whygetfat on Nostr: Dr. Jack Kruse: "[…] The baby stays hypoxic in a Warburg-shifted metabolism with ...
Dr. Jack Kruse: "[…] The baby stays hypoxic in a Warburg-shifted metabolism with nucleated red blood cells [in the womb]. The entire child becomes nine pounds after nine months, builds out all its organ systems by utilizing the biophotons created there. Those biophotons are massively powered because they are at the smallest scales.
"Becker comes along and says, 'OK, why do mammal regeneration suck?' […]
"We have great regeneration in bone and great regeneration in our liver. […] Realize where those nucleated fetal red blood cells really come from in mama. Where's that umbilical cord connect to? Oh, the liver, doesn't it? Through the falciform ligament and all those ligaments you learned in anatomy. And you go like, 'Yeah, what the hell is the purpose of this? Why does everybody have a belly button?' That ties to this story, too. […]
"When melanin is hydrated by deuterium-depleted water, it takes a current and downregulates it to one trillionth of one ampere. Guess what the size of the current was in Becker's work that dedifferentiated a red blood cell in us? One trillionth of one ampere.
"The leptin-melanocortin pathway is actually the regeneration loop. This is the evolution of CCO and hemoglobin that you just saw recapitulate in the leptin-melanocortin pathway. What does that mean for mammals? Mammals scar, they don't regenerate. The only places they're able to regenerate is where the organ tends to be hypoxic and they have a lot of nucleated cells around, which the bone and the liver fit the bill. What's the cell that doesn't? […]
"When you put brains constantly in blue light, non-native EMF, what do we get? We get atrophy. What does atrophy come from? […] That's apoptosis. When you have unfeathered apoptosis, that's neurodegeneration. That's not a good thing when it's in your brain.
"It's a good thing when you're in the fetus and you want your fingers to separate because that's what apoptosis does. But it's not good when you're Nick and Jack talking via Zoom. We don't want that. We don't want people to get Alzheimer's, frontotemporal dysplasia, Parkinson's disease, but that's effectively how the regeneration pathway goes bad in us. Why? All because of a paramagnetic switch called nitric oxide that keeps your stem cells in an atavistic state so the biophotons that are created from mitochondrial DNA can sculpt your life. That's the story of the GOE, my friend. Brought to you now 2.4 billion years to 2025.
[…]
"We're actually trying to teach people the story of life. That's what this is a story about: how we're able to regenerate, how we're able to wound heal, how we lost the ability to regenerate as we became obligate TCA animals that use oxygen. Doesn't mean we've lost the ability not to do that. How can I tell you that's true?
"When a kid comes in and drowns (like say where you live) in cold water, we code them all the way for 45 minutes because we know the other free radical chemicals can act as terminal electron acceptors, like hydrogen sulfide, carbon monoxide. We can still save those kids so we don't give up on them. But the thing is, that's from our evolutionary past. We lose that ability as soon as they cut the umbilical cord and the kid takes its first breath of air."
Nick Jikomes: "Because then the hypoxia is gone. This metabolic switch happens. […] It just switches everything."
Dr. Jack Kruse: "You got it."
Dr. Jack Kruse with Nick Jikomes @ 54:54–58:35 & 01:14:36–01:15:36 (posted 2025-04-09) https://youtu.be/67sLlXeMg2I&t=3294
"Becker comes along and says, 'OK, why do mammal regeneration suck?' […]
"We have great regeneration in bone and great regeneration in our liver. […] Realize where those nucleated fetal red blood cells really come from in mama. Where's that umbilical cord connect to? Oh, the liver, doesn't it? Through the falciform ligament and all those ligaments you learned in anatomy. And you go like, 'Yeah, what the hell is the purpose of this? Why does everybody have a belly button?' That ties to this story, too. […]
"When melanin is hydrated by deuterium-depleted water, it takes a current and downregulates it to one trillionth of one ampere. Guess what the size of the current was in Becker's work that dedifferentiated a red blood cell in us? One trillionth of one ampere.
"The leptin-melanocortin pathway is actually the regeneration loop. This is the evolution of CCO and hemoglobin that you just saw recapitulate in the leptin-melanocortin pathway. What does that mean for mammals? Mammals scar, they don't regenerate. The only places they're able to regenerate is where the organ tends to be hypoxic and they have a lot of nucleated cells around, which the bone and the liver fit the bill. What's the cell that doesn't? […]
"When you put brains constantly in blue light, non-native EMF, what do we get? We get atrophy. What does atrophy come from? […] That's apoptosis. When you have unfeathered apoptosis, that's neurodegeneration. That's not a good thing when it's in your brain.
"It's a good thing when you're in the fetus and you want your fingers to separate because that's what apoptosis does. But it's not good when you're Nick and Jack talking via Zoom. We don't want that. We don't want people to get Alzheimer's, frontotemporal dysplasia, Parkinson's disease, but that's effectively how the regeneration pathway goes bad in us. Why? All because of a paramagnetic switch called nitric oxide that keeps your stem cells in an atavistic state so the biophotons that are created from mitochondrial DNA can sculpt your life. That's the story of the GOE, my friend. Brought to you now 2.4 billion years to 2025.
[…]
"We're actually trying to teach people the story of life. That's what this is a story about: how we're able to regenerate, how we're able to wound heal, how we lost the ability to regenerate as we became obligate TCA animals that use oxygen. Doesn't mean we've lost the ability not to do that. How can I tell you that's true?
"When a kid comes in and drowns (like say where you live) in cold water, we code them all the way for 45 minutes because we know the other free radical chemicals can act as terminal electron acceptors, like hydrogen sulfide, carbon monoxide. We can still save those kids so we don't give up on them. But the thing is, that's from our evolutionary past. We lose that ability as soon as they cut the umbilical cord and the kid takes its first breath of air."
Nick Jikomes: "Because then the hypoxia is gone. This metabolic switch happens. […] It just switches everything."
Dr. Jack Kruse: "You got it."
Dr. Jack Kruse with Nick Jikomes @ 54:54–58:35 & 01:14:36–01:15:36 (posted 2025-04-09) https://youtu.be/67sLlXeMg2I&t=3294