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	CYANOBESITY
Category	Marine Biotechnology
Title	Cyanobacteria as a source of bioactive compounds with effects on obesity and obesity-related co-morbidities
Programme	International Cooperation
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-European
Coordinator	Siegfried Ussar
Coordinator email	siegfried.ussar@helmholtz-muenchen.de
Coordinator institution	CIIMAR - Interdisciplinary Centre of Marine and Environmental Research (Portugal)
Institutions involved	NA - ArcticMass (Sweden), NA - Helmholtz Zentrum München – German Research Center for Health and the Environment (Germany), LiU - Linköping University (Sweden), HI - University of Iceland (Iceland),
Start year	2017
End year	2019
Funding (€)	€ 1,893,000
Website	http://www.marinebiotech.eu/sites/marinebiotech.eu/files/public/cyanobesity_Project%20description%20ERA-MBT%20Call%202.pdf
Summary	An urgent demand for new anti-obesogenic compounds is present, and marine cyanobacteria promise to be an excellent source for natural-derived molecules and novel nutraceuticals. Some strains of cyanobacteria are commercially available for consumption due to their beneficial properties to human health. Preclinical studies have been performed in various animal models and demonstrated hypolipidemic activities in rats and mice, lowering hepatic cholesterol and triglyceride levels. In the proposed project, marine cyanobacterial strains of a culture collection will be screened for beneficial properties towards obesity and obesity-related comorbidities (obesity, fatty liver disease, diabetes, appetite and hyperlipidaemia) and the chemical structure will be elucidated. By applying an innovative biotechnological platform, the interactions from oral administration to the blood stream will be analyzed, and with different target tissues in vitro. A proof of concept regarding the improvement of metabolism will be performed in a relevant physiological model. The general aim of the project is to develop novel nutraceuticals that have the potential to improve the quality of life for millions of people worldwide.
Keywords	Nutraceutical substances; Bioprospecting; Bacteria; Human health;
Marine Region	76 Not associated to marine areas 0
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