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III. Medium Object Axioms
 
  3.1 Cellular Axioms  
  Article 52-Cellular Reproduction and DNA  
  Canon 554  
  The axioms within the Class of Natural Law of Cellular Reproduction are:  
  1. Cellular Reproduction is the process of new cell creation and transference of genetic material from one generation of cells to the next.  
  2. There are three (3) primary forms of Cellular Reproduction: (1) Biosis also known as Binary Fission by Prokaryote (mono-cellular) Cells; (2) Mitosis by Eukaryote (plant and animal) Cells and (3) Meosis by Eukaryote Sex Cells.  
  3. Biosis (also known as Binary fission) is the process of reproduction of a living prokaryotic cell by division and reproduction of its DNA into two parts which then separate into two (2) distinct cells, then re-assemble their constituent parts.  
  4. Mitosis, is the process of a non-sex cell reproduction of a living eukaryote (plant and animal) cell by division and reproduction of not only its DNA, but nucleus and some key organelles before final separation into two (2) distinct cells, then re-assembly of their constituent parts.  
  5. Meiosis is the process of sex cell reproduction of a living eukaryote (plant and animal) sex cell by two phases of division and reproduction of not only its DNA, but nucleus and some key organelles first into two (2) and then finally into four (4) new sex cells.  
     
  Canon 555  
  The axioms within the Class of Natural Law of DNAare:  
  1. DNA (Deoxyribonucleic acid) is a highly stable molecular chain of two sugar and phosphate backbones with a nucleotide bases of carbon-nitrogen twin set of “lock” and “key” molecules between.  
  2. In DNA, the “key” Adenine (A) matches the “lock” molecule thymine (T) and the “key” Guanine (G) matches the “lock” Cytosine (C).  
  3. In RNA, the “key” Adenine (A) matches the “lock” molecule uracil (U) and the “key” Guanine (G) matches the “lock” Cytosine (C).  
  4. DNA base pairs when assembled form a naturally curving molecule strand representing the “double helix”. When assembled, between 10,000 and up to one billion (1,000,000,000) base pairs may form a chromosome.  
  5. DNA stores principally three (3) forms of essential information (1) genes represent triplets of genetic base pairs called codons representing expressions of amino acids forming proteins (2) spatial and positional information converted into hardcoded binary memory in repetitive production of microtubule and (3) production information in terms of sequence, operation and response of organelles within the cell.  
  6. A gene, represented by codons of three (3) base pairs of DNA per amino acid may be as few as a hundred codons, or several thousand long, depending on the complexity of the protein being coded.  
  7. The largest amount of DNA memory stores the spatial and positional data expressed through the hard coded binary position of tubulin in microtubules.  
     
 
 
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