Imagine if our blood had gold, or silver instead of iron as the primary metallic element.
That'd make oxygen-consuming life pretty much impossible.
First of all, hemoglobin is the ordered agglomeration of four hemes, four proteins that each contain 1 iron atom. That makes for 4 iron atoms per hemoglobin. The role of the iron atom is to make a bond with oxygen (to be oxydized) to transport it, and release it in a volume containing low oxygen.
In fact, our very DNA contains traces of events collectively known as "the war for iron", which are evolutions and mutations of the DNA to make different proteins to protect against different evolutions of other organisms that would use their proteins to steal the iron of their victims. Friendly reminder that such evolution can take place over hundreds of thousands of years, predating the people of Ancient Egypt.
Now here's a big problem: gold doesn't bond with oxygen very well, rendering it useless as a substitute for iron in hemoglobin. That's why you can find shining gold in nature (look up Brasilian gold extractors in French Guyana, I'm sure you'll find pictures of a pan or two with gold flakes inside), unlike iron, usually found oxidized, like in rust and in ochres, and needing either chemical or thermic treatment to be returned to its non-oxidized state (see: high-furnaces).
Silver binds to oxygen, however not 1 but 2 silvers are needed to bind 1 oxygen, and 5 silvers can bind 4 oxygens in a crystalline form. This combination doesn't release the oxygen easily to its surrounding, making it ill-suited as a stand-in for iron in hemoglobin.
Neurons emit signals electrically and transmit signals chemically.
Their axons, their "biggest, output dendrite", are covered with a "myelin sheath" to increase the speed of signal transmission. The "sheath" is actually a lot of little sheaths with spaces without sheaths to let ions through, leading to what's known as "action potentials". The ions used are potassium (K+) and sodium (Na+), and they traverse the surface of the axon through tiny holes to propagate the action potential.
The fact they are ions should tell you that gold isn't it as a stand-in, as gold doesn't ionize (lose or gain electrons that can form bonds) easily in solvents like water. In fact, instead nitric acid hydrochloride is used to dissolve gold and make gold oxide out of it.
Additionally. Lead is poisonous in high concentrations because it replaces one of those ions necessary for the propagation of the action potential, but obstructs the aforementioned tiny holes, leading to a loss of potential until the signal cannot be propagated anymore, impairing the normal function of neurons. Lead's atomic number is 82, rather close to gold's 79. They are BIG atoms, compared to the smaller potassium (19) and sodium (11). Gold in neurons for electrical transmission doesn't look like a good idea.
Chemically, the transfer of an action potential is done from the end of the axon of a neuron to the next neuron through hormones, huge proteins. We aren't talking individual species of atoms at this point, and I am not versed enough in the proteins' composition to tell you whether they contain precious metals, and whether "enhancing" such proteins with precious metal would lead to any improvement in the transmission of action potentials.
Although, considering the mechanism of transmission of information through hormones (chemical bonds with the receptors at the surfaces of cells, that must be released) and the fact hormones are degraded quickly, leaving free-floating atoms and ions that could wander wherever and cause damage, I'll attempt a guess and say gold once again, isn't it. Silver, perhaps, but I'm once again faced with ignorance.
Physical strength is derived from the mass of muscle tissue, fibrous cells stuck together and reacting to action potentials (electrical voltage and salt contract the fibers). Muscle is essentially red meat and is common to all "red-meatted" mammals. Precious metals pretty much have nothing to do with the strength of the fibers and is not specific to humans, meaning the evolution of "red meat" predates humanity.
Stories used to tell that they were collecting it for their interplanetary handlers as it's a galactic trade asset (like fiat), but depends on how you look at this matrix and the space / galaxy, on the other side, something easier, look in the Spiritual / Metaphysical, it's the best conductor for electronics, naturally has the higher vibrations among minerals / metals
https://qagg.news/?read=197
https://qagg.news/?read=196
https://qagg.news/?read=195
Gold = skin of the gods, Ra (sun RAy, corona)
Blood, our has iron that creates a magnetic field emanating from our heart, a torus/taurus
Imagine if our blood had gold, or silver instead of iron as the primary metallic element.
That'd make oxygen-consuming life pretty much impossible.
First of all, hemoglobin is the ordered agglomeration of four hemes, four proteins that each contain 1 iron atom. That makes for 4 iron atoms per hemoglobin. The role of the iron atom is to make a bond with oxygen (to be oxydized) to transport it, and release it in a volume containing low oxygen.
In fact, our very DNA contains traces of events collectively known as "the war for iron", which are evolutions and mutations of the DNA to make different proteins to protect against different evolutions of other organisms that would use their proteins to steal the iron of their victims. Friendly reminder that such evolution can take place over hundreds of thousands of years, predating the people of Ancient Egypt.
Now here's a big problem: gold doesn't bond with oxygen very well, rendering it useless as a substitute for iron in hemoglobin. That's why you can find shining gold in nature (look up Brasilian gold extractors in French Guyana, I'm sure you'll find pictures of a pan or two with gold flakes inside), unlike iron, usually found oxidized, like in rust and in ochres, and needing either chemical or thermic treatment to be returned to its non-oxidized state (see: high-furnaces).
Silver binds to oxygen, however not 1 but 2 silvers are needed to bind 1 oxygen, and 5 silvers can bind 4 oxygens in a crystalline form. This combination doesn't release the oxygen easily to its surrounding, making it ill-suited as a stand-in for iron in hemoglobin.
Interesting. Thanks .
So, let's think of the neuro-electro possibilities
Possible effects on brain function?
Physical strength?
That kind of stuff. I'm curious
Neurons emit signals electrically and transmit signals chemically.
Their axons, their "biggest, output dendrite", are covered with a "myelin sheath" to increase the speed of signal transmission. The "sheath" is actually a lot of little sheaths with spaces without sheaths to let ions through, leading to what's known as "action potentials". The ions used are potassium (K+) and sodium (Na+), and they traverse the surface of the axon through tiny holes to propagate the action potential.
The fact they are ions should tell you that gold isn't it as a stand-in, as gold doesn't ionize (lose or gain electrons that can form bonds) easily in solvents like water. In fact, instead nitric acid hydrochloride is used to dissolve gold and make gold oxide out of it.
Additionally. Lead is poisonous in high concentrations because it replaces one of those ions necessary for the propagation of the action potential, but obstructs the aforementioned tiny holes, leading to a loss of potential until the signal cannot be propagated anymore, impairing the normal function of neurons. Lead's atomic number is 82, rather close to gold's 79. They are BIG atoms, compared to the smaller potassium (19) and sodium (11). Gold in neurons for electrical transmission doesn't look like a good idea.
Chemically, the transfer of an action potential is done from the end of the axon of a neuron to the next neuron through hormones, huge proteins. We aren't talking individual species of atoms at this point, and I am not versed enough in the proteins' composition to tell you whether they contain precious metals, and whether "enhancing" such proteins with precious metal would lead to any improvement in the transmission of action potentials.
Although, considering the mechanism of transmission of information through hormones (chemical bonds with the receptors at the surfaces of cells, that must be released) and the fact hormones are degraded quickly, leaving free-floating atoms and ions that could wander wherever and cause damage, I'll attempt a guess and say gold once again, isn't it. Silver, perhaps, but I'm once again faced with ignorance.
Physical strength is derived from the mass of muscle tissue, fibrous cells stuck together and reacting to action potentials (electrical voltage and salt contract the fibers). Muscle is essentially red meat and is common to all "red-meatted" mammals. Precious metals pretty much have nothing to do with the strength of the fibers and is not specific to humans, meaning the evolution of "red meat" predates humanity.
Interesting, so what's your take on Qs gold drops? Regarding Ra, skin of gods, etc?
Stories used to tell that they were collecting it for their interplanetary handlers as it's a galactic trade asset (like fiat), but depends on how you look at this matrix and the space / galaxy, on the other side, something easier, look in the Spiritual / Metaphysical, it's the best conductor for electronics, naturally has the higher vibrations among minerals / metals
Gotta go back into history
Sorry no, super busy. Remodeling... 😱
As Q said, it goes back to the gods of Egypt, the sun god Ra which is where we get the term rays from.
Actually goes back further to sumer and the gods forcing earlt humans to mine gold for them.
It's valuable because it means something to them physically.
It has to do with things like monotomic gold, ingesting it into your body (like silversol)
Its been stripped of the soil so we don't get it naturally anymore from plants.
Hopefully that helps a little.
Back to work