Descrizione del progetto
Approfondimento molecolare sulla resistenza agli insetticidi
Un’efficace gestione degli organismi nocivi è fondamentale per la protezione delle colture e la sicurezza alimentare ma l’emergere della resistenza agli insetticidi e alle sostanze chimiche per la difesa delle piante ostacola gli interventi attuali. Gli insetti utilizzano gli enzimi del citocromo P450 per proteggersi dalle tossine naturali e sintetiche. Cambiamenti nell’espressione degli enzimi o alterazioni nell’attività metabolica possono portare alla resistenza agli insetticidi. Il progetto P450RESIST, finanziato dal Consiglio europeo della ricerca, si propone di delineare i fattori molecolari associati alla resistenza agli insetticidi. I ricercatori caratterizzeranno anche l’interazione del P450 con gli insetticidi, offrendo una visione senza precedenti del meccanismo di resistenza. In definitiva, questa ricerca contribuirà a sviluppare nuovi strumenti di screening della resistenza e strategie per la protezione sostenibile delle colture.
Obiettivo
Insect resistance to synthetic insecticides and the anti-herbivore defence chemicals produced by many plants is an ongoing challenge to sustainable pest management while also an exceptional model system to study adaptive evolution. The cytochrome P450s are a superfamily of enzymes that are ubiquitous in nature, and one of the most important enzyme families used by insects to defend themselves against natural and synthetic xenobiotics. Insects have been shown to evolve resistance through quantitative changes in P450 expression or via qualitative changes in P450s that alter metabolic activity. Despite their importance in conferring resistance the variety of regulatory changes that modulate P450 expression in resistant insects and their relative frequency/impact is not fully understood. Furthermore, although qualitative changes in insect P450s associated with resistance are relatively rare they represent a unique opportunity to characterise insecticide/toxin binding and identify the critical structure/function determinants of the P450/insect toxin interaction.
In this project I will exploit cutting-edge advances in genomics, epigenetics and transgenics to study the insect P450 resistome in three main workpackages:
WP-1: Will identify the molecular drivers of quantitative changes to insect P450s.
WP-2: Will explore the role of qualitative changes in insect P450s in mediating resistance and identify structure/function determinants of insecticide metabolism.
WP-3: Will exploit the knowledge gained in WP1/2 and from previous research to deliver a ‘P450 toolkit’ consisting of in vitro and in vivo screening tools, with which to identify resistance breaking chemistry, and high-throughput diagnostics for use in resistance management.
In summary this project will provide novel insights into this important enzyme family and provide tools that can be used to develop new products and strategies that slow, prevent, or overcome resistance and so ensure sustainable crop protection
Campo scientifico
Programma(i)
Argomento(i)
Meccanismo di finanziamento
ERC-COG - Consolidator GrantIstituzione ospitante
EX4 4QJ Exeter
Regno Unito