ASAP

Thylakoid membrane in action: acclimation strategies in algae and plants

 Coordinatore STICHTING VU-VUMC 

Spiacenti, non ci sono informazioni su questo coordinatore. Contattare Fabio per maggiori infomrazioni, grazie.

 Nazionalità Coordinatore Netherlands [NL]
 Totale costo 1˙696˙961 €
 EC contributo 1˙696˙961 €
 Programma FP7-IDEAS-ERC
Specific programme: "Ideas" implementing the Seventh Framework Programme of the European Community for research, technological development and demonstration activities (2007 to 2013)
 Code Call ERC-2011-StG_20101109
 Funding Scheme ERC-SG
 Anno di inizio 2011
 Periodo (anno-mese-giorno) 2011-12-01   -   2016-11-30

 Partecipanti

# participant  country  role  EC contrib. [€] 
1    VERENIGING VOOR CHRISTELIJK HOGER ONDERWIJS WETENSCHAPPELIJK ONDERZOEK EN PATIENTENZORG

 Organization address address: De Boelelaan 1105
city: AMSTERDAM
postcode: 1081 HV

contact info
Titolo: Ms.
Nome: Dirkje
Cognome: Schinkelshoek
Email: send email
Telefono: +31 20 5987500
Fax: +31 20 5987448

NL (AMSTERDAM) beneficiary 0.00
2    STICHTING VU-VUMC

 Organization address address: DE BOELELAAN 1105
city: AMSTERDAM
postcode: 1081 HV

contact info
Titolo: Dr.
Nome: Yvonne
Cognome: Kops
Email: send email
Telefono: 31205987500

NL (AMSTERDAM) hostInstitution 1˙696˙961.00
3    STICHTING VU-VUMC

 Organization address address: DE BOELELAAN 1105
city: AMSTERDAM
postcode: 1081 HV

contact info
Titolo: Prof.
Nome: Roberta
Cognome: Croce
Email: send email
Telefono: +31 20 5986310
Fax: +31 20 5987504

NL (AMSTERDAM) hostInstitution 1˙696˙961.00

Mappa


 Word cloud

Esplora la "nuvola delle parole (Word Cloud) per avere un'idea di massima del progetto.

death    plants    membrane    energy    harvesting    mechanisms    life    capacity    photosynthetic    light    chemical    molecular    physical    reactions    us   

 Obiettivo del progetto (Objective)

'Life on earth is sustained by the process that converts sunlight energy into chemical energy: photosynthesis. This process is operating near the boundary between life and death: if the absorbed energy exceeds the capacity of the metabolic reactions, it can result in photo-oxidation events that can cause the death of the organism. Over-excitation is happening quite often: oxygenic organisms are exposed to (drastic) changes in environmental conditions (light intensity, light quality and temperature), which influence the physical (light-harvesting) and chemical (enzymatic reactions) parts of the photosynthetic process to a different extent, leading to severe imbalances. However, daily experience tells us that plants are able to deal with most of these situations, surviving and happily growing. How do they manage? The photosynthetic membrane is highly flexible and it is able to change its supramolecular organization and composition and even the function of some of its components on a time scale as fast as a few seconds, thereby regulating the light-harvesting capacity. However, the structural/functional changes in the membrane are far from being fully characterized and the molecular mechanisms of their regulation are far from being understood. This is due to the fact that all these mechanisms require the simultaneous presence of various factors and thus the system should be analyzed at a high level of complexity; however, to obtain molecular details of a very complex system as the thylakoid membrane in action has not been possible so far. Over the last years we have developed and optimized a range of methods that now allow us to take up this challenge. This involves a high level of integration of biological and physical approaches, ranging from plant transformation and in vivo knock out of individual pigments to ultrafast-spectroscopy in a mix that is rather unique for my laboratory and will allow us to unravel the photoprotective mechanisms in algae and plants.'

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