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 · yt0.782

   the cell needs to the water I'm sorry there there are several steps along the way what the water does if the water is in the easy state it's sort of a little bit like ice and nothing can happen inside of ice it needs to undergo a transition and in in the previous book to the one that you you showed the the the book that >> the cells cells gels >> and the engines of life yeah I I spent half the book describing desing perhaps a half dozen different cell types where the evidence is that the water under goes a transition. So the water starts like if you consider a muscle cell and in th…

   yt/YrwbDsTx0Uw-water-the-matrix-and-engine-of-life-pioneer-in-water-researc/transcript.txt

2. 02 · _intake0.743

   **This is the photosynthetic step that Wallace misses because he does not seem to know about Pollack’s work.** Wallace still believes in chemiosmosis as the key energic step in a cell and I no longer do because of Ling and Pollack. Ling’s calculation that we need 5000 times more ATP than a cell can provide make it difficult to accept Mitchell’s theory that chemiosmosis explains a cell’s energy needs. In my view, they are no longer tenable given what Gerald Pollack has found in the EZ experiments on water. While, chemiosmosis is still an important step in cells (unfolding or proteins to bind wa…

   _intake/kruse-blog-corpus/articles/cpc-13-hyperferritin-cataract-syndrome.md

3. 03 · yt0.740

   Um and and that's a at the heart of the action of the cell is this is this transition and then after the contraction is over or the secretion is over, it reverts back to the um default state, relaxed state or unactivated state. And and so all of these processes involve a transition from easy water to ordinary liquid water and then back again. But if you don't have a full complement of easy water to start with you can't go through this this cycle or it's not as effective and your cell will be dysfunctional. And to make it functional again, one approach is to make sure that you've got enough eas…

   yt/EWthpbsfMJI-dr-gerald-pollack-the-importance-of-water-for-energy-heart-h/transcript.txt

4. 04 · yt0.737

   So So we were looking experimentally for experimental preparation where where we could see that that particles or solutes were kicked out in in some kind of water-based experiment. So we took a gel and and we added water and particles. The particles were little spheres called microspheres. And we looked in the microscope and adjacent to the gel in the water we could see a region where there were no microspheres. Very substantial region. Plenty of microspheres beyond that but not inside of it. And so as we studied this more and more we found that the properties of this we called it initially ex…

   yt/EWthpbsfMJI-dr-gerald-pollack-the-importance-of-water-for-energy-heart-h/transcript.txt

5. 05 · yt0.729

   So, how far is very far? If If you do the computation, it's it's millions of molecular layers. It's It's not two or dozens or but millions. It can stand extend way way out. Um So, the idea that this kind of ordered water is a different phase of water is not original. It came from Sir William Hardy, who was a famous colloid physical chemist more than 100 years ago, who said, "There's a problem, guys." He said, you know, with with the water, because there are so many observations that don't fit the the standard idea of three phases. The only way to explain these is that you must have a fourth ph…

   yt/NnRMRGsAHfA-gerald-pollack-the-fourth-phase-of-water-snc-2018/transcript.txt

6. 06 · yt0.727

   that region that good that started from ordinary liquid water and transformed itself to this what we call easy water fourphase water and as it grew it pushed out contaminants that's why we called it exclusion zone and and the surprise came a few years later when when I guess I was the one who decided to check the electrical potential of of this kind of water because I had done work very early in my career measuring the electrical potential of cells. And I I I knew how to measure electrical potential in in very fine regions using an invention of Gilbert Ling himself, a kind of electrode that co…

   yt/YrwbDsTx0Uw-water-the-matrix-and-engine-of-life-pioneer-in-water-researc/transcript.txt

7. 07 · yt0.724

   So, so if you want if you want full activity, you have no no mutations and the easy water undergoes a transition to ordinary water. But if you have mutations that occur as a consequence of environmental factors, then there's not as much easy water in the cell because the surfaces can't nucleate the growth of easy water as well. and and the transition from easy water to ordinary water is smaller, less transition and therefore less action and therefore your muscle will contract more weekly or your secrettory cell won't secrete as much or your nerve cell won't conduct as well, etc., etc. So, >…

   yt/YrwbDsTx0Uw-water-the-matrix-and-engine-of-life-pioneer-in-water-researc/transcript.txt

8. 08 · _intake0.723

   The absence of evidence suitable to your beliefs is not really material to understanding in this arena. Moreover, it is not the absence of effect when you begin to understand what a dielectric blocker can do to cell water optically.

   _intake/kruse-blog-corpus/articles/ubiquitination-3-the-rhythm-is-gonna-get-you.md

9. 09 · yt0.719

   It's in the book that you you were talking about, because there's more that I want to talk about, and my time is not infinite. So, the structure we came up with is looks something like this. You have hydrophilic material next to water. And out of the water build these layers, and these layers are hexagonal, um as you see in nature, and they build one at a time. So, you got another one here, and another one, and so on. And they just keep building. Um And the structure, if you were to look at it, is hexagonal like this, with oxygens and hydrogens arrayed as as you see here. And if you were to co…

   yt/NnRMRGsAHfA-gerald-pollack-the-fourth-phase-of-water-snc-2018/transcript.txt

10. 10 · _intake0.716

    The puzzling thing to me in his discriptions, was that in his model **never required large amounts of ATP** to get the job done thermodynamically, but it did required a DC current to maintain order of the biologic process. This current was delivered from the periosteum and from the nerves that innervated the area. He showed that this DC current would make protein that makes bone up, collagen, would line up correctly once it was hydrated with a current passed into it, and its secondary and tertiary chemical structures would appear before it could be mineralized by hydroxyapatite. These were the…

    _intake/kruse-blog-corpus/articles/emf-7-quantum-prometheus.md