期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 24, 期 15, 页码 -出版社
MDPI
DOI: 10.3390/ijms241512029
关键词
genetic code symmetry; supersymmetry genetic code table; genetic code evolution; standard genetic code table; DNA quadruplet symmetry; Chargaff's first parity rule; Chargaff's second parity rule; asteroid Ryugu
Through 10 years of investigation and research, we have discovered the Supersymmetry Genetic Code table which utilizes double mirror symmetry and Watson-Crick pairing. This table is built with 2 x 8 codon boxes, quadruplet DNA symmetries, and the classification of trinucleotides/codons. We also found that single-stranded RNA contains the complete code of life and instructions for DNA development through Watson-Crick pairing. The symmetries between the genetic code and DNA quadruplet are highly conserved throughout evolution even between distant organisms.
Symmetries have not been completely determined and explained from the discovery of the DNA structure in 1953 and the genetic code in 1961. We show, during 10 years of investigation and research, our discovery of the Supersymmetry Genetic Code table in the form of 2 x 8 codon boxes, quadruplet DNA symmetries, and the classification of trinucleotides/codons, all built with the same physiochemical double mirror symmetry and Watson-Crick pairing. We also show that single-stranded RNA had the complete code of life in the form of the Supersymmetry Genetic Code table simultaneously with instructions of codons' relationship as to how to develop the DNA molecule on the principle of Watson-Crick pairing. We show that the same symmetries between the genetic code and DNA quadruplet are highly conserved during the whole evolution even between phylogenetically distant organisms. In this way, decreasing disorder and entropy enabled the evolution of living beings up to sophisticated species with cognitive features. Our hypothesis that all twenty amino acids are necessary for the origin of life on the Earth, which entirely changes our view on evolution, confirms the evidence of organic natural amino acids from the extra-terrestrial asteroid Ryugu, which is nearly as old as our solar system.
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