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Beyond a Quartic Polynomial Modeling of the DNA Double-Helix Genetic Code 被引量:3

Beyond a Quartic Polynomial Modeling of the DNA Double-Helix Genetic Code
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摘要 By combination of finite number theory and quantum information, the complete quantum information in the <em>DNA</em> genetic code has been made likely by <em>Planat et al</em>. (2020). In the present contribution a varied quartic polynomial contrasting the polynomial used by <em>Planat et al</em>. is proposed that considered apart from the golden mean also the fifth power of this dominant number of nature to adapt the code information. The suggested polynomial is denoted as <em>g</em>(<em>x</em>) = <em>x</em><sup>4</sup> - <em>x</em><sup>3</sup> - (4 - <em><i style="white-space:normal;">&#981;</i></em><sup>2</sup> )<em>x</em><sup>2</sup> + (4 – <i>&#981;</i><sup>2</sup>)x + 1, where <img src="Edit_40efe764-d690-499f-8424-129f9ca46f78.bmp" alt="" /> is the golden mean. Its roots are changed to more golden mean based ones in comparison to the <em>Planat</em> polynomial. The new coefficients 4 – <em>&#981;</em><sup>2</sup> instead of 4 would implement the fifth power of the golden mean indirectly applying <img src="Edit_5b44b644-3f59-4fad-a586-ec5345ba6be4.bmp" alt="" />. As an outlook, it should be emphesized that the connection between genetic code and resonance code of the <em>DNA</em> may lead us to a full understanding of how nature stores and processes compacted information and what indeed is consciousness linking everything with each other suggestedly mediated by all-pervasive dark constituents of matter respectively energy. The number-theoretical approach to <em>DNA</em> coding leads to the question about the helical structure of the electron. By combination of finite number theory and quantum information, the complete quantum information in the <em>DNA</em> genetic code has been made likely by <em>Planat et al</em>. (2020). In the present contribution a varied quartic polynomial contrasting the polynomial used by <em>Planat et al</em>. is proposed that considered apart from the golden mean also the fifth power of this dominant number of nature to adapt the code information. The suggested polynomial is denoted as <em>g</em>(<em>x</em>) = <em>x</em><sup>4</sup> - <em>x</em><sup>3</sup> - (4 - <em><i style="white-space:normal;">&#981;</i></em><sup>2</sup> )<em>x</em><sup>2</sup> + (4 – <i>&#981;</i><sup>2</sup>)x + 1, where <img src="Edit_40efe764-d690-499f-8424-129f9ca46f78.bmp" alt="" /> is the golden mean. Its roots are changed to more golden mean based ones in comparison to the <em>Planat</em> polynomial. The new coefficients 4 – <em>&#981;</em><sup>2</sup> instead of 4 would implement the fifth power of the golden mean indirectly applying <img src="Edit_5b44b644-3f59-4fad-a586-ec5345ba6be4.bmp" alt="" />. As an outlook, it should be emphesized that the connection between genetic code and resonance code of the <em>DNA</em> may lead us to a full understanding of how nature stores and processes compacted information and what indeed is consciousness linking everything with each other suggestedly mediated by all-pervasive dark constituents of matter respectively energy. The number-theoretical approach to <em>DNA</em> coding leads to the question about the helical structure of the electron.
作者 Hans Hermann Otto Hans Hermann Otto(Materials Science and Crystallography, Clausthal University of Technology, Clausthal-Zellerfeld, Germany)
出处 《Journal of Applied Mathematics and Physics》 2021年第10期2558-2577,共20页 应用数学与应用物理(英文)
关键词 <i>DNA</i> Genetic Code <i>DNA</i> Resonance Code Qartic Polymial Golden Mean Silver Mean Fifth Power of the Golden Mean Fiboacci Number 13 <i>α</i>-Helix Icosahedron Equation Number Theory Quantum Computation Consciousness Dark Energy Electron’s Structure <i>DNA</i> Genetic Code <i>DNA</i> Resonance Code Qartic Polymial Golden Mean Silver Mean Fifth Power of the Golden Mean Fiboacci Number 13 <i>α</i>-Helix Icosahedron Equation Number Theory Quantum Computation Consciousness Dark Energy Electron’s Structure
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