitative PCR. A mixed-family cohort of potentially 1,479 clam families was produced in a hatchery by mass spawning of 53 dams and 57 sires. The progenies were seeded in a commercial clam production area in the Venice lagoon, Italy, where high prevalence of P. olseni had previously been reported. Growth and parasite load were monitored every month and, after 1 year, more than 1,000 individuals were collected for DNA samples and phenotype recording. A pooled sequencing approach was carried out using DNA samples from the hatchery broodstock and from a Venice lagoon clam population, providing candidate markers used to develop a 245-SNP panel. Parentage assignment for 246 F1 individuals showed sire and dam representation were high (75 and 85%, respectively), indicating a very limited risk of inbreeding. Moderate heritability (0.23 ± 0.11–0.35 ± 0.13) was estimated for growth traits (shell length, shell weight, total weight), while parasite load showed high heritability, estimated at 0.51 ± 0.20. No significant genetic correlations were found between growth-associated traits and parasite load. Overall, the preliminary results provided by this study show high potential for selecting clams resistant to parasite load. Breeding for resistance may help limit the negative effects of climate change on clam production, as the prevalence of the parasite is predicted to increase under a future scenario of higher temperatures. Finally, the limited genetic correlation between resistance and growth suggests that breeding programs could incorporate dual selection without negative interactions.

Published
2020
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30. First Evidence of Realized Selection Response on Fillet Yield in Rainbow Trout Oncorhynchus mykiss, Using Sib Selection or Based on Correlated Ultrasound Measurements

Author

Marc Vandeputte, Jérôme Bugeon, Anastasia Bestin, Alexandre Desgranges, Jean-Michel Allamellou, Anne-Sophie Tyran, François Allal, Mathilde Dupont-Nivet, and Pierrick Haffray

Subjects
aquaculture, fillet yield, selective breeding, selection response, production efficiency, heritability, Genetics, QH426-470
Abstract

Fillet yield, the proportion of edible fillet relative to body weight, is a major trait to improve in fish sold processed, as it has a direct impact on profitability and can simultaneously decrease the environmental impact of producing a given amount of fillet. However, it is difficult to improve by selective breeding, because it cannot be measured on live breeding candidates, its phenotypic variation is low, and, as a ratio, it is not normally distributed and a same change in fillet yield can be the result of different changes in fillet weight and body weight. Residual headless gutted carcass weight (rHGCW) is heritable and highly genetically correlated to Fillet% in rainbow trout, and can be predicted by the ratio of abdominal wall thickness to depth of the peritoneal cavity (E8/E23), measured on live fish by ultrasound tomography. We selected broodstock based on rHGCW, measured on sibs of the selection candidates, on ultrasound measurements (E8/E23) measured on the selection candidates, or a combination of both. Seven broodstock groups were selected: fish with 15% highest (rHGCW+) or lowest (rHGCW−) EBV for rHGCW, with 15% highest (E8/E23+) or lowest (E8/E23−) EBV for E8/E23, with both rHGCW+ and E8/E23+ (Both+) or rHGCW− and E8/E23− (Both−), or with close to zero EBVs for both traits (Mid). Seven corresponding groups of offspring were produced and reared communally. At harvest size (1.5 kg mean weight), 1,561 trout were slaughtered, measured for the traits of interest, and pedigreed with DNA fingerprinting. Offspring from groups Both+, rHGCW+ and E8/E23+ had a higher EBV for rHGCW than the control group, while down-selected groups had a lower EBV. Looking at the phenotypic mean for Fillet% (correlated response), up-selected fish had more fillet than down-selected fish. The highest difference was between Both+ (69.36%) and Both− (68.20%), a 1.16% units difference in fillet percentage. The change in Fillet% was explained by an opposite change in Viscera%, while Head% remained stable. Selection using sib information on rHGCW was on average more efficient than selection using the candidates’ own E8/E23 phenotypes, and downward selection (decreasing Fillet%) was more efficient than upward selection.

Published
2019
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31. Genetics of resistance to photobacteriosis in gilthead sea bream (Sparus aurata) using 2b-RAD sequencing

Author

Muhammad L Aslam, Roberta Carraro, Anastasia Bestin, Sophie Cariou, Anna K. Sonesson, Jean-Sébastien Bruant, Pierrick Haffray, Luca Bargelloni, and Theo H. E. Meuwissen

Subjects
Photobacteriosis, 2b-RAD, Single nucleotide polymorphisms, Linkage mapping, Genome-wide association study, Quantitative trait loci, Genetics, QH426-470
Abstract

Abstract Background Photobacteriosis is an infectious disease developed by a Gram-negative bacterium Photobacterium damselae subsp. piscicida (Phdp), which may cause high mortalities (90–100%) in sea bream. Selection and breeding for resistance against infectious diseases is a highly valuable tool to help prevent or diminish disease outbreaks, and currently available advanced selection methods with the application of genomic information could improve the response to selection. An experimental group of sea bream juveniles was derived from a Ferme Marine de Douhet (FMD, Oléron Island, France) selected line using ~ 109 parents (~ 25 females and 84 males). This group of 1187 individuals represented 177 full-sib families with 1–49 sibs per family, which were challenged with virulent Phdp for a duration of 18 days, and mortalities were recorded within this duration. Tissue samples were collected from the parents and the recorded offspring for DNA extraction, library preparation using 2b-RAD and genotyping by sequencing. Genotypic data was used to develop a linkage map, genome wide association analysis and for the estimation of breeding values. Results The analysis of genetic variation for resistance against Phdp revealed moderate genomic heritability with estimates of ~ 0.32. A genome-wide association analysis revealed a quantitative trait locus (QTL) including 11 SNPs at linkage group 17 presenting significant association to the trait with p-value crossing genome-wide Bonferroni corrected threshold P ≤ 2.22e-06. The proportion total genetic variance explained by the single top most significant SNP was ranging from 13.28–16.14% depending on the method used to compute the variance. The accuracies of predicting breeding values obtained using genomic vs. pedigree information displayed 19–24% increase when using genomic information. Conclusion The current study demonstrates that SNPs-based genotyping of a sea bream population with 2b-RAD approach is effective at capturing the genetic variation for resistance against Phdp. Prediction accuracies obtained using genomic information were significantly higher than the accuracies obtained using pedigree information which highlights the importance and potential of genomic selection in commercial breeding programs.

Published
2018
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32. Genome-wide association and genomic prediction of resistance to viral nervous necrosis in European sea bass (Dicentrarchus labrax) using RAD sequencing

Author

Christos Palaiokostas, Sophie Cariou, Anastasia Bestin, Jean-Sebastien Bruant, Pierrick Haffray, Thierry Morin, Joëlle Cabon, François Allal, Marc Vandeputte, and Ross D. Houston

Subjects
Animal culture, SF1-1100, Genetics, QH426-470
Abstract

Abstract Background European sea bass (Dicentrarchus labrax) is one of the most important species for European aquaculture. Viral nervous necrosis (VNN), commonly caused by the redspotted grouper nervous necrosis virus (RGNNV), can result in high levels of morbidity and mortality, mainly during the larval and juvenile stages of cultured sea bass. In the absence of efficient therapeutic treatments, selective breeding for host resistance offers a promising strategy to control this disease. Our study aimed at investigating genetic resistance to VNN and genomic-based approaches to improve disease resistance by selective breeding. A population of 1538 sea bass juveniles from a factorial cross between 48 sires and 17 dams was challenged with RGNNV with mortalities and survivors being recorded and sampled for genotyping by the RAD sequencing approach. Results We used genome-wide genotype data from 9195 single nucleotide polymorphisms (SNPs) for downstream analysis. Estimates of heritability of survival on the underlying scale for the pedigree and genomic relationship matrices were 0.27 (HPD interval 95%: 0.14-0.40) and 0.43 (0.29–0.57), respectively. Classical genome-wide association analysis detected genome-wide significant quantitative trait loci (QTL) for resistance to VNN on chromosomes (unassigned scaffolds in the case of ‘chromosome’ 25) 3, 20 and 25 (P

Published
2018
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33. Genetic determinism of spontaneous masculinisation in XX female rainbow trout: new insights using medium throughput genotyping and whole-genome sequencing

Author

Fraslin, Clémence, Phocas, Florence, Bestin, Anastasia, Charles, Mathieu, Bernard, Maria, Krieg, Francine, Dechamp, Nicolas, Ciobotaru, Céline, Hozé, Chris, Petitprez, Florent, Milhes, Marine, Lluch, Jérôme, Bouchez, Olivier, Poncet, Charles, Hocdé, Philippe, Haffray, Pierrick, Guiguen, Yann, and Quillet, Edwige

Published
2020
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35. Can we identify wild-born salmon from parentage assignment data? A case study in the Garonne-Dordogne rivers salmon restoration programme in France

Author

Vandeputte Marc, Bestin Anastasia, Fauchet Louarn, Allamellou Jean-Michel, Bosc Stéphane, Menchi Olivier, and Haffray Pierrick

Subjects
parentage assignment, restocking, fisheries, Aquaculture. Fisheries. Angling, SH1-691
Abstract

Parentage assignment with genomic markers provides an opportunity to monitor salmon restocking programs. Most of the time, it is used to study the fate of hatchery-born fish in those programs, as well as the genetic impacts of restocking. In such analyses, only fish that are assigned to their parents are considered. In the Garonne-Dordogne river basin in France, native salmon have disappeared, and supportive breeding is being used to try to reinstate a self-sustained population. It is therefore of primary importance to assess the numbers of wild-born returning salmon, which could appear as wrongly assigned or not assigned, depending on the power of the marker set and on the size of the mating plan. We used the genotypes at nine microsatellites of the 5800 hatchery broodstock which were used from 2008 to 2014, and of 884 upstream migrating fish collected from 2008 to 2016, to assess our ability to identify wild-born salmon. We simulated genotypes of hatchery fish and wild-born fish and assessed how they were identified by the parentage assignment software Accurassign. We showed that 98.7% of the fish assigned within the recorded mating plan could be considered hatchery fish, while 93.3% of the fish in other assignment categories (assigned out of the mating plan, assigned to several parent pairs, not assigned) could be considered wild-born. Using a Bayesian approach, we showed that 31.3% of the 457 upstream migrating fish sampled from 2014 to 2016 were wild-born. This approach is thus efficient to identify wild-born fish in a restoration program. It remains dependent on the quality of the recording of the mating plan, which we showed was rather good (

Published
2021
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37. 159. Selective breeding for survival to Vibrio harveyi in European seabass (Dicentrarchus labrax) is robust to different feeding environments

Author

Besson, M., primary, Morvezen, R., additional, Bestin, A., additional, François, Y., additional, Bajek, A., additional, Brunier, J., additional, Morin, T., additional, Vandeputte, M., additional, Dupont-Nivet, M., additional, Izquierdo, M., additional, Barkas, D., additional, and Haffray, P., additional

Published
2022
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40. Potential for Genetic Improvement of the Main Slaughter Yields in Common Carp With in vivo Morphological Predictors

Author

Martin Prchal, Jérôme Bugeon, Marc Vandeputte, Antti Kause, Alain Vergnet, Jinfeng Zhao, David Gela, Lucie Genestout, Anastasia Bestin, Pierrick Haffray, and Martin Kocour

Subjects
heritability estimates, genetic correlations, indirect selection, morphological landmarks, slaughter yields, ultrasound imagery, Genetics, QH426-470
Abstract

Common carp is a major aquaculture species worldwide, commonly sold alive but also as processed headless carcass or filets. However, recording of processing yields is impossible on live breeding candidates, and alternatives for genetic improvement are either sib selection based on slaughtered fish, or indirect selection on correlated traits recorded in vivo. Morphological predictors that can be measured on live fish and that correlate with real slaughter yields hence remain a possible alternative. To quantify the power of morphological predictors for genetic improvement of yields, we estimated genetic parameters of slaughter yields and various predictors in 3-year-old common carp reared communally under semi-intensive pond conditions. The experimental stock was established by a partial factorial design of 20 dams and 40 sires, and 1553 progenies were assigned to their parents using 12 microsatellites. Slaughter yields were highly heritable (h2 = 0.46 for headless carcass yield, 0.50 for filet yield) and strongly genetically correlated with each other (rg = 0.96). To create morphological predictors, external (phenotypes, 2D digitization) and internal measurements (ultrasound imagery) were recorded and combined by multiple linear regression to predict slaughter yields. The accuracy of the phenotypic prediction was high for headless carcass yield (R2 = 0.63) and intermediate for filet yield (R2 = 0.49). Interestingly, heritability of predicted slaughter yields (0.48–0.63) was higher than that of the real yields to predict, and had high genetic correlations with the real yields (rg = 0.84–0.88). In addition, both predicted yields were highly phenotypically and genetically correlated with each other (0.95 for both), suggesting that using predicted headless carcass yield in a breeding program would be a good way to also improve filet yield. Besides, two individual predictors (P1 and P2) included in the prediction models and two simple internal measurements (E4 and E23) exhibited intermediate to high heritability estimates (h2 = 0.34 – 0.72) and significant genetic correlations to the slaughter yields (rg = |0.39 – 0.83|). The results show that there is a solid potential for genetic improvement of slaughter yields by selecting for predictor traits recorded on live breeding candidates of common carp.

Published
2018
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45. Prediction of fatty acids composition in the rainbow trout Oncorhynchus mykiss by using Raman micro-spectroscopy

Author

Prado, E., primary, Eklouh-Molinier, C., additional, Enez, F., additional, Causeur, D., additional, Blay, C., additional, Dupont-Nivet, M., additional, Labbé, L., additional, Petit, V., additional, Moreac, A., additional, Taupier, G., additional, Haffray, P., additional, Bugeon, J., additional, Corraze, G., additional, and Nazabal, V., additional

Published
2022
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46. Survival, growth and reproduction of cryopreserved larvae from a marine invertebrate, the Pacific oyster (Crassostrea gigas).

Author

Marc Suquet, Catherine Labbé, Sophie Puyo, Christian Mingant, Benjamin Quittet, Myrina Boulais, Isabelle Queau, Dominique Ratiskol, Blandine Diss, and Pierrick Haffray

Subjects
Medicine, Science
Abstract

This study is the first demonstration of successful post-thawing development to reproduction stage of diploid cryopreserved larvae in an aquatic invertebrate. Survival, growth and reproductive performances were studied in juvenile and adult Pacific oysters grown from cryopreserved embryos. Cryopreservation was performed at three early stages: trochophore (13±2 hours post fertilization: hpf), early D-larvae (24±2 hpf) and late D-larvae (43±2 hpf). From the beginning (88 days) at the end of the ongrowing phase (195 days), no mortality was recorded and mean body weights did not differ between the thawed oysters and the control. At the end of the growing-out phase (982 days), survival of the oysters cryopreserved at 13±2 hpf and at 43±2 hpf was significantly higher (P

Published
2014
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49. Nécrose pancréatique infectieuse des salmonidés : évaluation de méthodes destinées à couper la transmission par l'oeuf

Author

DORSON M., TORHY C., BILLARD R., SAUDRAIS C., MAISSE G., HAFFRAY P., and HOLLEBECQ M. G.

Subjects
Aquaculture. Fisheries. Angling, SH1-691
Abstract

Des ovules de truites Arc-en-Ciel ont été fécondés par des spermatozoïdes de la même espèce traités par l'iode suivant différents protocoles afin de couper la transmission de la nécrose pancréatique infectieuse (NPI) des salmonidés. L'efficacité de l'iode a été évaluée en parallèle par neutralisation du virus en 1 mn. Le protocole conseillé pour la solution d'iode disponible dans le commerce (ovules égouttés, puis recouverts de solution- iodée et sperme ajouté immédiatement) a d'abord été utilisé. A pH compris entre 5 et 8 et pour des concentrations en iode de 15, 25 et 35 mg/l, le pourcentage de fécondation est inférieur à 10 et ne remonte qu'à pH 9 (69 % pour 25 mg/l). Par contre, l'efficacité contre le virus décroît rapidement pour des pH supérieurs à 7, et aucun pH n'a permis de concilier efficacité et innocuité. Le même protocole'utilisé avec 10 spermes individuels a montré des différences de sensibilité individuelle marquées (pourcentages de fécondation de 1,6 à 37 % pour 25 mg/l d'iode à pH8), qui ne sont pas en corrélation avec la qualité des spermes appréciée par la concentration de la protéine de membrane 42 kDa dans le liquide séminal. Les différents essais de préincubation du sperme (de quelques secondes à 1 minute) ont donné des rendements de fécondation nuls, sauf pour un large excès de sperme, qui entraînait aussi la perte de l'efficacité de l'iode contre le virus. Deux expériences de transmission expérimentale ont été réalisées en incubant les spermatozoïdes avec du virus concentré. L'élimination systématique des oeufs morts et anormaux suivie d'une désinfection externe des oeufs (50 mg/l d'iode, 15 mn) avant l'éclosion n'a pas permis dé couper la transmission, ce qui laisse supposer que le virus peut être transmis sans infecter l'embryon de façon létale.

Published
1996
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50. Revue bibliographique. L'amélioration génétique de la carpe commune (Cyprinus carpio L.) : état des connaissances

Author

HOLLEBECQ M. G. and HAFFRAY P.

Subjects
Aquaculture. Fisheries. Angling, SH1-691
Abstract

La carpe commune, dont l'aire d'élevage s'étend sur les 2 hémisphères, est l'espèce de poisson la plus anciennement domestiquée par l'homme. Nombreux sont les travaux scientifiques et notamment de génétique qui s'y réfèrent. Les méthodes de génétique des populations ont permis de définir le niveau de variabilité génétique. Cette caractérisation des stocks d'élevage et sauvages permet premièrement d'optimiser le choix des souches en fonction des objectifs zootechniques et deuxièmement la mise en oeuvre de schémas d'amélioration génétique plus performants par l'utilisation de marqueurs électrophorétiques. Les rares études biochimiques effectuées jusqu'à présent ont montré le haut niveau de consanguinité de certaines souches captives et les effets négatifs qui en résultent sur les performances d'élevage (sensibilité aux maladies). On admet que, pour de telles souches, des plateaux de sélection sont atteints pour les caractéristiques de croissance. En l'absence de progrès génétique constaté suite aux expériences de sélection individuelle, les principaux schémas de sélection pratiqués chez la carpe sont donc basés sur des croisements intraspécifiques efficaces pour améliorer la croissance, la résistance à l'hydropisie infectieuse et la résistance au froid. Cependant, la sélection familiale est susceptible de fournir d'intéressants résultats, mais cette voie reste à explorer. La création de cheptels monosexes femelles diploïdes ou triploïdes est maintenant bien au point. Par contre, leurs caractéristiques d'élevage sont encore à éprouver. Enfin tout récemment, la méthodologie de la transgénèse chez les poissons a été testée avec succès avec la carpe commune.

Published
1994
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