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 · yt0.778

   So then hemoglobin becomes able to deliver the oxygen to the tissues who need it. The point that I'm trying to make to you is I just explained to you we have three different hemoglobins. Now for the people who are really paying attention to the office there they probably realize well there's thalismia there's G6PD there's cickle cell anemia. Yeah, these are all different hemoglobins that evolved during the time of the GOE. And at that time, they all had different evolutionary uh links and and key points. And all of that pointed to the things that were going on with oxygen during the GOE until …

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

2. 02 · _intake0.773

   > thing happens what happens the blood vessels are raised to the surface so that they can absorb light what is hemoglobin absorb 250 to 600 nanometer light so red blood cells are ferryboats hmm then to work operationally they have to be sulfated what else do you know in your body that has to be sulfated most people never talk about cholesterol and

   _intake/claims-allbranch/curated-low/iron/007-thing-happens-what-happens-the-blood-vessels-are-raised-to-t.md

3. 03 · yt0.769

   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

4. 04 · yt0.762

   Turns out, when you look back at life, the first two domains, they were obligate anaerobes, they were functioning in a completely different environment. So, between those two things, the story about oxygen becomes really important. And when you point out to people that the TCA cycle basically is a cycle that's based around oxygen levels are really high, you start to ask yourself the question, well, what happens when oxygen for some reason is not very high uh around us? And can it be turned off some way? And this is where the rubber meets the road. Turns out, when you look at oxygen carrying ca…

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

5. 05 · yt0.761

   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

6. 06 · yt0.757

   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

7. 07 · yt0.749

   Stabilizes the alpha and beta chains and it actually uh helps. So generally this is something that the biohysics community doesn't really know yet because I'm actively fighting with them on Twitter just about every day as well. They believe that most nucleated cells, you know, that red blood cells aren't nucleated so that means they don't have mitochondria. They're like, "Well, how the hell does a mitochondria, I should say, how the hell does a red blood cell actually make biophotons?" But there's papers out there that show and they all they all stem from Fritz props work because he did look a…

   yt/2njvFN-W4zc-red-light-blue-light-brain-damage-dr-jack-kruse-explains-wtf/transcript.txt

8. 08 · yt0.748

   Once that stuff gets out into the cells, the cells are going to use it. They're going to use the oxygen. They're going to use the glucose. They're going to use the amino acids. They're going to use the hormones. And as a consequence, they are going to create some waste products. There's going to be carbon dioxide that's created. There's going to be cellular waste in the form of actual physical debris. There are going to be metabolites. There's going to be ammonia. Basically, a bunch of waste product is going to then get kicked out of those cells into what's called the "extracellular space." No…

   yt/KBkl3I645c8-improve-your-lymphatic-system-for-overall-health-appearance/transcript.txt

9. 09 · yt0.746

   There are rare exceptions of arteries that deliver non-oxygenated blood to tissues such as the lungs, but let's just set that aside for now. We've got this arterial system that delivers oxygenated blood, and then now, we have the venous system. So, we have these little venous capillaries that are also just one cell wall thick, and the water, the carbon dioxide, the ammonia, the waste products are going to get reabsorbed there. It's going to then go from small diameter tubes, the venous capillaries, up to larger diameter tubes, and eventually into the veins that are going to deliver that blood,…

   yt/KBkl3I645c8-improve-your-lymphatic-system-for-overall-health-appearance/transcript.txt

10. 10 · yt0.745

    They have walls of those tubes that can resist a lot of pressure, and that's important because we need to put a lot of pressure to be able to pump blood far out into the body, out to your fingertips, your toes, and everything in between. Okay, oxygenated blood is going to travel out through those arteries, and then eventually, as those arteries approach the tissues that they need to oxygenate... And by the way, the blood is delivering not just oxygen, but also glucose, blood sugar, hormones, different proteins, amino acids, all the stuff that your tissues need, not just oxygen. But then those …

    yt/KBkl3I645c8-improve-your-lymphatic-system-for-overall-health-appearance/transcript.txt