The Scientific Explanation Of How Almost Everything Came To Be (in order), Why the Bible is a Lie, and Other Debunked Conspiracies by BC

The First-Last supermicroparticle is a “antimegagon,” which has no-time ♾ and is located within and outside of the lower level, below, the last-first supermacroparticle the “megagon” (a particle so grand IT IS nothingness (void).

The super tiny antimegagon, held together the megagon platform by fuzing to it (due to fiction/movement) and together became one platform that created a web out of itself (universe) that infinitely grows out of the nothingness, because what is time and space anyways? 

Imagine it as a large circle (megagon) with a a dot (antimegagon) in the complete center of the circle. 

Then the megagong circle kept stretching and turning and folding itself. This caused so much friction it created a “Spark” that formed a tiny amount of smoke and turned emptiness inside out, by creating  ash-smoke particles. 

This also caused a “hole” or “vacuum” in the megagon, due to the spark causing it to divide=multiply (2 nothingnesses now), bc it kept stretching, folding, and turning in and out on itself continuously (can be compared to how the magnetic field on Earth works), creating magnetism and it’s inverse gravity (think basic rules of magnets).

Dividing itself caused more new nothingness particles to be created that were the opposite of the ash-smoke particles. These two particles came together and created a third particle full of infinite possibilities.

It did this over and over again until it created everything. When there was no more space to be filled it collapsed again into the antimegagon, who did the process all over again. 

I believe LITTERALLY EVERYTHING is made up of “electro-magnetic-frequency-radiation.” Frequency Rays, (like alpha, delta, beta, theta, gamma rays) that connect together (because in reality they are microscopic particles that divide and fuze together to create “rays” or “frequency” chains of stacked particles that makes up the “photo perception” reality). 

In short, when the different frequencies hits a substance, they form Plasma, which forms into Amine compounds (“life”), through a chemical reaction called Nucleosynthesis, which turns into other life organisms, including Fungi, Viruses, Archaea, Bacteria, prokaryotic cells, Eukaryotic cells, and plankton, (that make up almost everything we know, including the animals and human beings that were formed out of them.)

Since, EVERYTHING is made out of the centered, stacked frequency rays that were created by the bang, everything in life and the universe would connects (in some way or another depending on the chemical reaction/transformation takes palace). 

This would means that individuals who “feel” strange sensations, are actually feeling with their cells who are picking up on the vibrations that the frequency rays give off. This would also mean WiFi frequencies have a major effect on the organisms cell functions (can be good or bad depending on several factors). 

It also needs to be noted that the basics of a computer and other electronics like a “network,” “web,” a “cell” (multi-core microprocessor), “receiver/transmit” (like audio/video, radio, phones, or even the mouth [transmitter] and ears  [receivers]), is built almost identically comparable to how the universe itself, cells, and fungi cells work.

There are biological “cell” that build a “network” or “web” to “receive” sunlight frequency ray particles, that eventually started the process of photosynthesis, turned into plants and other microscopic organisms (depending on which type of microorganisms they are and what ray particle frequencies make them up), created an oxygen atmosphere suitable for other life  to be created like animals and humans. 

LITTERALLY EVERYTHING that is “real” can be classified or graphed and organized into different “webs” or categories, that connect together. A phone or PC does this everyday, it is known as an algorithm or “The Chaotic Pattern.” 

Every element has a shape, for example the Hydrogen atom’s structure could be considered a triangle shape that has 3 sides, the Helium atom is a square shape and has 4 sides, the Beryllium atom is made up of 5 sides and looks like a pentagon, Boron element has 6 sides like a hexagon and so on...

Before and as the element is transitioning (decaying up or down), it may look like the shape before it. The neutron seems to be what gives the element “a shape.”

Since Hydrogen is a triangle shape, there must be something before it, “a line shape” and also a single dot or particle atom. Comparable to the basic principles of art.

“The Flower Of Life” concept is comparable to these element shapes.

The antimegagon and the megagon must exist, because they are the closest shape to a circle, that isn’t a circle. And if every element makes up a shape, it would be the last and first to exist 

(anti)-megagon.

Decay is life. We are reborn as a different organism sequence (can be anything that exists anywhere). The living electric universe(s) gives life to the human hydrogen soul and many other life forms. 

Modern humans use antibiotics, herbicides, and pesticides, which causes major imbalances to occur on the microscopic bacterial and insect level, which eventually affects animals and humans (food chain-everything goes in a cycle). The bacteria start adapting to their new toxic environment, and build up resistance, for example, antibiotic resistance. Fruit tree crops are also treaded with antibiotics as are farm animals who get used for meat consumption. 

Pesticides and herbicides used on crops like corn, tobacco, cotton, and rice, are very, very toxic and cause the bacteria to not only become resistant, but also creates new diseases and pathogens that way (due to deformities in the cells-tangles, that cause it to split incorrectly-birth defects and other health issues like autism and cancer are caused by this). 

Herbicides and pesticides literally strangle plants to death (since they cannot photosynthesize property) and kills insects. The plants it dose not kill (crops), become resistant, hence the term “GMs” or Genetically Modified crops, is simply a marketing scheme to cover up the damage caused  by the toxins in produce and meat, allowing the industries/government to continue making a profit.  Herbicides and pesticides have caused humans, animals, plants and their produce, to genetically change (adapt) to a bad environment. 

This is making people sick like causing fertility problems, deformities, and cancer (herbicides and pesticides are made up of and usually contain radioactive particles). Radioactivity can also alter and effect human RNA/DNA through decaying it (breaking apart chains) with radiation as it goes up the food chain-bacteria, plants, insects/life stock who live/eat the plants, and then humans who eat the crops and animals who eat the crops.) 

Insects also eventually become immune, allowing them to carry and pass on the new pathogens created from the unbalanced environment, to other animals and humans, who then become infected.

All the chemical wastes, herbicides, pesticides, and other chemicals that have been used for decades, are making the microbial world so unbalanced, it is having consequences on humans, which can already be seen. The chemicals humans have been exposed to and have consumed for almost a lifetime, is causing an unbalanced microbiodome in the gut. 

Certain bacteria, that naturally live inside of the gut, have also adapted to the different herbicides, pesticides, antibiotics and other toxic chemicals, in the environment. Since the gut bacteria are adapting, and they make up and control everything in life including humans, it is causing humans to turn gay. 

It wasn’t just the water turning the frogs gay, it was the unbalanced, radioactive poison environment humans were creating with their greedy toxins, they didn’t fully understand. The toxins are mutating the bacteria in the environment and human gut (which affects how humans act/behave/thinks, because truly everything id a chemical reaction.)

As Above, So Below

The Bible is a LIE!

Below is a very long and detailed scientific explanation as to how everything that is stated is even possible. From the very beginning of the universe, until life began, in order. It also gives an explanation of COVID-19. (Text may be edited or added on to in the future).

The Scientific Explanation How Of Almost Everything That Came To Be (in order), Why the Bible is a Lie, and Other Debunked Conspiracies Part II

Below is part II of a very long and detailed scientific explanation as to how everything that is stated in part I is even possible. From the very beginning of the universe, until life began, in order. It also gives an explanation of COVID-19. (Text may be edited or added on to in the future).

The last universal cycle to exist (cycle 4)  ends and is what humans currently perceive as the..

..Antipentaquark (4 antiquarks/1quark) which crushed themselves and turned themselves into a “dot” called a.. 

..Pentaquark(4 quarks/1antiquart) aka one large antiquark that contains four quarks explodes through Big Bang nucleosynthesis, to create (absolute 0), our current perceived  beginning...

...which decayed into 

Photoelectrons that we’re either 

Antiphoton (0 off)

Photon (1 on) decays into

Antiboson 

Boson 

Gluons

Fermios (Fermi paradox vibration reading?)

—————

Antilepton

Muon lepton 

Electric lepton 

Tau lepton

Leptons

—————

Antineutrino

muon neutrino

Electric Neutrino

tau neutrino

Neutrino

—————

Antiquark

Electric Quark

Quark

Antibayron

Electric Bayron

Bayron 

—————

Antimeson

Electric meson

Meson

Antihadrons

Electric hadrons 

Hadrons 

—————

Ion (particle/atom/molecule with electric charge—element 0)

Anion negative up ion more electrons than protons

Caton positive down ion less electrons than protons

Ionic compounds formed from ion, then 

particles

Subatomic particle (electron) 

Proton

Neutron 

Atom (microscopic particle)(Element 1 hydrogen) 

Nucleosynthesis

———————

Molecule (no electric charge)(microscopic particle) may be homonuclear- one element or be heteronuclear - 2 elements

Protein 

Elements (1-3)

Life

Elements (4-8)

Every other Element 

Compound 

Matter (solid/liquid/gas/plasma)

Has mass (outside) and volume (inside) and thus takes up space.

Chemical formula 

Chemical reaction 

Chemical transformation 

Substance (macroscopic particle- can be viewed or is seen)

——————

Plasma

Amine compound 

Proteins

Lipids

Amino acids

Nucleus 

Nucleosides 

nucleotides 

polynucleotide

nucleobase

RNA 

DNA wraps around 

Histone proteins to create 

Chromatin

Chromatid 

chromosomes

Plasmid 

Fungi

Archaea

Bacteria

Virus

prokaryote

Eukaryotes

Plankton (includes jellyfish)

Animals

Humans

..................................

Chemical elements are created during a process called nucleosynthesis.

Nucleosynthesis creates new atomic nuclei from nucleons (or pre-existing neutrons and protons who are bound together by nuclear fusion).

Stellar nucleosynthesis (a reaction that occurs within stars) has happened since the original beginning of time (the Big Bang), when lithium, hydrogen, and helium were first created.

Atomic Element 1

Protium is a neutral Hydrogen (H) atom (isotope-not radioactive (decays almost instantly)) that is made up of 1 proton and 1 electron. It is the first element on the Period Table of Elements.

Deuterium (hydrogen isotope- not radioactive) is made up of 1 proton, 1 neutron, and 1 electron. 

Tritium (hydrogen isotope)is made up of 1 proton, 2 neutrons, and 1 electron and has a radioactive half-life of 12.32 years.  

Everytime a neutron gets added it becomes more radioactive (isotopic), this is called neutron radiation and is caused due to a stronger nuclear force. 

Atomic Element 2

Helium (HE) atom (in Greek translation means “Helios” or “sun”), is made up of 2 protons, 2 electrons, and 2 neutrons, (sometimes it can have 1 neutron depending on the isotope-how stable it is).

Atomic Element 3

Lithium (Li) is made up of 3 protons, 3 electrons, and 4 neutrons. 

Atomic Element 4

Beryllium (Be) is made up of 4 protons, 4 electrons, and 5 neutrons.

Atomic Element 5

Boron (B) is made up of 5 protons, 5 electrons, 6 neutrons. It is produced by supernovae and cosmic ray spallation, not Stellar nucleosynthesis. 

Cosmic Ray Spallation (x-process) are naturally existing nuclear reactions that   

leads to nucleosynthesis. It invokes the creation of chemical elements from the collision of cosmic rays on a substance. 

Cosmic rays are particles that are highly charged and very energetic. They can be  alpha particles, protons, the nuclei of heavier elements, and about 1% are free electrons.

When a cosmic ray particle (proton) and other types of cosmic ray frequency particles collide with matter, it causes spallation (fragment particles are ejected). This collision results in a vast number of nucleons (neutrons and protons) to be created from the substance that was hit.

This process not only happens in deep space, but also occurs on Earth’s crust and in the upper atmosphere. 

Atomic Element 6

Carbon (C), [means “coal” in Latin] is made up of 6 protons, 6 electeons, and 6 neutrons (neutrons may vary, which can create different isotopes of carbon).

Atomic Element 7

Nitrogen is made up of 7 protons, 7 electrons, and 7 neutrons. 

Atomic Element 8

Oxygen (O) is made up of 8 protons, 8 electrons, and 8 neutrons. Oxygen is formed by plants during photosynthesis. At a standard pressure and temperature, two oxygen atoms bind to produce

Dioxygen (O2), which is what living organisms such as animals and humans breathe. 

Dioxygen supplies the energy released in aerobic cellular respiration (breathing), combustion (burning-fire/fuel), and in many other organic molecules inside of living organisms, that have oxygen atoms, like fats, nucleic acids, proteins, and carbohydrates. 

Dioxygen is also contained in inorganic compounds such as teeth, bones, and animal shells. 

Humans and animals rely on oxygen to survive. Living organism’s mass is mostly made up of oxygen as a part of water. 

Oxygen is constantly renewed (recycled) by photosynthesis (uses sunlight energy to make oxygen from water and carbon dioxide). 

Oxygen is highly reactive, and thus does not remain free in air without being recycled by photosynthesis

There are also several allotropes of oxygen, such as molecular oxygen (O2), which is also present in Earth’s atmosphere.

Another allotrope form of oxygen is trioxygen (O3) or ozone (high-altitude), which absorbs high amounts of ultraviolet UVB radiation and shields the biosphere from UVB rays. 

The ozone layer near the surface of Earth is a byproduct of pollution and smog particles.

A molecule consists of atoms that make up only one element and is thus, not a compound.  

A chemical substance is a compound that is composed of multiple identical molecules, which are made up of atoms that hold together the multiple elements with chemical bonds.

4 types of compounds exist:

 1. Molecules (bound together with covalent bonds).

 2. Ionic compounds (ionic bonds)

 3. Intermetallic compunds (metallic bonds)

 4. Complexes (like transition metals) are bonded together by coordinate covalent bonds (dipolar bond).

A chemical formula shows the exact number of atoms each element in a compound molecule has. 

A water molecule, for example, has the chemical formula H20, showing it has two hydrogen atoms bonded together with one oxygen atom. 

A chemical reaction converts a compound into another chemical substance by interacting with another chemical substance. This can cause atom bonds to be broken down for either or substance, creating new bonds in a process called chemical transformation.

Ammonia (NH3) is a chemical compound of hydrogen and nitrogen. It is an invisible gas with a strong smell. 

It gives life to amines (inorganic/organic), who are a compound and functional group 

made up of a basic nitrogen atom

with a lone pair, (split hydrogen nucleus 4 times).

Aquatic organisms usually produce it as nitrogenous waste, which is an important precursor for the nutritional needs of land-dwelling organisms and fertilizers. It is also a building block for the fusion of pharmaceutical and commercial products.

Amines are compounds that contain a nitrogen atom and a lone pair of electrons (no covalent bond with another atom). It is a functional group. Amines are derived from ammonia. They form when one or more hydrogen atoms are substituted or replaced by an aryl or alkyl group. 

Some important examples of amines are amino acids, trimethylamine, aniline, and biogenic amines (group of one or more amines). 

Ammonia can also have inorganic derivatives such as monochloramine (NCIH2), who is also known as an amine. 

Amino Acids (alpha-amino) or carboxylic acid, are monomers that make up proteins. Every amino acid (organic molecule) has the same basic structure, which consists of an amine or amino group (-NH2) and a functional acidic carboxyl group (-COOH), that are bound to a central carbon (C) atom (α-carbon).

The two leftover a-carbon atoms are bound by a side chain (organic R group) and a hydrogen (H) atom, and can be different for each amino acid. 

Some fundamental elements of amino acids are hydrogen (H), carbon (C), nitrogen, and oxygen (O), eventhough, other elements can also be found on the side chain of particular amino acids. 

Amino Acids can be classified in many different categories related PH level, polarity, the type of side chain group (aromatic-[contains sulfer, hydroxyl, etc.], aliphatic, or acyclic), or by to their core functional groups’ location, such as gamma- (y-), alpha- (a-), delta- (δ-), or beta- (ß-) amino acids.

Amino acid residues, in the form of proteins, make up the 2nd largest ingredient of human tissues, like muscles. 

(The largest component is water-oxygen).

Amino acids also help in other processes, such as neurotransmitter transport and biosynthesis (is a multi-step system, where substances are converted by an enzyme-catalyst process into other compounds (substances) like macromolecules). 

An amide (or a carboxamide), is a organic/inorganic compound. When amide occurs in a side chain (like in glutamine, amino acids [derivative of a carboxylic acid], and asparagine) it is an isopeptide bond, and when it occurs in the main chain of a protein it is known as a peptide bond. 

When a compound has a nitrogen atom bound to a carbonyl group, they are known as Amides, since they possess different chemical properties than amines.

Amides are found everywhere in nature and technology and are unavoidable.

Plastics (like Twaron and Nylons) and proteins are polymers whose components are connected by polyamides (amide groups), who can easily link together to provide structural hardness that can resist hydrolysis.  

Amides are part of many other biological compounds, including drugs like LSD, penicillin, and paracetamol. Amides like dimethylformamide, have a low molecular weight, are everyday solvents. Formamide (methanamide) is the simplest amide.

Glycosylamines (N-glycosides derived from a glycoside-sugar molecule) are biochemical compounds made up of a glycosyl group that is connected to an amino acid group. 

Glycosyl groups can come from carbohydrates. The glycosyl and a 

ß-N-glycosidic bond, assemble together to form a cyclic hemiaminal ether bond also known as α-aminoether. 

An example of a Glycosylamines includes nucleosides like adenosine.  

Glycosylamines are nucleotides (a nucleoside and 1 or more phosphate group(s)).

Nucleotides are the molecular building-blocks of RNA and DNA which form  nucleic acids (macromolecules-essential for all life forms.) 

Examples of Nucleic acids include:

Proteins, Lipids, Polycarbohydrates, RNA, and DNA. 

The nucleus is considered to be a membrane-bound organelle and can be found inside of Eukaryotic cells. There is usually only one nucleus located inside of a Eukaryotic cell, but there can also be multiple nuclei like in osteoclasts, or no nuclei, like in the red blood cells of mammalians.

The nuclear envelope is the primary structure that makes up the nucleus.

It is a double membrane structure that isolates and encloses the nucleus organelle, away from the nuclear matrix, nuclear lamina, and cytoplasm, which is located outside of the nuclear envelope. 

The nucleus contains the nuclear lamina, which mechanically supports cells and acts like the cytoskeleton, who supports the entire cell. 

All of a cell’s genome or genetic material aka the DNA and RNA (RNA in RNA viruses) of a creature is contained within the nucleus. The nucleus, or control center of a cell, regulates the cells gene expressions (cell activity). 

In Latin, nucleus means “seed” or “kernel”

This does not include mitochondrial DNA, which is only a tiny fraction of DNA that entails many different proteins like histone proteins, who are the building blocks that DNA helically wraps around to form chromosomes. The genes contained inside of the chromosomes promote cell functions. 

In eukaryotic cells, the nucleus is enclosed within an impermeable nuclear envelope. So, nuclear pores provide channels to regulate the transport of RNA and big molecules by proteins across the nuclear envelope. 

It also allows ions and other smaller molecules to pass through freely. 

The inside of the nucleus does not house any membrane-bound organelle compartments. The nucleus contains many different nuclear bodies including  special proteins, molecules of RNA, certain parts of chromosomes, and the most well-known the nucleolus, which assembles ribosomes. These ribosomes then are sent to the cytoplasm. Inside of the cytoplasm, the ribosomes, translate mRNA

Eukaryotic cells house a small portion of their DNA inside of mitochondrial organelles who are known as Mitochondrial DNA (mDNA). These cellular organisms produce energy or ATP (adenosine triphosphate) that cells can then use. They do this by converting chemical energy from food into ATP.

The rest of eukaryotic cells’ DNA can be located inside of the nucleus of cells. In algae and plants DNA can also be found in plastids like chloroplasts.

The organic compound, Adenosine triphosphate (ATP), is a hydrotrope,  which  provides energy to cells and is found in ALL life forms. ATP is intracellular energy transfer and is considered to be a “molecular unit of currency.” This energy is used in many cell processes like chemical synthesis (fusion), muscle contractions, nerve impulse propagation, and condensate dissolution. ATP is used as a coenzyme and is also a precursor compound for RNA and DNA 

The nucleobase (nitrogenous base-glycosylamines) of two different polynucleotide strands are bound together with hydrogen bonds (5Carbon sugar-which is a ribose or 2’-deoxyribose) to form complimentary base pairings (double-stranded DNA) of nucleosides (are nucleotides without a phosphate group).

Some examples of Nucleosides include: 

adenosine, cytidine, uridine, guanosine, thymidine, and inosine.

They abide  by the following rules: Adenine (A) goes with Thymine (T) known as pyrimidines, and Cytosine (C) goes with Guanine (G) known as the purines group.

A nucleotide is a nitrogen nucleobase that consists of either adenine (A), cytosine (C), thymine (T), or guanine (G), a phosphate group, and binding dexoyribose (sugar). 

Nucleotides are bound together by covalent bonds (atoms that share electron pairs) to conjoin one another to form into a chain (polynucleotide). This chain is made by the sugar of one nucleotide linking to the phosphate of the next nucleotide creating a rotating pattern known as the sugar-phosphate backbone 

polynucleotide molecule is a biopolymer made up of 13 or more nucleotide monomers that are covalently bonded in a chain (polynucleotides).

They classified as RNA (ribonucleic acid) and/or DNA (deoxyribonucleic acid). which usually occur in different polynucleotides.

There are 4 different species of a 

polynucleotides and depending on what order they put themselves together in the chain (can be ANY order) decides how the organisms functions. 

Chromatin is mixture proteins and nucleic acids (DNA and/or RNA) that can be located in nucleus of a eukaryotic cell. Chromatin packages or compacts long RNA/DNA molecule strands into a denser shape to prevent them from getting tangled. This process reinforces RNA/DNA when it undergoes cell division. 

If RNA/DNA are not compacted correctly, it causes them to tangle, which can result in damage during cell division and can effect how the gene regulates its expressions (causes mistake or error in how it functions.)

Chromatid is a replicated chromosome which has two daughter strands that are joined by a single centromere (the two strands that separate during cell division to become individual chromosomes).

Ribonucleic acid (RNA) is a chain of nucleotides and is considered a polymer molecule that is essential for decoding, coding, regulation and expression of a segment of a DNA part of polypeptide chain. This RNA polypeptide chain is found naturally folded onto itself, but is not a dual pair segment like DNA. Many viruses use an RNA genome to encrypt their genetic information

Messenger RNA (mRNA) transmit genetic info by using adenine (A), cytosine (C), guanine (G), and uracil (U), which are nitrogenous bases that instruct fusion of specific proteins. Many viruses encrypt their genetic information using a mRNA molecule that sends a frequency to a certain segment of the CDS region of a genome (all genetic material for a living thing) that codes for protein.

Certain RNA molecules can initiate a biological chemical reaction within cells that can send/communicate certain reactions to cellular signals and thus control gene expressions  

The universal reaction Protein synthesis (fusion), happens when transfer RNA  (tRNA) molecules instruct the fusion or combination of proteins on ribosomes.

Amino acids are instructed to be transferred to the ribosome, where the ribosomal RNA (rRNA) link the amino acids together to form new coded proteins

Repeating units of nucleotides (A,T,C,G) make up Deoxyribonucleic acid (DNA) which is a  molecule that consists of two chains of polynucleotides (made up of monomeric  nucleotides) that coil around each other to form a helical spiral or double helix 🧬 (two strands intertwined together in parallel directions). 

DNA carries genetic directions for the functioning, reproduction, growth, and development of all living things including a lot of viruses. 

Genomic deoxyribonucleic acid (gDNA) or genomic DNA is chromosomal DNA.

Almost all living things have the same genomic DNA in every single cell, which passes or sends heredity information frequencies from one generation of life to the next. 

Each individual cell only has  certain genes that are activated, which allows the different cells to have separate functions and makes room for differentiation (a process in which one cell type changes to another cell type) within the body of the living being. 

This genome or gDNA is then rewritten (transcribed) to form different RNAs that help the living beings function. 

A plasmid is a extrachromosomal DNA  (ecDNA) molecule that can be found inside of a cell, but ONLY away from or off chromosomes (they entail all the essential gene information for organisms under traditional conditions).

Plasmid can be found right outside chromosomes or inside of the nucleus of a cell. This is important, because this allows the Plasmid to replicate or copy itself independently. 

Plasmid are usually found inside of bacteria as tiny, circular double-helix DNA molecules, but can also be located inside of archaea and eukaryotic life forms. 

Plasmids contain genes that benefit the life forms survival by selectively choosing which extra genes may be useful under specific conditions. This is known as selective advantage and causes things like antibiotic resistance. 

Plasmids, or replicons, are specific sections of DNA that can replicate themselves, which gives them the ability to transform themselves (key) to allow them to enter another cell or host (door) autonomously. 

In other words, since Plasmids can replicate themselves so quickly, it allows them to select certain genes for their advantage in a speed-up fashion, creating a new plasmid type, that is their anonymous “key” into the cells “door” where they may or may not, depending on if they are a virus type or not, start replicating themselves again and cause diseases and sickness...

Plasmids, like viruses, are not usually classified as living (even though in their own way they are living) and are transported from one bacterium to the next, from one species to the next through a process called conjugation.

Conjugation or parasexual mode of reproduction in bacteria are two different bacteria cells transferring genetic material   (plasmid) from one host cell using a pilus to inject the plasmid (called horizontal gene transfer) into the new host cell through direct cell to cell contact aka two bacteria having sex and one injecting sperm into the other bacteria and thus, transforming it.

DNA plasmids are considered to be naked and do not encode or encase their gene’s genetic material in preparation for transfer to a new cell. But, there are certain families of plasmids who encode their pilus (penis) used for conjugation (sex) to transfer their own genetic material to the next host cell (pregnant).

Virus plasmid, on the other hand, encases and protects it’s genetic information into a protein coat named a capsid.

A prokaryote is a living cell that does NOT protect or enclose its nucleus (all genetic info), with an envelope. They also lack a mitochondria. 

“Prokaryote” comes from the Greek words meaning “before-nut” or “before-kernel.” Prokaryotes are usually asexual but can also perform horizontal gene transfer (sex with pilus) depending on what “type” of prokaryotic cell it is. Prokaryotes can be classified as either Archaea or Bacteria. 

Some examples of prokaryotes are extremophiles and methanogens which are found living in extreme environments...

Cells that contain an enclosed nucleus are considered to be Eukaryotes

Prokaryotes came before Eukaryotes

The chromosomal DNA located inside the enveloped nucleus of eukaryotic cells also includes the mitochondria, which are membrane-bound organelles. 

A prokaryotic cytoskeleton is what makes up a prokaryote. The prokaryotic cytoskeleton is makes up the helical building blocks for flagellin and flagellum, which are vital proteins needed to build the cytoskeleton in bacteria. 

These proteins are the structural background  bacterial cytoskeleton, because it provide chemotaxis, or the basic physiological cell response of bacteria organisms.

Eukaryotes are cell organisms who have an enclosed or enveloped nucleus. “Eukaryote” can be broken down in Greek to mean a “well-nut” or “good-kernel.” Eukaryotes originally stem from Archaea and represent a small portion of living organisms. They evolved around the Proterozoic time period around 1.6–2.1 billion years ago.

The Scientific Explanation How Of Almost Everything That Came To Be (in order), Why the Bible is a Lie, and Other Debunked Conspiracies Part III

Scientific explanation (evidence) continued...

All funguses (fungi) belong to the Eukaryotic group and include microorganism like molds, yeasts, and mushrooms. Funguses are grouped into a different kingdom than the eukaryotic kingdoms of animal and plant creatures. 

Even though they are grouped in a different kingdom, fungi share many similarities with animals, including being classified as heterotrophs, who retain and acquire their food by dissolving molecules and absorbing them, usually through digestive enzymes (catalyst proteins) that are secreted into their surrounding environment. 

This makes them a principal decomposer in environmental systems. A fungi growing is a fungus moving (mobility), but they may also move and grow through dispersing spores into the air or water. Funguses do not photosynthesize. 

Funguses are placed into a separate kingdom because they contain chitin(polysaccharide) in their cell walls. Chitin (C8H13O5N), is a long polymer (protein) chain of N-acetylglucosamine (amide or carboxamide which is a compound that represents organic hydrogen atom groups), that is produced as a byproduct of glucose. 

Chitin (Polysaccharides) are also part of the primary structure of Arthropods that made up the exoskeletons of insects and crustaceans, the scales of fish and amphibians, and the radulae of cephalopod beaks and mollusks. 

Chitin has also been used for several purposes in the industrial, medicinal, and biotechnological fields.

Cellulose is also a polysaccharide and has a very similar structure to chitin. 

Cellulose, forms whiskers also known as crystalline nanofibrils whose function is similar to keratin (key protein that makes up hair, scales, feathers, horns, nails, outer layer of skin, and claws in vertebrates. Also protects epithelial cells against stress or damage.)

Different fungi species produce mycotoxins (Phytochemicals compounds), like polyketides and  alkaloids, which are poisonous to animals and humans. Several types of fruiting fungi contain psychotropic (psychoactive) compounds that are consumed in spiritual ceremonies and recreationally.  

Fungi have been used since the 1940s, in the production of antibiotics, certain enzymes that are used in detergents and industrially, and in pesticides (to control plant diseases and insects).

Fungi can dissolve and break down buildings and manufactured materials, where it can become a major pathogen for animals and humans (for example, black mold). It can also cause fungal diseases, like rice blast disease, which causes loss of crops and food spoilage, which can have a negative impact on food supplies for humans and the economy. 

Fungi grows as a hyphae (in Greek it means “web” or a long filamentous branching structure of actinobacterium, oomycete, or funguses) usually in or on solid subsoil (layer under topsoil).

It can also grow in aquatic environments as single cells.

Fungi are adapted in such a way that they 

singly grow together to form a web that efficiently extracts nutrients from an surface area (like soil), and infests (attacks) tissues and substrates (surface in which organisms-plant/animal/fungus) lives. 

Fungi can exercise immense mechanical power forces that include many plant pathogens like Magnaporthe Grisea (rice blast fungus) that form a structure named appressorium (which is a flattened, “pressing” organ or a hyphal (hyphae)), that can puncture plant tissues. 

Appressorium, punctures the tissues of plants, because of the pressure it exerts 

when in direct contact with the plant epidermis.

The mechanical forces the Appressorium uses to generate the physical force

(grow-energy), happens when it starts producing osmolytes like glycerol (sweet substitute sugar or polyol compound), that increase the intracellular turgor pressure (an energy or force in the cell that pushes the cell plasma membrane against the cell wall).

This process is a type of adaptation and compliments hydrolytic enzymes, which are secreted into its surroundings in order to digest larger organic molecules like proteins, lipids, and polysaccharides, and breaks them down into smaller molecules, that allow the fungus to absorb the nutrients as food that gives it more energy. 

Paecilomyces lilacinus, a filamentous fungus, which uses a similar structure as the Appressorium, penetrates the eggs of Nematodes (also known as roundworms/eelworms).

Fungi grow as multicellular structures that can be somatic and contain reproductive cells. It can have several functions and allows it to reproduce (or replicate itself) in several ways including developing fruit bodies (mushrooms/mold) that can sow sexual spores anywhere. It also creates Biofilms for surface colonization that forms the intercellular web of communication (hyphae). 

In animals and plants this feature has independently evolved (sperm/egg/penetration). 

Traditionally, Fungi are classified as heterotrophs (in Greek means hetero(s) = "other" and trophe = "nutrition"), who are organisms that cannot make its own food, so it relies on organic or fixed carbon from other organisms metabolism (plant and animal matter).

Fungi are very versatile and have evolved to be able to metabolize organic substrates (surfaces on which enzymes reacted) to grow. These organic substrates include the simple compounds ammonia, nitrate, ethanol, or acetate.

In some fungi species, melanin (pigment) is used to extract energy from ionizing radiation (radiation/radioactive-receives and translates into energy (food) that allows growth), like gamma radiation. 

This is called radiotrophic growth and only applies to a few species. Maybe other fungi species use Alpha, Beta, and Theta radiation frequency waves to produce energy (growth)? 

Fungi can possess both asexual and sexual spores (sporangiospores) that are forcibly ejected from their reproductive system, which allows them to travel long distances through the air or water. 

Ascomycete Fungi produces sexual spore-bearing cells also known as Ascus (in Greek means “sac”or “wineskin”). Some examples of Ascomycete sac fungi include: Yeast, truffles, cup fungi, morels, and Xylaria (dead man’s fingers usually  found growing on dead wood). 

Spore-bearing cells in several Ascomycetes fungi, build up substances (organic compounds), which affects the volume and fluid of the cells and allows it to eject or explode a discharge of single spores (ballistospores) into the air. 

This also involves a Buller’s drop or a tiny, single drop of water, which causes the spores to forcibly release upon contact. 

The spores are ejected at a quick speed, which allows them to travel a long enough distance to fall through the pores or gills of other fungi.

Homothallic fungi use homothallic sexual reproduction (self-fertilizing/asexual), by fusing two haploid nuclei that are from the same cell, that form a zygote that then goes through meiosis (dividing itself by itself twice to create 4 cells-which could be considered the sperm (2 fused  cells) and egg (2 fuzed cells) that fuzes itself together again and then divides the newly created other cell half to form the zygote or new fungi clone).

Homothallic fungi also include the Aspergillus and Penicillium species. They exchange genetic materials through the parasexual process (Does not use meiosis; Instead the fungi cell fertilizes itself, but then fuzes with other cell and starts diving by mitosis). 

The Hyphae and Plasmogamy of fungal cells go through a process called anastomosis, which initiates the parasexual process. This process helps in intraspecific hybridization, and is most likely required for cross-breeding between different species. 

The genus Aspergillus, consists of a couple hundred mold species that are asexual and have a spore-forming system.

In the year 1729, Pier Antonio Micheli, an Italian biologist and priest, catalogued the fungus. The Aspergillus shape reminded him of the aspergillum or holy water sprinkler, bc it had a similar shape, it got named after it.

It must be noted that Aspergillum is connected to COVID-19, the Club of Rome, and the Vatican who opened the seal of the Pius XII’ tenure on March 2, 2020. Days later the fires and riots began in Italy. This is also around the the time the whole world suffered from the COVID-19 virus and rioting started in the USA over pointless made up media ideas. 

What is race? The rainbow dose not see color, it knew every organism was made up of RNA and DNA, which had its own unique sequences that, were made up of the same identical parts. What would the rainbow be without it’s unique color sequences? 

Archaea are microscopic single-celled organism that lack a nuclei and thus are classifieds prokaryotes. They are asexual  and reproduce by budding (dividing itself and developing from an outgrowth), binary fission (dividing itself and regenerating the parts into 2 separate original entities), or fragmentation (splits itself into multiple parts and regenerates clones). They can have many different shapes including square and flat cells. 

Archaea usually use more organic compounds as energy sources vs the slightly more advanced eukaryotes. 

Salt-loving archaea convert sunlight to use as their energy source, other types of archaea who use a type of photosynthesis to fix carbon (for example, Carbon dioxide) and convert it into energy (like oxygen). 

Along with bacteria they live in extreme habitats like salt lakes (ex. Dead Sea) or hot springs, but can also thrive in marshlands, soil, freshwater, and inside oceans as a type of archaea known as “plankton” organisms.

Archaea are part of the microbiota (ecological communities of different microorganisms living together symbiotically in Harmony) and are also found inside of animals and humans. 

Archaea can be found on human skin, within the mouth, and most importantly inside of the gut, where it makes up the human microbiome that keeps our nervous and immune system functioning properly. 

Inside of the human gastrointestinal tract, Methanogen (human fart producing Archaea), are either mutualists or commensals and help inside the gut by aiding in the digestion process.

Methanogen Archaea are also used in sewage treatment plants to help clean the water, biogas production, and biotechnology.

Since Archaea are very diverse and and morphological they perform many functions including maintenance of microbial communities, fixing carbon, and nitrogen cycling. 

Bacteria are is a type of cell and make up a large population of the prokaryotic microorganisms. They do not have a nucleus and typically do not house membrane-bound organelles. 

They come in many different types of shapes including rods, spirals and spheres. Bacteria are some of  the first forms of life to emerge on Earth. Bacteria can be found anywhere on the planet including in water, soil, acidic habitats and even radioactive waste.

Bacteria live in parasitic and symbiotic (living together in harmony) relationship with humans, animals, and plants.

Almost all life is reliant on bacteria and some archaea to survive, because they posses particular genes and enzymes that are required to fuze cobalamin (vitamin B12, which is water-soluble), so it can provide it throughout the food chain.

Every living cell of the human body uses Vitamin B12, because it is cofactor in the metabolism process, DNA synthesis (fusion), amino acid metabolism, and fatty acid. Vitamin B12 plays a vital part in helping regulate the function of nervous system, because it is a component in fusing myelin.

Bacteria are essential in the nutrient cycle, because they help recycle nutrients. For example, they turn nitrogen found in the air or soil into ammonia. Bacteria are also responsible for putrefaction stage of decomposition (death) which includes dissolving proteins and breaking down the bonds (cohesiveness) of tissues. 

They also convert compounds like methane and hydrogen sulphide into energy (ATP) and nutrients needed to sustain life.

Fresh water contains about a million bacterial cells per milliliter. A gram of soil contains around 40 million bacteria.

In human beings and nearly all animals, most of the bacteria exist inside the gut and on the skin and are considered harmless and even beneficial for the immune system especially in the gut flora. 

Bacteria form endospores (dormant bacteria that can remain that way for over 10,000 years). 

 

Certain bacterial species can be pathogenic (cause infectious diseases including respiratory infections).

Some examples of pathogenic bacteria are the bubonic plague, leprosy, syphilis, and anthrax.

Bacterial infections are treated using Antibiotics. Antibiotics are also used in farming in the form of herbicides and pesticides, THIS IS CAUSING ANTIBIOTICS RESISTANCE on a large, UNBALANCED SCALE!!!! This will have dire consequences for ALL humans if they don’t IMMEDIATELY get it under control. This includes and is especially true for ALL major Industries, who must REFORM. 

Bacteria are also used to help breakdown oil spills, clean water in sewage treatment plants, biotechnology (make antibiotics and other chemicals—hence herbicides/pesticides are a type of plant antibiotic),  recovering gold, copper, and other metals during mining , and in the producing yogurt and cheese through a process called fermentation. 

A microbial mat (can also be referred to as bacterial or algal mats), is a multi-layered surface of microorganisms. 

Fossil evidence from 3,500 million years ago, show that microbial mats are the first forms of life, and are essential maintainers for the Earth’s ecosystem. 

In the beginning, they relied on hydrothermal vents (volcanic fissure (eruption) on the ocean floor causing heated water to be expelled), for chemical “food” or energy. 

Once, the microorganism mats developed photosynthesis, it allowed them to venture outside of hydrothermal vent environment, by using more energy sources, like sunlight. 

The final stage of adaptation for the mats, was the evolution of oxygen-producing photosynthesis. This adaptation happened, because the main chemical compounds surrounding them was carbon dioxide and water. 

This process created the atmosphere  full of free oxygen, humans know and breathe today. Eukaryotic type cells, which is the underlying structure for all multicellular organisms, also comes to life around this time.

Since, microbial mats can use almost anything as a food (energy) source, corporations have high interest in using them for pollution control and water treatment cleanup. 

In other words, the microbial mat, kept adding on to its “web” and growing outwards and upwards allowing it to reach more energy sources like sunlight, which allowed it to photosynthesis and turn into other things, like plants and eventually animals.

A virus is a pathogen that is submicroscopic in size and can only live and replicate inside of the cells of other creatures. All life forms, including archaea and bacteria (microorganisms), plants, animals and humans are affected by viruses.

In Latin virus means “poision” and  in Greek pathogen, is broken down into (patho)s which means “passion” and “suffering”  and (gen)es means “producer of.” 

In other words, the virus pathogen is a poison that produces suffering (infectious diseases that can result in death or decay of the cells while living);

A virus begins its life cycle as something known as a virion, who is a self-reliant or autonomous particle that contains long molecule strands of DNA or RNA that are enclosed in a protective protein coat called the capsid. 

The genetic molecules (DNA/RNA) that make up the virion, encode the protein coat, with a new protein structure (sequence), which allows the virion to act (attack). 

Certain virions also have an outer layer of lipids that create a protective envelope (shell) around it, so they can more easily penetrate or travel between host cells. 

Once the virion successfully enters or infects a host cells nucleus, it quickly makes thousands of copies of the original virus cell sequence. 

Virions are 1% smaller than most bacteria and a portion of them, seem to have evolved from plasmids. Both virions and plasmids reproduce by a process called horizontal gene transfer (two cells having sex and vertically transferring DNA with a pilus). 

Viruses have many different ways they can spread or transmit themselves into an organism. In many cases, the virus finds a vector or an agent that transmits or carries it from organisms to organism.

Since bacteria and archaea are found in a symbiotic relationship with plants (their roots), virions also exist within these prokaryotic cells (bacteria/archaea). 

If the plant’s prokaryotic helper cells get sick with a virion, it can also affect the plants cell structure and make it “sick” causing infectious plant diseases like mold or fungus that eventually kill the plants. 

Since plants produce pollen or sap, they transmit the viruses to insects, for example, aphids, bees, and butterflies, who carry the viruses from plant to plant. Insects like mosquitos and tick also transmit the viruses to animals and humans by blood-sucking. 

A Narnavirus belongs to the category of positive-strand RNA viruses (a +ssRNA virus is composed of a non-segmented, linear, single-strand of positive genomes that are made up of RNA (ribonucleic acid)). The virus uses transcription to leave the host cell and move from one cell the next to replicate itself inside them.

Narnaviruses do not have proteins (structure) or a capsid (protein envelope), so they do not have a true virion. Their genome is considered to be an open reading frame that allows it to execute or function as a messenger RNA (mRNA) who encodes the RNA-dependent RNA polymerase (RdRp) ribosomes inside of the host’s cells. RdRp replicates the  genome by fusing a Negative-strand RNA virus (-ssRNA or -antigenome) to build a platform where it constructs a new positive genome or copy of the original narnavirus.

This process turns the ribosomes into viral proteins. When the virus replicates it is acting cytoplasmic. 

Fungi organisms are one type of virus hosts. The Narnavirus’s genome is connected to the RNA-dependent RNA polymerase. It can be located in the cytoplasm of the host fungi. When a narnavirus infects the fungi it forms a naked ribonucleoprotein structure.

All Positive-strand RNA viruses belong to Realm Riboviria which is divided  into the kingdom Orthornavirae. The kingdom is further split into the phyla Lenarviricota, Kitrinoviricota and Pisuviricota (divided into the classes Stelpavitictes and Pisoniviricetes. 

All viruses are monophyletic and share one common positive-strand RNA virus ancestor. Positive RNA viruses also include many different pathogens including coronaviruses, hepatitis C virus, SARS, MERS, West Nile virus, SARS-Cov-2 (COVID-19), and rhinoviruses (common cold).

Positive RNA genomes usually only have 3-10 genes, which includes the RNA-dependent RNA polymerase.

Coronaviruses on the other hand, have between 27-32 RNA genomes who proofread replication mechanisms to create nonstructural proteins that form an exoribonuclease. 

Many Narnaviruses undergo genetic recombination when two or more viruses are present in a host cell (the RNA viruses combine together to form a super virus). 

This especially true for humans. 

Viral genetic recombination also occurs 

in the SARS coronavirus ((Coronaviridae)-enveloped positive-strand RNA virus). 

Recombination usually happens to viruses in order to deal with damage to the viral genomes during replication. It is a type of adaptation. 

Occasionally, recombination also happens in Positive-strand RNA viruses, like the MERS and SARS virus, and causes an outbreak in humans. These viruses are commonly found in plants. 

Severe acute respiratory syndrome–related coronavirus (SARS-CoV or SARS-CoV-1) is a Positive-sense single-stranded RNA Virus located inside of a protective lipid envelope. The SARS coronavirus belongs to the genus group of Betacoronaviruses (group 2) and is further broken down into the subgenus (subgroup called Sarbecovirus). 

Sarbecovirus differ from alphaviruses, because they only have one papain-like protease (PLpro) domain protein. The SARS-CoV-2 coronavirus encodes the PLpro as part of its non-structural protein (nsp)-3.

Alphaviruses on the other hand have an open reading frame (ORF1) that has the ability to be translated.

Severe acute respiratory syndrome coronavirus 2 (COVID-19 or 

SARS-CoV-2) is the species (strain) of coronavirus that is responsible for the respiratory illness that caused the COVID-19 pandemic.

The SARS-CoV-2 is taxonomically classified as a strain of the (SARS-CoV-1). The virus has zoonotic origins and has a similar make-up to the bat coronaviruses meaning, it most likely originated from a bat-borne virus.

The SARS-CoV-1 betacoronvirus can infect mammals like bats and humans. The virion enters its host cell by fusing itself to a receptor called the Angiotensin-converting enzyme 2 (ACE2), which is involved in the COVID19 outbreak.

The SARS-related virus has 14 open reading frames (can be translated-AUG sequence in RNA), which may overlap to create two replicated polyproteins.

This genome sequence has the usual 3’ polyadenylated tail (3’UTR- contains 342 nucleotides) and 5’ methylated cap (5’UTR- contains 265 nucleotides).

The 5’UTR cap and 3’UTR allows the positive-single strand of RNA to immediately enter by being translated  (converted) by the ribosomes of the host cells and cause infection. 

These ribosomes are entered by the SARS-related viruses through its beginning two, large overlapping open reading frames (ORFs) called (port proteins) 1a and 1b, which both make polyproteins that fuze NSP1-16 with the virus enzyme(catalyze) and begin to breakdown (divide) the enzyme proteins into even smaller polypeptides (single amino acids). This then allows it to enter, take over (copy) and attack (infection).

The two, large overlapping open reading frame (port proteins) 1a and 1b, both encode, transcript, and replicate (make) polyproteins. 

After this reaction, the open reading frame (port) proteins 2a, 4a, 5a, and 9a encodes the 4 main structural proteins, which include the nucleocapsid (protein shell of virus), the lipid envelope (proteins inside of envelope are virus code), the spike or peplomer (a glycoprotein spike located on the lipid envelope and nucleocapsid), and the host cell’s membrane (phospholipids and proteins the virus uses to build the envelope).

Next, the overlapping open reading frames begin encoding for eight other accessory proteins, which include  

ORF3a, 3b, 6, 7a, 7b, 8, 9b, 9c, and ORF10.

The accessory proteins (ORF3a through ORF10) are not essential for the virus to assemble and replicate itself, but instead contributes to the virus by affecting the stability, releasement, and 7 pathogenesis. 

The immune evasion functions of the COVID-19 accessory proteins still need to be discussed.

 

Angiotensin is a protein that helps accelerate biological chemical reactions and control gene expressions of the nervous system including regulating the renal region (kidneys), the liver, colon, spleen, cardiovascular functions, and fertility (testies).

This protein (ACE2) can also be a receptor  for the spike glycoprotein, which includes SARS-CoV and COVID19 (SARS-CoV-2).

Angiotensin-converting enzyme 2 (ACE2), belongs to the family dipeptidyl carboxydipeptidases. It has multiple splice variants of its gene including the dACE2, which is interferon inducible.

ACE2 is a secreted protein that has the ability to catalyze (increase and modify chemical reactions) of angiotensin I and splits it apart into angiotensin 1-9, and also catalyzes angiotensin II into vasodilator angiotensin 1-7.

What’s interesting about, the SARS-CoV-2 protein virus is that it is not confined by  Angiotensin-converting enzyme 2 (ACE2) protein binding hotspots, but instead can be widely distributed by many interface residues (protein to protein interactions that regulate cellular reactions, stability, and also helps control gene functions and expressions).

The interface residue in a protein interacts with the sidechain and the main chain of atoms. 

The SARS-CoV-2 protein successfully binds with the ACE2 receptor protein when there is an increasing amount of changes happening to a number of residue interfaces within the ACE2 proteins. 

This creates more energy across the entire binding residue interface allowing the virus to enter the system. 

Plankton include many different types of  organisms that can live in the water, air, and soil. They flow with the current whether water or air and cannot push themselves against it. 

Marine plankton includes: Algae, Archaea, Bacteria, and Protozoa. Plankton are usually thought of as microorganisms, but come in a variety of shapes and sizes including larger creatures like jellyfish. 

There are also Aeroplankton, who are airbourne versions found in sea mist, dust storms, seeds carried off by the wind, and plant pollen and spores (like fungi spores). Plankton are a vital food source for large and small aquatic creatures like whales, fish, and  bivaliva (molluscs). 

 ◦