This paper maps the four DNA nucleotides to Energetic First Principles (E1P) phase characters: adenine = Identity (AA) cytosine = Polarity (CC) guanine = Flow (CA) thymine/uracil = Separation (AC) The mapping derives from three orthogonal IUPAC classification systems (R/Y ring structure, S/W hydrogen bond strength, M/K functional groups) and converges with thermodynamic parameters and functional roles documented in peer-reviewed literature. The helio-location vector H (x) = (hAA, hCC, hCA, hAC) provides a complete phase-coordinate description for any DNA sequence. Worked examples demonstrate that regulatory element function (TATA box vs. CpG island) is predictable from phase composition alone. The framework resolves long-standing puzzles: why ATP monopolizes energy currencywhy CpG is a mutation hotspotwhy synonymous substitutions produce 5–100× expression differenceswhy poly-A stabilizes while poly-T terminates These facts, previously catalogued separately, become derivable consequences of phase assignments. E1P was developed independently across physics, AI architectures, and economic systems. The nucleotide mapping applies that framework to genetics, not to validate E1P, but to make genetics more coherent. Five falsifiable predictions are provided for prospective validation.
Resonant Institute (Thu,) studied this question.