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Blocking electron transfer in the mitochondria lowers the energy charge of the cells

Negation: Blocking electron transfer in the mitochondria does not lower the energy charge of the cells 0 0 0
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0 Citations
1 Consequence
2 Mentions

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Consequences

Argument #15e89666 1 0 2

If it is true that...

Redox cycles involving NAD/NADH and NADP/NADPH keep electrons from moving beyond ubiquinone and energizing the mitochondria 1 0 2

and

Blocking electron transfer in the mitochondria lowers the energy charge of the cells 1 0 2

Then it must be true that...

Estrogen directly lowers the temperature, while progesterone raises the temperature 1 0 2

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Updated

Related Propositions

Estrogen steals oxygen from mitochondria, shifting patterns of growth and adaptation 1 0 2The electron transfer process of the mitochondria is interrupted by the futile redox cycling catalyzed by estrogens 1 0 2Redox cycles involving NAD/NADH and NADP/NADPH keep electrons from moving beyond ubiquinone and energizing the mitochondria 1 0 2Darkness is a stress because it impairs mitochondrial energy production 1 0 2Mitochondrial function in general is poisoned by the unsaturated fats, especially arachidonic acid and DHA 1 0 2Endotoxin impairs mitochondria, increases estrogen levels, causes Kupffer cells in the liver to produce more tumor necrosis factor 1 0 2Blocking the production of lactic acid can make cells more resistant 1 0 2The changes that occur in malnutrition and hypothyroidism affect the mitochondria in a multitude of ways 1 0 2Hormones are regulated by the cell's energy charge 1 0 2The mitochondrial energy problem, cytochrome oxidase and its regulation; body temperature/pulse-rate cycle disturbance; lipid peroxidation; respiratory defect; altered amino acid uptake; memory impairment; dominance of the excitatory systems vs. the inhibitory adenosine/GABA/progesterone/pregnenolone system are functional and biochemical observations of Alzheimer's disease 1 0 1