Difference between revisions of "MitoPediaAlert2020 Archive"
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| width="110" align="center" | [[File:MitoPedia.jpg|left|80px|MitoPedia]] | |||
| Would you like to simultaneously monitor O<sub>2</sub> flux and the [[Q redox state|redox state]] of the [[Q-junction]] in isolated mitochondria? Soon you will be able to with the new Q-Module being developed as a part of the [[NextGen-O2k|H2020 SME NextGen-O2k]] project: <br> | |||
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Revision as of 08:22, 17 August 2020
- Currently Answered Questions from the »Oroboros Ecosystem Agenda«
Aug 2020
- Aug-20 Th
Would you like to simultaneously monitor O2 flux and the redox state of the Q-junction in isolated mitochondria? Soon you will be able to with the new Q-Module being developed as a part of the H2020 SME NextGen-O2k project:
- »Q-Module«
- Aug-13 Th
Photosynthesis efficiency is reduced by 25% in plants and algae due the metabolic process called photorespiration.
- »Photorespiration«
- Aug-06 Th
OXPHOS-coupling efficiency (1-L/P) describes the coupling of the mitochondrial electron transfer system. This coupling control factor ranges from 1.0 for a fully coupled system to 0.0 for a system with zero respiratory phosphorylation capacity (L=P). It is suggested to use OXPHOS-coupling efficiency instead of the respiratory acceptor control ratio (RCR) to evaluate mitochondrial coupling.