Modern Chemistry & Applications

Unitary symmetry of atoms, molecules, codons, mixtures and its applications in chemistry, genetics, pharmacology and early diagnosis of diseases

9^th Global Chemistry Congress

July 23-24, 2018 | Lisbon, Portugal

Vladimir Komarov

St Petersburg State University, Russia

Posters & Accepted Abstracts: Mod Chem Appl

Abstract:

I created the new paradigm in chemistry, which is based on my discovery of "Unitary symmetry of atoms, molecules, codons, mixtures". The essence of this paradigm consists in considering nuclei, atoms, molecules, codons, genotypes and mixtures as discrete objects. The subsequent analysis of discrete objects from the point of view of combinatorics makes it possible to generate an ordered homology system. The main feature of combinatorial homology system is the fact that certain portions of the two-link homology in the space of their physical and chemical parameters are arranged regularly, i.e. parallel to each other (symmetrically within the framework of certain transformations in the space under consideration). These regularities are represented as a system of simple linear equations. The main feature of this system of equations is the fact that by measuring only a small number of parameters of combinatorial objects of the class in question, the remaining parameters are easily computed, i.e. are predicted. The physical meaning of unitary symmetry consists in considering combinatorial objects from the point of view of the hierarchy of interactions of elements forming a combinatorial object and compensating for weak interactions in two-link homology of substitutions. Within the framework of the Paradigm under consideration, a combinatorial system of chemical elements (as a replacement for Dmitry Mendeleyev's table) was created, which allowed discovering a lot of erroneous data in NIST. The applicability of the analysis of experimental data to their reliability for an overwhelming class of molecules is shown. New reliable values of experimental data for ionization energies and thermochemical parameters are predicted. A combinatorial system of the genetic code has been created, which allows us to consider mutagenesis and evolution at a simple mathematical level. The combinatorial system of genotypes and phenotypes has been created, which allows transferring Mendel's Laws from modern textbooks to textbooks on the history of genetics. Consideration of hormone mixtures in four media (arterial blood, venous blood, lymph and urine) within the framework of the paradigm under consideration made it possible to offer a model of digitizing each individual and predicting Pathology (Diseases) at the earliest stages of their development. At the same time, as a particularly important application, the solution of the problem of the relationship between the composition of hormones and the aggressive mood and behavior of the individual is considered.

Biography :

E-mail: kvsergeich@gmail.com