Blue Bio Database - Database of Fisheries, Aquaculture, Seafood Processing and Marine Biotechnology Projects

The available database comprises research projects in Fisheries, Aquaculture, Seafood Processing and Marine Biotechnology active in the time period 2003-2022.
BlueBio is an ERA-NET COFUND created to directly identify new and improve existing ways of bringing bio-based products and services to the market and find new ways of creating value from in the blue bioeconomy.

More information on the BlueBio project and participating funding organizations is available on the BlueBio website: www.bluebioeconomy.eu

Last Update: 2024/06/19

Acronym	LEGATEE
Category	Marine Biotechnology Aquaculture
Title	Parental immune priming and in ovo delivery of immunostimulants applied to aquaculture of fish larvae.
Programme	National Programme
Instrument (FP6) Contact Type (FP7) Strand (Interreg)	NA
Theme (FP7) Activity Area (FP6) Regional Area (Interreg) Action (COST)	NA
Specific Programme (FP7)	NA
Funding source	National
Coordinator	Ana Rocha
Coordinator email	anasantosrocha@ciimar.up.pt
Coordinator institution	CIIMAR - Interdisciplinary Centre of Marine and Environmental Research (Portugal)
Institutions involved	INRA - French National Institute for Agricultural Research (France), CSIC-IATS - Torre de la Sal Aquaculture Institute (Spain),
Start year	2021
End year	2024
Funding (€)	€ 243,634
Website	https://www2.ciimar.up.pt/projects.php?id=164
Summary	The production of high quality juveniles is still a bottleneck in the farming of numerous fish species. Survival until the juvenile stage is typically as low as 10-15% for many species. Early life protection against pathogenically hostile environments is achieved through a mixed passive immunity transmitted from maternal sources to offspring during oogenesis. However, many of these maternally transferred factors usually persist only for a very limited duration and completely disappear in the late larval stage. Parental experience with parasites and pathogens can lead to increased offspring resistance to infection, through a process known as transgenerational trained immunity. However, the mechanisms underlying transgenerational trained immunity are poorly understood. Among the potential pathways leading to the realization of transgenerational trained immunity it can be suggested: 1) transfer of active immune components; 2) transfer of PAMPs to offspring and 3) epigenetic modifications. Transgenerational trained immunity offers an attractive approach in intensive fish larval rearing. We will use high-throughput omic approaches (genomics and proteomics) to advance our understanding of transgenerational trained immunity in fish. We also propose to explore a new and exciting approach; the delivery of immunostimulants directly to fish eggs by an immersion bath. To test our hypothesis, we will use two model fish species; zebrafish and a marine medaka. The ultimate goal of the LEGATEE project is to shed light on the molecular mechanisms involved in egg immunity inheritance and will constitute a first necessary step for future progresses in the aquaculture sector and the development of patents.
Keywords	Engineering; Disease; Fish; Genomic and gene mining; Genetic; Larval development;
Marine Region	76 Not associated to marine areas 0
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