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Difference between revisions of "ALAS"

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::::* '''Duration''': 36 months
::::* '''Duration''': 36 months
::::* '''Start''': 2022-02-01
::::* '''Start''': 2022-02-01
::::* '''Web''': ย 
::::* '''Web''': https://www.uibk.ac.at/botany/units_research_groups/biochemistry.html.en


== About ALAS==
== About ALAS==
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=== Aims ===
=== Aims ===
:::: The specific aims are:
:::: The scientific goal of this research project is to improve our understanding of the energy flows in the chloroplast and in the mitochondria and the metabolite exchange between these two organelles under variable light conditions in terms of primary metabolism and growth.
:::::*


===Objectives===
===Objectives===
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== Coordinator ==
== Coordinator ==
::::*ย  [[Roach Thomas| Dr. Thomas Roach]] - Dr. Thomas Roach, University of Innsbruck, Department of Botany - https://www.uibk.ac.at/botany/units_research_groups/biochemistry.html.en
::::*ย  [[Roach Thomas| Dr. Thomas Roach]] - Dr. Thomas Roach, University of Innsbruck, Department of Botany - https://www.uibk.ac.at/botany/units_research_groups/biochemistry.html.en
::::*ย  Oroboros project manager:ย  [[Laner_Verena| Mag.Biol. Verena Laner]]


== Network == ย 
== Network == ย 
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}}
}}


== ALASย  dissemination ==


== Links ==
== Links ==

Revision as of 16:15, 10 February 2022

                



ALAS

ALAS - Algen-Lichtakklimatisierungstrategie zur Maximierung des Wachstums in Bioreaktoren

FFG


ALAS: FFG BRIDGE Project

About ALAS

Algae currently have a niche role in green industries, but have potential to provide much more. To do so, we need to understand photosynthesis and metabolism better. Led by Dr. Thomas Roach from the University of Innsbruck,the ALAS project aims to advance our understanding of which regulatory processes of photosynthesis are required under various growth conditions, and the influence they have on metabolism. The model green alga, Chlamydomonas reinhardtii, will be used to enable access to mutants available for testing the relevance of processes revealed to be important.

Aims

The scientific goal of this research project is to improve our understanding of the energy flows in the chloroplast and in the mitochondria and the metabolite exchange between these two organelles under variable light conditions in terms of primary metabolism and growth.

Objectives

Coordinator

Network

Participants

Department of Botany, University of Innsbruck
Oroboros Instruments GmbH - www.oroboros.at


PhD Supervisors

Oroboros project involvement

Along with expertise in high-resolution respirometry, Oroboros will provide a NextGen-O2k to characterize photosynthesis.

ALAS Events

ALAS Publications

Links

News and articles

Social Media

Research Networks

References

Support

This project has received funding from the Austrian Research Promotion Funding Agency (FFG).
FFG-logo.png