Журавлев Ю. Н., Гузев М. А., Гудименко А. И.
В журнале Сибирские электронные математические известия
Год: 2019 Том: 16 Страницы: 340-368
The multidisciplinary analysis of the structure of a biological object reveals that the set of parameters for its description in the context of the genetic code only is not complete. On the other hand, conversion -a key event in the protein synthesis - has no analogues in classical physics and mathematics. Conversion is being discovered in a detailed analysis of transcription-translation transition in terms of fiber bundles theory. It represents a heterotopic transition that hides the analytical connection of the objects of this morphism. The introduction of a parameter of movement is fruitful when modeling the developing systems thus nesting the system into n + 1-dimensional space. These aspects promote the revising the concept of organizing center in protein synthesis and ribosome work.
The multidisciplinary analysis of the structure of a biological object reveals that the set of parameters for its description in the context of the genetic code only is not complete. On the other hand, conversion -a key event in the protein synthesis - has no analogues in classical physics and mathematics. Conversion is being discovered in a detailed analysis of transcription-translation transition in terms of fiber bundles theory. It represents a heterotopic transition that hides the analytical connection of the objects of this morphism. The introduction of a parameter of movement is fruitful when modeling the developing systems thus nesting the system into n + 1-dimensional space. These aspects promote the revising the concept of organizing center in protein synthesis and ribosome work.