The first eukaryotic cells used iron for their processes. Divalent iron was supposed to help in the transfer of other molecules.

The basis of life: Carbon, Oxygen, Nitrogen (+ phosphorus, sulfur).

Iron sulfide, iron chainmail – now it can be found where there is no access to oxygen.

Iron oxide (oxidized) can be found everywhere on the surface.

Nitrogen as a gas was used to stabilize the first viable structures because it was a temperature regulator.

Nitrogen is a gas because it is always superheated in our atmosphere

The first nitrogenous inclusions were needed to regulate the temperature in acids.

Together with oxygen, acids began to form when Nitrogen began to accumulate there. Nitrogen cooled the acids (it could have been a collision of gases at high temperature).

Acid amination: acid + nitrogen atom = pre-protein state.

Polysaccharides/ Oligosaccharides = mycelium, i.e. with nitrogen.
The basis of life: polymer.

Polymer + nitrogen = protein structures.

Polymer + oxygen without nitrogen = films.

Polymer without oxygen – polysaccharides, plants.

There is only one fiber. The control comes from the chemical. composition and control structure – seeds, structure without control – mold, growth, base.

Nitrogen does not need to be burned, it leaves the structures by itself.

When there is not enough interaction with the structure in which it is located, an electron is lost, a gas is lost and it goes immediately into the atmosphere.

The chlorophyll molecule is flat. The center is magnesium, with 4 nitrogen atoms at the edges.

Nitrogen helps to convert oxygen into carbon dioxide.

? The mold thread is nitrogen.

Nitrogen is needed for cooling during the oxidation process so that it does not overheat.

Magnesium is a metal and it is like a processor, and Nitrogen is a cooler.

Acid and nitrogen inclusions are the first RNA.

Then these RNAs were reversed, became real, clinging to each other and solid structures were obtained from this.

No clean carbon remains during combustion.

Pure carbon: we go down a few km. inside the earth, we increase the pressure, temperature – carbon behaves like a crystal.

The only element whose oxidation state is the same in either direction is -4 +4.

Carbon builds up into a transparent crystal structure = diamond.

Black is oxidized carbon.

Methane is carbon and gas (with nitrogen, hydrogen). 4 hydrogen atoms and 1 carbon atom. Transparent.

We owe 80% of our body weight to oxygen.

How did protein originate? Acid lamination.

Introduction of the amino group NHK| NR2 (where R is an organic radical) into organ molecules. compounds using alkali metal amides on heterocyclic bases.

The main task of amines is to regulate the pH value.

First, acid (or crystals, liquid) appeared.

Inside our cell: potassium, magnesium and zinc.

Peptides clung to each other and amino acids were formed.

The order of engagement of amino acids gave us a 3d structure.

Spirals formed there, which were connected by mycelium.

Turn out:

1 protein (1 amino acid), (collagen) – spiral structures are located there, they are interconnected by threads, they are folded into a 3D structure.

Alpha proteins.

Beta proteins are flatter.

Magnesium is an alkaline earth metal that is found inside the cellular fluid.

Magnesium is involved in the transfer of proteins, it participates as a cation.

The cation acts in its 2-valence oxidation state. It can bring some structures on itself, since all these proteins (which are amino acids/peptides – they are mostly negatively charged) need some element to cling to, so they can be transferred inside, from the outside.

? If the protein has already been printed in the ribosome, how can it get out? How can he build a structure? How and on what does he “get there”? After all, being in the red, he will stand there in place.

Magnesium regulates these processes (as well as potassium) — provides a positive charge to the cell.

Sodium is located in the extracellular fluid and regulates processes outside the cells.

Iron and alkali metals (2+, 2 valences are very active).

There is a theory: all the blood and the entire circulatory system is one eukaryotic cell.

It is believed that the immune and lymphatic systems are located from the outside and protect that first eukaryotic cell, which used iron in itself to regulate internal processes and for reproduction/replication.

Our circulatory system and red blood cells have a printing center inside the bones (bone marrow).

She lives, uses oxygen, but she protects herself from oxygen with an outer shell (skin, lymphatic and immune systems) – this is a conglomerate of our ancestors (the 1st cell, which, thanks to the conditions of the earth, was able to become multicellular).

Cyanobacteria released oxygen after the explosion, energy for growth.

Father – Son – Holy Spirit

The father is the first red cell enriched with iron, which began to adapt further to oxygen, enrich itself with nitrogen, began to print structures for itself, and grow. She laid tubes for herself, through these tubes she transmitted certain elements.

It is believed that the intestines originated in the sea.
Inside the cell, the circulatory system (where there is potassium, magnesium) originated outside the sea.

Bones are the primary structure belonging to the red bacteria (Father).

The mitochondria supplied the spirit, i.e. oxygen, so that everything developed into a complete structure that functions.

Competition between red (iron) and white (shell/ lymph / immune system / tubes).

Red wins = cancer
The white one wins = the cardiovascular/ liver breaks down, etc.
Alcohol destroys the red one, the father, but protects the son, the white one.

The son (white) eats his father’s food – red.

The structure of the blood cell: the red pigment is dna, there is a bacterial shell of fat.

Bacteria are proteins.

There is a vitamin inside.

Vitamin is a DNA pigment.

These cells are in our blood, moving.

We have two contact areas: the inner mucosa and the outer (skin).

The epithelium is a sprouted, oxidized blood cell. The core of it is vitamin.

Halobacteria are pulled out of it. The core consists of bacteria, it is not affected.

Epithelial damage is its oxidation, the type and aggressiveness of germination, which depend on the external environment. In the external environment, there is an additional reagent (oxygen?) that accelerates the aging process, accelerating the growth of the epithelium.

The skin is oxidized blood cells, the remaining protein has become a polymer.

There is always water, moisture, and other processes in the inner shell.

The shell is more perceptive. The transfer is provided in both directions by tubes of blood cells, which deliver blood cells back and forth, enriched with bacteria.

Wet (with water) and dry polymer oxidation takes place inside us.

The mucous membrane is always wet, there is mucus there, it is wet oxidation, not a dry polymer as with the skin.