Zach Bush

network within a human body. And so you can picture this much like a cell phone tower system where each cell phone becomes actually completely useless as a communication device if the cell phone tower is down. And so the cell phone tower that helps one cell talk to the other cell is something called redox chemistry in biology.

network within a human body. And so you can picture this much like a cell phone tower system where each cell phone becomes actually completely useless as a communication device if the cell phone tower is down. And so the cell phone tower that helps one cell talk to the other cell is something called redox chemistry in biology.

network within a human body. And so you can picture this much like a cell phone tower system where each cell phone becomes actually completely useless as a communication device if the cell phone tower is down. And so the cell phone tower that helps one cell talk to the other cell is something called redox chemistry in biology.

And these redox molecules are made by bacteria and fungi that we're extracting from fossil soil. The human cell makes a tiny little cohort of these molecules as well. Really, the only one the human cell makes is nitric oxide. And then the mitochondria, the bacteria living inside of our cells, make a host of oxygen-based molecules for redox communication.

And these redox molecules are made by bacteria and fungi that we're extracting from fossil soil. The human cell makes a tiny little cohort of these molecules as well. Really, the only one the human cell makes is nitric oxide. And then the mitochondria, the bacteria living inside of our cells, make a host of oxygen-based molecules for redox communication.

And these redox molecules are made by bacteria and fungi that we're extracting from fossil soil. The human cell makes a tiny little cohort of these molecules as well. Really, the only one the human cell makes is nitric oxide. And then the mitochondria, the bacteria living inside of our cells, make a host of oxygen-based molecules for redox communication.

But what we discovered in 2012 was that the soil and our gut were carrying in the microbiome a massive treasure trove of communication molecules. And the bacteria and fungi in their diversity are producing an extremely fluent method of communication. So we're extracting that from fossil soil. We put that into a liquid state and then we add that back to human experience.

But what we discovered in 2012 was that the soil and our gut were carrying in the microbiome a massive treasure trove of communication molecules. And the bacteria and fungi in their diversity are producing an extremely fluent method of communication. So we're extracting that from fossil soil. We put that into a liquid state and then we add that back to human experience.

But what we discovered in 2012 was that the soil and our gut were carrying in the microbiome a massive treasure trove of communication molecules. And the bacteria and fungi in their diversity are producing an extremely fluent method of communication. So we're extracting that from fossil soil. We put that into a liquid state and then we add that back to human experience.

The diversity of the communication is from soil 60 million years ago. Homo sapiens come along 300,000 years ago. So we're actually giving people an experience of a level of cell-cell communication that actually hasn't been present in the human experience because the soil systems of 60 million years ago were far more verdant and deep and more biodiverse than the ones that we have today.

The diversity of the communication is from soil 60 million years ago. Homo sapiens come along 300,000 years ago. So we're actually giving people an experience of a level of cell-cell communication that actually hasn't been present in the human experience because the soil systems of 60 million years ago were far more verdant and deep and more biodiverse than the ones that we have today.

The diversity of the communication is from soil 60 million years ago. Homo sapiens come along 300,000 years ago. So we're actually giving people an experience of a level of cell-cell communication that actually hasn't been present in the human experience because the soil systems of 60 million years ago were far more verdant and deep and more biodiverse than the ones that we have today.

And so when you start to give this back to humans, and you can do it in a petri dish with human cells or you can give it to a patient, And the radical nature of cells communicating and what happens has shown us that the most important thing ultimately is self-identity. And so the first thing the cell does is to create a boundary in which it understands outside and inside.

And so when you start to give this back to humans, and you can do it in a petri dish with human cells or you can give it to a patient, And the radical nature of cells communicating and what happens has shown us that the most important thing ultimately is self-identity. And so the first thing the cell does is to create a boundary in which it understands outside and inside.

And so when you start to give this back to humans, and you can do it in a petri dish with human cells or you can give it to a patient, And the radical nature of cells communicating and what happens has shown us that the most important thing ultimately is self-identity. And so the first thing the cell does is to create a boundary in which it understands outside and inside.

And that's the definition of a system. I think it was Buckminster Fuller who defined that. I think a system is anything with an outside and an inside. And so the human body as a system of identity is defined by these boundaries that are defined at the gut level, at the blood-brain barrier, kidney tubules. So what's outside and inside the human system is...

And that's the definition of a system. I think it was Buckminster Fuller who defined that. I think a system is anything with an outside and an inside. And so the human body as a system of identity is defined by these boundaries that are defined at the gut level, at the blood-brain barrier, kidney tubules. So what's outside and inside the human system is...

And that's the definition of a system. I think it was Buckminster Fuller who defined that. I think a system is anything with an outside and an inside. And so the human body as a system of identity is defined by these boundaries that are defined at the gut level, at the blood-brain barrier, kidney tubules. So what's outside and inside the human system is...

apparently one of the primary priorities of your biologic system because the second the communication network hits a gut lining, the gut lining starts making more tight junctions, which is a healthier boundary. And so the most important thing to the body is your self-identity at the biologic level.

apparently one of the primary priorities of your biologic system because the second the communication network hits a gut lining, the gut lining starts making more tight junctions, which is a healthier boundary. And so the most important thing to the body is your self-identity at the biologic level.