Lie superalgebras and the multiplet structure of the genetic code. I. Codon representations
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Publication:2738121
DOI10.1063/1.533417zbMath1055.92035arXivmath-ph/9808001OpenAlexW2044668536MaRDI QIDQ2738121
Sebastian Sachse, Michael Forger
Publication date: 30 August 2001
Published in: Journal of Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/math-ph/9808001
Protein sequences, DNA sequences (92D20) Genetics and epigenetics (92D10) Lie algebras and Lie superalgebras (17B99)
Related Items (8)
p-Adic Side of the Genetic Code and the Genome ⋮ Extending the Search for Symmetries in the Genetic Code ⋮ Symmetry breaking in the genetic code: finite groups ⋮ Varieties of null-filiform Leibniz algebras under the action of Hopf algebras ⋮ Ultrametrics in the genetic code and the genome ⋮ ON AMINO ACID AND CODON ASSIGNMENT IN ALGEBRAIC MODELS FOR THE GENETIC CODE ⋮ Lie superalgebras and the multiplet structure of the genetic code. II. Branching schemes ⋮ Modeling the Genetic Code: p-Adic Approach
Cites Work
- A remarkable connection between the representations of the Lie superalgebras osp(1,2n) and the Lie algebras o(2n+1)
- SYMMETRY AND SYMMETRY BREAKING: AN ALGEBRAIC APPROACH TO THE GENETIC CODE
- Representations of supergroups
- GENERIC IRREDUCIBLE REPRESENTATIONS OF FINITE-DIMENSIONAL LIE SUPERALGEBRAS
- Lie superalgebras
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