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Flagship projects

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On this page, you can discover a presentation of the 546 projects funded by Agropolis Fondation since its creation in 2007. A search engine is at your disposal and the projects are extractable in PDF format.

The flagship projects are presented above. These are the ones that have received more than 500 000 euros in funding.

The Foundation supports three categories of projects:

Research projects Training projects Dissemination, promotion and transfer projects
Exploratory and innovative projects;
Disciplinary projects exploring research fronts;
Major multidisciplinary flagship projects.
Creation of training courses;
Establishment of MOOCs;
International thematic schools.
International scientific events;
Project maturation/transfer;
Publication and dissemination.

If you are the project leader, do not hesitate to contact us if you wish to make any changes.
We have chosen to present all projects in English to simplify export.

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’Drought and salinity tolerance in rice (Oryza sativa L.)’

’Drought and salinity tolerance in rice (Oryza sativa L.): cell biology ap-proaches’

’The rationale of our project is to use a strategy of over-expression of proteins suspected to be involved in (1) osmotic adjustment and (2) endosomal trafficking for a better understanding of drought and salt tolerance in rice plants.’
See the notice
’Drought and salinity tolerance in rice (Oryza sativa L.)’

’Drought and salinity tolerance in rice (Oryza sativa L.): cell biology ap-proaches’

’The rationale of our project is to use a strategy of over-expression of proteins suspected to be involved in (1) osmotic adjustment and (2) endosomal trafficking for a better understanding of drought and salt tolerance in rice plants.’
See the notice
’Drought and salinity tolerance in rice (Oryza sativa L.)’

’Drought and salinity tolerance in rice (Oryza sativa L.): cell biology ap-proaches’

’The rationale of our project is to use a strategy of over-expression of proteins suspected to be involved in (1) osmotic adjustment and (2) endosomal trafficking for a better understanding of drought and salt tolerance in rice plants.’
See the notice
’Drought and salinity tolerance in rice (Oryza sativa L.)’

’Drought and salinity tolerance in rice (Oryza sativa L.): cell biology ap-proaches’

’The rationale of our project is to use a strategy of over-expression of proteins suspected to be involved in (1) osmotic adjustment and (2) endosomal trafficking for a better understanding of drought and salt tolerance in rice plants.’
See the notice
’Drought and salinity tolerance in rice (Oryza sativa L.)’

’Drought and salinity tolerance in rice (Oryza sativa L.): cell biology ap-proaches’

’The rationale of our project is to use a strategy of over-expression of proteins suspected to be involved in (1) osmotic adjustment and (2) endosomal trafficking for a better understanding of drought and salt tolerance in rice plants.’
See the notice
’MoniBref’

’Exploration of the genetic variability of peach phenolic and triterpenoid com-pounds as natural defense against brown rot’

’Brown rot caused by Monilinia spp. provokes dramatic losses of fruit. In Southern Brazil, the crop losses, after harvest, can be higher than 25%. In France, damages reach the same order of magnitude depending on the year.’
See the notice
’MoniBref’

’Exploration of the genetic variability of peach phenolic and triterpenoid com-pounds as natural defense against brown rot’

’Brown rot caused by Monilinia spp. provokes dramatic losses of fruit. In Southern Brazil, the crop losses, after harvest, can be higher than 25%. In France, damages reach the same order of magnitude depending on the year.’
Quality Plant Transformation Modelling Morocco wheat
See the notice
’MoniBref’

’Exploration of the genetic variability of peach phenolic and triterpenoid com-pounds as natural defense against brown rot’

’Brown rot caused by Monilinia spp. provokes dramatic losses of fruit. In Southern Brazil, the crop losses, after harvest, can be higher than 25%. In France, damages reach the same order of magnitude depending on the year.’
See the notice
’MoniBref’

’Exploration of the genetic variability of peach phenolic and triterpenoid com-pounds as natural defense against brown rot’

’Brown rot caused by Monilinia spp. provokes dramatic losses of fruit. In Southern Brazil, the crop losses, after harvest, can be higher than 25%. In France, damages reach the same order of magnitude depending on the year.’
Sustainability Agroecosystem Cultivation technique Model Participatory Stress Vitis vinefera Vinechard Vigne et vin
See the notice
’MoniBref’

’Exploration of the genetic variability of peach phenolic and triterpenoid com-pounds as natural defense against brown rot’

’Brown rot caused by Monilinia spp. provokes dramatic losses of fruit. In Southern Brazil, the crop losses, after harvest, can be higher than 25%. In France, damages reach the same order of magnitude depending on the year.’
See the notice