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 · _intake0.833

   > from carbohydrates always enter at cytochrome 1, now you know why. Because carbohydrates grow when long light cycles when what kind of lights out? Purple light. So, if you live in Vermont

   _intake/claims-allbranch/curated-low/cytochrome/005-from-carbohydrates-always-enter-at-cytochrome-1-now-you-know.md

2. 02 · _intake0.794

   When energies of electrons are higher because of the action of the photons of the sun, that signal is transduced by the cytochromes in the electron chain transporters. Most electrons from carbohydrates enter at cytochrome one because NADH is a fluorophore-protein. It absorbs best at 340 nm range of light which is strongly in the UV range of the solar spectrum. This couples photoelectrically with insulin release from the pancreas. It uses another solar hormone, melatonin, to help it achieve its goals in the gut. Melatonin is first made with the interaction of UV light and aromatic amino acids i…

   _intake/kruse-blog-corpus/articles/time-17-melatonin-insulin-solar-metronomes.md

3. 03 · _intake0.776

   The absorption of the light is due to the fact that electrons in the NADH are excited by powerful UV light and receive a quantum of energy and momentum that correspond precisely to the energy of the photon that was absorbed from the sun when that food electron was originally growing. Those photons, at cytochrome 1 are carried “on the back of electrons” that come from carbohydrates. The energy and momentum of this light is delivered to cytochrome 1 where the NADH/NAD+ couple exists. The key point, with respect to NADH, it is the duration it remains in this high state. That duration of the high …

   _intake/kruse-blog-corpus/articles/ubiquitination-25-uv-light-and-poop-plants.md

4. 04 · yt0.772

   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

5. 05 · _intake0.766

   To synthesize one molecule of glucose by photosynthesis, 24 electrons must be removed from water molecules. These electrons are held by the redox potential of oxygen (+0.82V). They are pumped uphill to carbon atoms that are partially reduced to a carbohydrate with a redox potential of -0.42V. The potential energy difference is 1.24 Volts. This change in free energy is in the positive direction. The result of this energy transfer creates 2870.2 kJoules of energy. This is an astounding amount of energy capture when you understand the quantum dance of the sun on water.

   _intake/kruse-blog-corpus/articles/quantum-biology-9-photosynthesis.md

6. 06 · _intake0.764

   > 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 vitamin D you know that vitamin D is made from cholesterol there's only one

   _intake/claims-allbranch/curated-low/vitamin-d/005-that-they-can-absorb-light-what-is-hemoglobin-absorb-250-to-.md

7. 07 · _intake0.763

   ### Readers … - **iron-heme-redox** - `_intake/concept-digests/iron-heme-redox.md` - … effect(1), photoelectric(1), collagen(1), <<heme>>(1 … - **<<photosynthesis>>-<<quantum>>** - `_intake/concept-digests/<<photosynthesis>>-<<quantum>>.md` - … queued (not yet researched … - **<<iron>>-<<heme>>-<<redox>>** - `_intake … - **Quantum biology — coherence, tunneling, photosynthesis — concept canon-target intake** - `_intake/concept-quantum-biology/README.md` - # <<Quantum>> biology — coherence, tunneling, <<photosynthesis>> — concept canon-target intake

   _intake/concept-digests/photosynthesis-quantum.md

8. 08 · yt0.758

   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

9. 09 · _intake0.758

   You need to realize that DHA is the best material to catch electrons and photons from our environment. Collecting them has to be done in the perfect seasonal circadian manner because seasons yoke electrons with photon power. Highly powered photons are tied to electrons that make low levels of ATP. Catching electrons is a function of the proper topologic semiconductors in us. Assimilation of those electrons begins in the mitochondrial cytochromes. They, too, have a circadian arrangement. This is why electrons from carbohydrates come from long, light, highly powered electrons that are funneled i…

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

10. 10 · _intake0.757

    Just so we are clear. Chronic artificial blue light is equivalent to chronic excessive carbohydrates because both contain excessive photoelectric energies. This alters mitochondrial functioning after a period of time because our mitochondria evolved expecting a seasonal variation of energies in both photons and electrons/protons. [Here is a link to look at. ](http://www.eurekalert.org/pub_releases/2014-02/bawh-blm020314.php)

    _intake/kruse-blog-corpus/articles/brain-gut-11-is-technology-your-achilles-heel.md