Summary
Organisms that inhabit the surface of the Earth have evolved an endogenous 24 hour clock that infiltrates every level of biological organisation from the molecular to the ecological. This biological timer is a critical adaptation to living on a rotating planet with predictable daily and seasonal cycles of light and dark, warmth and cold. The fruitfly Drosophila melanogaster has provided the model system by which the highly conserved genetic and molecular basis of animal rhythmicity was initially dissected, winning a Nobel Prize in 2017 to its discoverers. Our network INCITE (INsect Clock Initial Training Experience) will provide state-of-the-art doctoral training to doctoral candidates (DCs) in insect molecular chronobiology using a comparative approach in which the circadian clock will be studied from a variety of perspectives. These will include the recruitment of the clock for i) insect seasonal ‘hibernation’ or diapause, a critical life-history feature that has important implications for range expansion under global warming, ii) in pollination, ii) in pest control, iv) in optimising the development of insects mass-reared as a protein source for human/animal consumption – asustainable model for agriculture and vi) in fundamental circadian biology of the model insect, D. melanogaster. In addition to their research projects, DCs will be seconded to partners both academic and industrial within the network and be further exposed to a variety of successful well-defined and time-tested courses that supplement those already offered at their local institutions, and will enhance and develop their scientific, entrepreneurial and transferable skills. INCITE will generate highly-trained, mobile and employable graduates that will be welcomed both in academia and industry.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/101169474 |
Start date: | 01-09-2024 |
End date: | 31-08-2028 |
Total budget - Public funding: | - 3 877 120,00 Euro |
Cordis data
Original description
Organisms that inhabit the surface of the Earth have evolved an endogenous 24 hour clock that infiltrates every level of biological organisation from the molecular to the ecological. This biological timer is a critical adaptation to living on a rotating planet with predictable daily and seasonal cycles of light and dark, warmth and cold. The fruitfly Drosophila melanogaster has provided the model system by which the highly conserved genetic and molecular basis of animal rhythmicity was initially dissected, winning a Nobel Prize in 2017 to its discoverers. Our network INCITE (INsect Clock Initial Training Experience) will provide state-of-the-art doctoral training to doctoral candidates (DCs) in insect molecular chronobiology using a comparative approach in which the circadian clock will be studied from a variety of perspectives. These will include the recruitment of the clock for i) insect seasonal ‘hibernation’ or diapause, a critical life-history feature that has important implications for range expansion under global warming, ii) in pollination, ii) in pest control, iv) in optimising the development of insects mass-reared as a protein source for human/animal consumption – asustainable model for agriculture and vi) in fundamental circadian biology of the model insect, D. melanogaster. In addition to their research projects, DCs will be seconded to partners both academic and industrial within the network and be further exposed to a variety of successful well-defined and time-tested courses that supplement those already offered at their local institutions, and will enhance and develop their scientific, entrepreneurial and transferable skills. INCITE will generate highly-trained, mobile and employable graduates that will be welcomed both in academia and industry.Status
SIGNEDCall topic
HORIZON-MSCA-2023-DN-01-01Update Date
22-11-2024
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