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• Bioenergetics Discussion

  Place to discuss the work of Ray Peat, Otto Warburg, Albert Szent-Györgyi and the interdependence of energy and structure

  • Literature Review
  • Ray Peat Resources
  • Not Medical Advice
  • Products
  • The Kitchen
  • The Gym
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  Dopamine directly affects mitochondria, particularly in neurons, by inhibiting complex I of the electron transport chain, reducing membrane potential, and causing swelling. Excessive dopamine oxidation leads to mitochondrial dysfunction, decreased ATP production, and increased oxidative stress, which are relevant to neurodegenerative diseases like Parkinson's. Key Impacts of Dopamine on Mitochondria: Complex I Inhibition: Dopamine specifically inhibits mitochondrial complex I, reducing the efficiency of energy production. Oxidative Stress: The oxidation of dopamine produces reactive oxygen species (ROS), causing mitochondrial National Institutes of Health (NIH) | (.... https://pubmed.ncbi.nlm.nih.gov L-DOPA causes mitochondrial dysfunction in vitro by S Giannopoulos 2019 Cited by 23 - L-DOPA causes mitochondrial dysfunction in vitro: https://www.nature.com Impairment of neuronal mitochondrial function by I-DOPA ... by P Hörmann 2021 Cited by 25 - Further mechanistic analysis indicated that I-DOPA reprogrammed mitochondrial metabolism PLOS https://journals.plos.org Dopamine Inhibits Mitochondrial Motility in Hippocampal Neurons by S Chen 2008 Cited by 99 - In the present study, we found that dopamine exerts a net inhibitory effect on mitochondrial movement Thoughts on all this?
• Case Studies

  Discussion of individual human or animal cases. "There is no foreseeable limit to the qualitative development of the economy." - Ray Peat, Generative Energy

  • Experimental Logs
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  2k Posts

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  @engineer How's your experience with this setup going so far? I just moved into a house that receives very little natural light coming in through the windows, as it's squeezed tightly in between two other shotgun-style houses, and I'm looking into my various options for tackling the problem. I've got plenty of chicken clamp-lamps, and a red light panel that I use for spot treatment directly on my body, but I need a broader solution that'll cover an entire room and make working from home without adequate natural sunlight tolerable.
• The Noosphere

  Discussion of culture, literature, and politics

  • Art
  • Current Events
  • Bioenergetic Development
  • Philosophy
  • Esoteric, Paranormal, & Consciousness
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  https://www.youtube.com/watch?v=2cZ_EFAmj08
• Meta

  Conversations about Bioenergetic Forum
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  @LetTheRedeemed https://www.diningandcooking.com/2025190/new-study-suggests-link-between-cheese-and-long-life/ " The study, published in the Journal of Agricultural and Food Chemistry, suggested that fermented dairy products such as cheese could contribute to longevity and health." https://www.guentensperger-kaese.ch/en/post/news-cheese-and-life-expectancy
• The Junkyard

  Off-topic or unclear threads sent here. But dig around and you might find some gems.
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  @alfredoolivas said in PC choline to stabilize membranes: Your body will break down the PC into lysophosphatidylcholine + free fatty acids. Back in the body, your body will a join the lysophosphatidylcholine with circulating fatty acids. When the enter the cell, it breakds down back into lysophosphatidylcholine, and rejoins with fatty acids in the cell back into PC.So as long, as you eat saturated fat with the PC, then basically, you will be receiving saturated PC. This doesn't seem to make enough sense for me. The fact there is a kind of lipolysis makes the fact even more crucial that there be a saturated PC. If the original PC contains PUFAs like linoleic acid (18:2), those PUFAs are released into circulation and can be incorporated into tissues, including mitochondrial and cellular membranes, where they increase oxidative stress and inflammation. Even if lysoPC is re-acylated with saturated fats, some PUFA has already entered the system, and it’s not excreted immediately. Crucially, the enzyme LPCAT3 responsible for re-acylation, strongly prefers polyunsaturated fatty acyl-CoAs, especially arachidonic acid. Although, I tend to use different language in describing that, as more or less a hijacking than anything else. This means that even in a high-saturated-fat context, the body prioritizes incorporating PUFAs into PC when available. And although metabolcally and typically, saturated fats are preferential fuel over PUFA, in the case of the building PC, PUFA wins, hence why I prefer the term hijack. So if dietary PC contains PUFAs, they’re more likely to be retained and recycled, not replaced. Studies show that LPCAT3 knockout mice have reduced PUFA content in PC and are protected from diet-induced fatty liver! This was a indirect evidence incidentally, because the researchers were looking at total overall PC from high fat diet as related to disease progression. But guess what, the high fat diet is your typical formula: 25 grams Soybean Oil and almost 300 grams pig lard. This confirming that this enzyme drives PUFA incorporation into membranes. The takeaway being it is doubly important we use saturated PC. High-fat diet-induced upregulation of exosomal phosphatidylcholine contributes to insulin resistance Anil Kumar, et al