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INRAE

24, chemin de Borde Rouge -Auzeville - CS52627 31326 Castanet Tolosan cedex - France

Last update: May 2021

Menu Logo Principal AgroParisTech Université Paris-Saclay SAPS - Sciences Animales Paris-Saclay

INRA GABI Unit

GABI : Génétique Animale et Biologie IntégrativeUnité Mixte de Recherche INRA - AgroParisTech

Genome-wide association study and genomic prediction of tolerance to acute hypoxia in rainbow trout.

INRAE
Fish are exposed to large variations in the concentration of oxygen in their aquatic environment. When oxygen is depleted in relation to what is needed to maintain the energy metabolism of fish, this is called hypoxia. Hypoxia is one of the major threats to the aquaculture sector, causing substantial economic losses for fish farmers. It can strongly affect the health and welfare of fish, impacting on growth, reproduction, behaviour, immunity and other energy-demanding activities. Thus, improving hypoxia tolerance is of great economic and ethical interest to be included in aquaculture breeding programmes.

Rainbow trout (Oncorhynchus mykiss) is one of the most widely cultivated salmonid species in the world, with well developed breeding programmes. Few studies have investigated the feasibility of genetically improving hypoxia tolerance in this highly sensitive species. In the present study, we tested 1320 trout of a commercial line for hypoxia resistance to explore the genetic architecture of this trait and identify the major genome regions (QTL) involved and associated candidate genes potentially affecting the response to hypoxia. The heritability was estimated to be sufficient (around 0.25) to improve hypoxia tolerance by genetic selection. We clearly identified three QTL, two on chromosome 31, one on chromosome 20, and found two other putative QTL on chromosomes 15 and 28. Each of these QTL explains only between 0.2% and 0.8% of the genetic variance of the trait, indicating that hypoxia tolerance is due to the expression of many genes. 

Furthermore, we showed that genomic selection for hypoxia tolerance would lead to a relative increase of ~11% in selection accuracy compared to pedigree-based selection, considering a reference population of 1000 individuals. Finally, fifteen genes (ids, fmr1, arx, lonrf3, commd5, map4k4, smu1, b4galt1, re1, abca1, noa1, igfbp7, noxo1, bcl2a, mylk3) were proposed as functional candidates potentially involved in hypoxia tolerance. Given the large number of candidate genes proposed within the main QTL (6 genes) and the high linkage disequilibrium values existing within this genomic region, we suggest that the complex response to acute hypoxia, i.e. the interplay between behavioural, morphological and physiological responses in rainbow trout, is mainly encoded by a supergene present in this QTL region of chromosome 31. Functional validation of the effects of the genes could help to clarify the biological mechanisms triggering a response to acute hypoxia in rainbow trout.

Contact

See also

M. Prchal, J. D'Ambrosio, H. Lagarde, et al., Genome-wide association study and genomic prediction of tolerance to acute hypoxia in rainbow trout, Aquaculture (2022), https://doi.org/10.1016/j.aquaculture.2022.739068