Litcius/Paper detail

Complete Quantum Information in the DNA Genetic Code

Michel Planat, Raymond Aschheim, Marcelo M. Amaral, Fang Fang, Klee Irwin

2020Symmetry11 citationsDOIOpen Access PDF

Abstract

We find that the degeneracies and many peculiarities of the DNA genetic code may be described thanks to two closely related (fivefold symmetric) finite groups. The first group has signature G=Z5⋊H where H=Z2.S4≅2O is isomorphic to the binary octahedral group 2O and S4 is the symmetric group on four letters/bases. The second group has signature G=Z5⋊GL(2,3) and points out a threefold symmetry of base pairings. For those groups, the representations for the 22 conjugacy classes of G are in one-to-one correspondence with the multiplets encoding the proteinogenic amino acids. Additionally, most of the 22 characters of G attached to those representations are informationally complete. The biological meaning of these coincidences is discussed.

Topics & Concepts

Conjugacy classGenetic codeSignature (topology)Group (periodic table)Symmetric groupOctahedronCombinatoricsBinary numberCode (set theory)Symmetry (geometry)DNAMathematicsBase (topology)PhysicsCharacter tableCrystallographyGeneticsBiologyArithmeticChemistryComputer scienceQuantum mechanicsCharacter (mathematics)Crystal structureGeometryProgramming languageMathematical analysisSet (abstract data type)RNA and protein synthesis mechanismsBacterial Genetics and BiotechnologyBacteriophages and microbial interactions
Complete Quantum Information in the DNA Genetic Code | Litcius