Figures index

From

Parallelism between the Classical Geocentric Cosmos and the Life Chemistry Essentials

Jef Struyf

American Journal of Educational Research. 2021, 9(1), 38-51 doi:10.12691/education-9-1-5
  • Figure 1. Two pictorial representations of the classical geocentric solar system: the upper figure shows symmetrical paired celestial bodies and the Earth and the figure below shows Mercury and Venus in a more realistic relative position to the Sun
  • Figure 2. A pictorial representation of the neon atom electronic structure
  • Figure 3. Opposite pairs of classical planets and octet electrons
  • Figure 4. Grouping of macro bio-elements according to the periodic table
  • Figure 5. Grouping of the seven covalent bond forming macro bio-elements according to the cube coordinate system and grouping of the five ionic bond forming macro bio-elements according to the covalent bonds of the carbon tetrahedron
  • Figure 6. An educated guess of the zodiac constellation representatives for the twelve macro bio-elements (Section 6.1 discusses this educated guess)
  • Figure 7. Grouping of micro bio-elements into pairs according to periodic table groups
  • Figure 8. Skeletal formulas of nonpolar amino acids (Chemsketch templates)
  • Figure 9. Grouping of non-polar standard amino acid side chains by the classic solar system: three non-alkyl chains as Earth-Moon-Sun (yellow highlighted) representatives and five alkyl chains as wandering star representatives (light grey highlighted), Earth-Sun “s”-pair and three inner-outer planet “p”-pair representatives
  • Figure 10. Amino acids with noncharged polar side chain (Chemsketch templates)
  • Figure 11. Amino acids that have a cationic (Arg, His and Lys), an anionic (Asp and Glu) and a partly anionic (Cys and Tyr) charge at physiologic pH (7.4). Charges are not shown on the formulas (Chemsketch templates)
  • Figure 12. An educated guess of the zodiac constellation representatives for the twelve polar amino acid side chains Section 6.2 discusses this educated guess
  • Figure 13. Nucleobases for DNA and RNA and their one letter abbreviations Nucleobases are the side chains of nucleotides and consequently also for DNA and RNA. DNA and RNA have two base complementary nucleobase pairs: the Adenine - Thymine (or Uracil) pair symbolized by the A - T (or U) and the Guanine -Cytosine pair symbolized by the G - C pair (Chemsketch templates)
  • Figure 14. Vertebrate mitochondrial and standard genetic code table for mRNA translations
  • Figure 15. Two groupings of abN codon pairs and their encoded amino acids for standard and vertebrate mitochondrial genetic codes, the lower row pairs have base complementary first positions and identical second and third positions, the lower cell row base complementary first positions are: one U-A (“n-pair” or Earth-Sun representative) and three C-G (“p-pair” or inner-outer planet representative) pairs
  • Figure 16. Two groupings of abY codon pairs and their encoded amino acids for the vertebrate mitochondrial genetic code, the lower row pairs have base complementary first positions and identical second and third positions, the lower cell row base complementary first positions are: one C-G (“n-pair” or Earth-Sun representatives) and three U-A (“p-pair” or inner-outer planet representatives) pairs
  • Figure 17. Two groupings of abR codon pairs and their encoded amino acids (and stops) for the vertebrate mitochondrial genetic code, the lower row pairs have base complementary first positions and identical second and third positions, the lower cell row base complementary first positions are: one C-G (“n-pair” or Earth-Sun representatives) and three U-A (“p-pair” or inner-outer planet representatives) pairs
  • Figure 18. Vertebrate mitochondrial and standard genetic code mRNA translations are paired by “ab” combination with base complementary first, and identical second and third codon positions. The base complementary makes the pairs opposites
  • Figure 19. A comparison between classical solar system opposites (upper cell row), octet electron pair opposites (middle cell row) and abN codon pairs with their encoded amino acids (lower cell row)
  • Figure 20. Standard mRNA genetic code translations paired by “ab” combination with base complementary first, and identical second and third codon positions (except UU). UGR is spliced into UGG (tryptophan) and UGA (stop). AUN codons are spliced into AUH (isoleucine) and AUG (methionine)
  • Figure 21. Summary of the standard genetic code classical geocentric cosmos representatives
  • Figure 22. An educated guess of the zodiac constellation representatives for the standard genetic code (Section 6.3 discusses this educated guess)
  • Figure 23. General codon structures for the abY and abR codons of the standard genetic code (Figure 20, middle part on the right)
  • Figure 24. Zodiac constellation opposites and the corresponding type of doublet codons