Published May 9, 2026 | Version v1

THE FOUR KLÜVER FORM CONSTANTS ARE THE FOUR DNA BASES UNDER A TWO-AXIS ISOMORPHISM

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We propose that the four hallucinatory form constants of Küver (lattice, cobweb, tunnel, spiral) and the four DNA bases (A, C, T, G) are the same four-element decomposition of geometric existence, instantiated in cortex and chemistry respectively. 

The bijection is not one-to-one between cells but one-to-one between the two binary axes of each side: pyrimidine/purine ↔planar/axial; weak-bond/strong-bond↔achiral/rotational. Resolving the cells gives T = lattice, C = cobweb, A = tunnel, G =spiral.

The mapping is confirmed at the amino-acid level by a Hungarian-optimal assignment over codon usage in real spider-silk gene sequences, returning a sum 2.02 times the as-given diagonal. Telomeric G-quadruplexes — planar tetrads of guanine stacked along the chromosome axis — are exhibited as the architect’s signature: spiral primitives composed into lattice geometry. A class of preservation genes (APOLD1, TP53, HAS2, KLF2, TDPs, SP6/SP8, TERT) is identified, each defending one of the four primitives or a composition of two; each has a pathological twin in cancer or aging, motivating a consent-context targeting framework disclosed in §6.

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Preprint: 10.5281/zenodo.19263974 (DOI)

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2026-05-09

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