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Difference between revisions of "Template:Next oroboros ecosystem agenda"

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| width="110" align="center" | [[File:MitoPedia.jpg|left|80px|MitoPedia]]
| width="110" align="center" | [[File:MitoPedia.jpg|left|80px|MitoPedia]]
|'''The central role of the Q-junction in mitochondria'''<br>
|'''The central role of the Q-junction in mitochondria'''<br>
The Q-junction is a point of convergence in the electron transfer system. Electrons flow from different dehydrogenases and respiratory complexes into the Q-junction and then downstream to Complex III. <br>
The Q-junction is a point of convergence in the electron transfer system. Electrons flow from different dehydrogenases and respiratory Complexes into the Q-junction and then downstream to Complex III. <br>
- »[[Q-junction]]« <br>
- »[[Q-junction]]« <br>
- communicated by »[[Komlodi Timea]]« and »[[Schmitt Sabine]]« <br>
- communicated by »[[Komlodi Timea]]« and »[[Schmitt Sabine]]« <br>

Revision as of 13:57, 1 December 2021

2021 Week 49
  • Dec-06 Mo

  • Dec-07 Tu
Gnaiger 2020 BEC MitoPathways What is ROUTINE respiration?

ROUTINE respiration is the respiratory activity of living (non-permeabilized) cells in the physiological coupling state, which is controlled by cellular energy demand, energy turnover and the degree of coupling to phosphorylation.
- »Gnaiger 2020 BEC MitoPathways - Chapter 2.4« 
- communicated by »Komlodi Timea« and »Schmitt Sabine«


  • Dec-08 We
MitoPedia
The central role of the Q-junction in mitochondria

The Q-junction is a point of convergence in the electron transfer system. Electrons flow from different dehydrogenases and respiratory Complexes into the Q-junction and then downstream to Complex III.
- »Q-junction« 
- communicated by »Komlodi Timea« and »Schmitt Sabine« 


  • Dec-09 Th
O2k-Open SupportInfo: improve How do you measure ROUTINE respiration?

ROUTINE respiration (R) of living cells is measured before permeabilization of the cell membrane either in cell culture medium or any other respiration media (e.g. MiR05) in the presence or absence of exogenous substrates. Allow R to stabilize for 15-20 min.
- »ROUTINE respiration« and »Doerrier 2018 Methods Mol Biol« 
- communicated by »Komlodi Timea« and »Schmitt Sabine«


  • Dec-10 Fr


2021 Week 50
  • Dec-13 Mo
MitoPedia
Why use a short-chain coenzyme Q mimetic for measurement of the Q-redox state using the Q-Module?

The naturally occurring long-isoprenoid chain coenzyme Q (e.g. CoQ10 or CoQ9) is trapped within membrane boundaries. Therefore, a short-chain, membrane-permeable CoQ mimetic, CoQ2 is used as a probe which reacts with the mitochondrial respiratory Complexes at their quinone-binding sites and with the working electrode of the Q-sensor.
- »Coenzmye Q2« and »Q-Module« 
- communicated by »Komlodi Timea« and »Schmitt Sabine« 


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