Corpus evidence — top 10 passages

Most-relevant passages from the entire indexed corpus (67,286 paragraph chunks across YouTube transcripts, PubMed, arXiv, archive.org, Stanford Encyclopedia of Philosophy, OpenAlex, and more) ranked by semantic similarity (bge-small-en-v1.5).

1. 01 · _intake0.788

   > reason why this gets really complex is people don't realize why cytochrome one is incredibly important because when [ __ ] goes bad there cytochrome one is almost always next to where

   _intake/claims-allbranch/curated-low/cytochrome/003-reason-why-this-gets-really-complex-is-people-don-t-realize-.md

2. 02 · _intake0.775

   Let us examine how this process occurs. All food is broken down into electrons that enter electron chain transport. At each cytochrome protons are pushed out of their cytochrome channels. The fourth cytochrome is called the cytochrome c oxidase that catalyses the last stage in the oxidation of foodstuffs in the membrane of the mitochondria, in which oxygen is reduced to water by combining with protons and electrons. The irony is the cytochrome c oxidase, pumps more than 103 protons per second. This is a much higher rate at which protons can be supplied to the proton conducting channels of the …

   _intake/kruse-blog-corpus/articles/tensegrity-9-magnetic-mitochondria-memory-creates-coherence.md

3. 03 · _intake0.774

   This is a critical point between the two major arms of metabolism. Mitochondrial cytochrome proteins are like MRI machines for electrons and protons. They are designed to tell the difference in the energies of electrons and protons energies and information. From those two physical differences, the proteins within the cytochromes dictate the pathway where those subatomic particles should flow.

   _intake/kruse-blog-corpus/articles/energy-epigenetics-12-battery-charged.md

4. 04 · yt0.767

   It's got 12 electrons. So, when you put it inside that cage, it means light can't affect its oxidation state. So, what did that do? They took CO2, created more oxygen, and that's how you got the whole food uh pyramid. That's where every single food web ties back to that process. 50 year 50 million years later, right at the beginning of the Cambrian explosion, evolution kicks out the idea of heme proteins. Where does it get this idea? From the story I just told you. Oxygen now is going from 0% up to like 10 or 15% and oxygen's toxic, so they take bacteria and and archaea, put them together. And…

   yt/wwNutyiyQ2I-interview-with-dr-jack-kruse-04-08-2025/transcript.txt

5. 05 · _intake0.766

   When you have this fundamental insight of how electrons can alter proteins and mitochondria, your perspective has to change. It is not what happens to you that matters most, rather it is how you respond to the stressor. Adding electrons to your proteins makes them more elastic to life’s stressors. Protons stiffen your response to environmental pressures. This leads to a less compliant design in our proteins’ conformations. We become less adaptable to our environment which leads to cellular chaos. Medical schools and PhD programs are full of students who are good at adopting the given “wisdom” …

   _intake/kruse-blog-corpus/articles/organizational-structural-failure-6-mitochondrial-rx.md

6. 06 · _intake0.763

   Once electrons are tunneled, they head toward oxygen to reduce it. The inner mitochondrial membrane also has a water hydration shell around it. The electrons carry energy that has the ability to polarize this water shell. That water becomes charge separated into an exclusion zone as discussed in Gerald Pollack’s experiments on water. This water shell contains protons that are transferred to the ATPase to make ATP. Two electrons move through each cytochrome, and four protons are moved from inside the mitochondria to outside its inner mitochondrial membrane. When these athletes are in a “warm en…

   _intake/kruse-blog-corpus/articles/organization-structural-failure-8-ketosis-appears-fail.md

7. 07 · yt0.763

   Because where does that cytochrome Where is it found? This is important for you to understand. It's found right before the ATPase. So, you We're creating a huge amount of electrical resistance at that level, so that that energy then can be distributed to other places to cause other innovations in the cell. And doesn't that make sense when you think about the story that Darwin could never figure out? Why all of a sudden did we get 32 phyla seems like overnight? Well, because guess what? We figured out we needed to use photo-bioelectric resistance to capture the light to use it to do other thing…

   yt/wwNutyiyQ2I-interview-with-dr-jack-kruse-04-08-2025/transcript.txt

8. 08 · _intake0.762

   The sun splits water from its molecular chemical composition of H2O into 2 Hydrogen + 2 electrons + oxygen. These electrons are transferred to plants and foodstuffs via photosynthesis on the back of the water molecule. This is why plants, trees, and bacteria need water to grow. Animals have a more complex way of doing it because as more complex life forms they require more energy to power their newer evolutionary designed systems. Animals transfer the electrons from food to their mitochondria using water in a cell as the transfer mechanism. In this process, they use proteins loaded with iron t…

   _intake/kruse-blog-corpus/articles/energy-and-epigenetics-4-light-water-magnetism.md

9. 09 · _intake0.760

   The amount of light absorbed at cytochrome 1 is also stochastically linked to the amount of oxygen needed by a mitochondria. Remember all electrons in mitochondria are sent to reduce oxygen to O2. This is the only reason animals need to breathe. In this way oxygen is a measuring stick for how fast electron tunneling needs to be. This means that tunneling speeds are also linked to temperature of the surrounding local environment. As oxygen from the environment lowers in pseudohypoxia, ECT must also slow.

   _intake/kruse-blog-corpus/articles/biohacking-time-with-methylene-blue.md

10. 10 · _intake0.758

    Semiconductor engineers get paid massive amounts of money in Silicon Valley to make sure electrons move across silicon wafers as fast as possible to increase our computing power in computers. Well, evolution did the exact same thing about 2 to 3 billion years ago. Mitochondria allow electrons to dance over their inner membrane to make energy. Animal cells now contain thousands of these power plants in their cells. The amount of DNA found in mitochondria is even more impressive. They have 10-20 times more mitochondrial DNA than nuclear DNA even today. Moreover, we inherit our entire mitochondri…

    _intake/kruse-blog-corpus/articles/what-powers-life-and-death.md