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 · _intake0.972

   > 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 · yt0.809

   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

3. 03 · yt0.778

   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

4. 04 · yt0.771

   And then when when the two domains join, which is where we're at now, then you have to ask yourself, okay, how did the membrane deal with the 30 million volt charge that was in it? Obviously, that charge is the thing that gets harnessed to build the 32 filo that we already know about. So, this is where the story that I was getting into with you about heem being important. He uh comes up with one of its first proteins. What's that first protein? It's called cytochrome c oxidase. So I'm going to put my fingers up. I don't know if you use videos in your thing or not, but I know that you know this…

   yt/67sLlXeMg2I-regenerative-energy-the-light-inside-you-jack-kruse-221/transcript.txt

5. 05 · yt0.770

   So what's the the next semiconductive protein that life innovates which I think most of you know uh that's called hemoglobin and it's similar to to um uh chlorophyll in terms of its basic structure. Right. Right. Well, when you talk about its basic structure, this is the key part that I think uh where biochemists begin to [ __ ] the bed. Everybody knows that it's in uh the same ring structure that magnesium is in, but you know that iron has 26 electrons. So much more complex because it can absorb more light. But there's something very peculiar about iron that people in biochemistry r…

   yt/67sLlXeMg2I-regenerative-energy-the-light-inside-you-jack-kruse-221/transcript.txt

6. 06 · yt0.768

   But the problem is when this 30 million volt charge breaks, say from COVID, from an infection, from bacteria, from trauma. It doesn't matter what the cause is. It breaks, that means that that electricity can get out. So, why does nature come up with the first heme protein that's likely CCO? Cuz it makes deuterium-depleted water by reversing the process of uh photosynthesis. Why did nature pick that? I told uh the doctors that I taught in the ICU during COVID, the reason why is if you know anything about physics, water that has no electrolytes and no deuterium in it doesn't transmit any electri…

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

7. 07 · _intake0.766

   - **Concept**: `cytochrome` - **Source**: [Dr. Jack Kruse Nourish Vermont 2017 Q & A- part 10 of 10](https://www.youtube.com/watch?v=Uvm0dho_KRM&t=679) - **Timestamp**: `00:11:19.279` (~679s) - **Score**: 5 · **Pattern signals**: always, because - **Cross-concepts**: — - **Captured**: 2026-05-11

   _intake/claims-allbranch/curated-low/cytochrome/004-340-nanometer-light-so-if-you-want-to-know-why-electrons-fro.md

8. 08 · yt0.765

   That's where the other cytochrome proteins are made. And the other cytochrome proteins further were able to make other uh magneto-chemistry, which is superoxide, hydrogen peroxide. These are all chemicals that become electric resistance molecules that slow light down to do different things distal to it. And when you actually see what nitric oxide does, it also acts at cytochrome c oxidase, which is the fourth cytochrome, right before the ATPase. So, now you have a cap on how hemoglobin can work, and it turns out when nitric oxide binds to hemoglobin at a significant amount when we're hypoxic, …

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

9. 09 · yt0.762

   But the other key thing that I started to notice is I remember in medical school learning about how hllet types in mitochondria vary by geography and also by latitude. So this is the key. This is where the cradle of life is right here. Why is this important for everybody in the room to understand? Because people that live in the east African rift zone, the original humans, they have an L0 hletype. What does that mean? That means they do not uncouple their mitochondria. Why is that? They need all their energy to run away from lions. Okay, people that live up here, which is most of us in the roo…

   yt/zGAACx89jMU-dr-jack-kruse-nourish-vermont-2017-on-circadian-biology-and-/transcript.txt

10. 10 · _intake0.762

    It turns out, light, water, and soil determinants of the environment build the conditions that life can take advantage of. Where they are found, determine what life is capable of. All of them are coupled to one another. Biochemistry ideals are built when these systems are coupled properly. Small proteins link them together. The key point is what happens to biochemical understanding when these coupled systems no longer work together, when they uncouple. That is the point of this entire ubiquitin series. When things are uncoupled, biochemistry no longer unfolds how we expect it too. Light freque…

    _intake/kruse-blog-corpus/articles/ubiquitination-11-your-quantized-ecosystem.md