Infectious diseases place an economic burden on aquaculture and a limitation to its growth. An innovative approach to mitigate their impact on production is breeding for disease resistance: selection for domestication, family-based selection, marker-assisted selection, and more recently, genomic selection. Advances in genetics and genomics approaches to the control of infectious diseases are key to increasing aquaculture efficiency, profitability, and sustainability and to reducing its environmental footprint. Interaction and co-evolution between a host and pathogen can, however, turn breeding to boost infectious disease resistance into a potential driver of pathogenic change. Parallel molecular characterization of the pathogen and its virulence and antimicrobial resistance genes is therefore essential to understand pathogen evolution over time in response to host immunity, and to apply appropriate mitigation strategies.
Sciuto, S., Colli, L., Fabris, A., Pastorino, P., Stoppani, N., Esposito, G., Prearo, M., Esposito, G., Ajmone Marsan, P., Acutis, P. L., Colussi, S., What Can Genetics Do for the Control of Infectious Diseases in Aquaculture?, <<ANIMALS>>, 2022; 12 (17): N/A-N/A. [doi:10.3390/ani12172176] [https://hdl.handle.net/10807/253075]
What Can Genetics Do for the Control of Infectious Diseases in Aquaculture?
Colli, LiciaSecondo
;Ajmone Marsan, Paolo;
2022
Abstract
Infectious diseases place an economic burden on aquaculture and a limitation to its growth. An innovative approach to mitigate their impact on production is breeding for disease resistance: selection for domestication, family-based selection, marker-assisted selection, and more recently, genomic selection. Advances in genetics and genomics approaches to the control of infectious diseases are key to increasing aquaculture efficiency, profitability, and sustainability and to reducing its environmental footprint. Interaction and co-evolution between a host and pathogen can, however, turn breeding to boost infectious disease resistance into a potential driver of pathogenic change. Parallel molecular characterization of the pathogen and its virulence and antimicrobial resistance genes is therefore essential to understand pathogen evolution over time in response to host immunity, and to apply appropriate mitigation strategies.
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