For all the listed items significantly more preferable is chromosomal DNA. Arguments in favor of this claim a lot more. Briefly list them. DNA is the only specialized, primary and home information figure of all cells, including neurons. Its properties are not limited to paragraphs 1-6. Their more, and they have a higher level of. Based on our research (see. list of publications), You can say, the main advantage of DNA information of neurons, like other cells, 1 is) rečepodobnost′ protein genes, 2) golografičnost′, 3) Quantum nonlocality, 4) higher validity be quantised bio computer. In addition, and it is the most important thing is DNA protein genes, RNA and proteins gene products, are real (not metaphorical) texts [Garyaev, 2009, Lingvistiko-wave gene. Theory and practice. Моногр. Kiev]. Therefore the genomes of all cells, including neurons, are actors reading texts and their generation. They are real quantum biokomp′ûterami [DNA Decipher Journal | January 2011 | Vol. 1 | Issue 1 | pp. 026-046
Gariaev, P. (P)., et. al. DNA as the Basis for Quantum Biocomputer]. Hence, it is logical to believe, the biochemical equivalent of thinking-consciousness of all cells, especially neurons, are quickly degradable protein and "fusion protein offers-phrases". In this respect, the classic work Hidena on the functions of RNA in neurons are another, a more accurate, the meaning of. Even if Hidena link neurons with memory and learning functions of RNA did not give any results, but the fact that a huge number of ribosomal RNA in the cytoplasm of neurons speaks volumes, and raises the question — why neurons such a powerful protein biosynthesis? After all, the presence of significant quantities of ribosomal RNA in neurons, it is clear that the large pools of protein biosynthesis. What they are in quantities? With our positions is a proxy for kvazirečevyh processes in neurons. They are using the DNA-RNA-protein "proposals-phrases" as the factor of reasonable genome and cellular functions of the continuum as a whole, and not only the neurons of the brain. Therefore, let us turn to the analysis of the situation regarding the functions of neurons, made By Koročkinym http://www.pereplet.ru/obrazovanie/stsoros/235.html
His article is to display the typical views on the work of neurons from the scientific official publication. Criticizing the work of Hidena, L. Korochkin wrote:
"When there was a more accurate technique, It turned out, the qualitative change of RNA in the neuron when learning does not occur, There may be a change of the quantitative ratio of different fractions of mRNA, already existed in the cage ... When training does not include new snail genes, but growing activity of serving areas of DNA, that can be seen not only in teaching, but in normal functional loads». It is not clear (not given clarification), How distinguished old and new genes, the more, that their functions are subject to change depending on their position (transposition) and context. And how to define static balance different factions of mRNA, If the process of their biosynthesis is fast and dynamic. So just the opposite, If you can capture the dynamics of the relationships of different fractions of mRNA, This is evidence of the other, and very important, factors. Perhaps, There is a certain analogy with the massive and rapid development of new genes and their proteins in the biosynthesis of immunoglobulins on Wu-Cabot (link). This process can also be used in search-and-thinking of neurons. In General, When teaching-thinking at the level of the brain's neurons are important not only for its unique dynamics and mobile versatile semantic system loading DNA-RNA-protein. Are also important and iconic dynamic topological State of the chromosome continuum LCD. Registries can be a manifestation of this polarization (and, probably, spinornyh) holograms, that can be stored as structural information about the 4-dimensional organization of Biosystems, and the text information of higher level compared with protein genes. Namely, the, that displays the acts of thinking-consciousness at the level of the real DNA-RNA-protein texts, generated by the neurons of the brain. And all of this can and should appear in physical fields, alienable neurons and the brain as a whole. It's, primarily, electric and magnetic activity, recorded in the form of electroencephalograms (EEG) and magntoèncefalogramm (MEG). In second place (and can, at the first) stand Photonic coherent radiation genome of neurons.
P.P. Garyaev, EA. Leonova-Garâeva.
