Methods
This study utilized Eugene Maslov’s theory of wave genes developed in 1985. The central concept behind this theory is that genetic information written and recorded as quasi-speech in living organisms’ chromosomes serves not only as physical material but also as semiotic-semantic wave memory of iconic wave processes in their chromosomes characterized by quantum nonlocality.
This experiment was undertaken to demonstrate the convolution of genetic information into iconic soliton fields of DNA, and establish its connection to universal grammar of languages. For this, iconic soliton fields of DNA were used as well as synthetic iconic wave teams of chromosomes as analogues of natural X-ray-damaging soliton fields found within biological cells as analogues for testing purposes.
Results
Although meta-genetics is an appealing theory, without research and practical applications it will remain just a theory. Thanks to Peter Gariaev’s groundbreaking work as the father of wave genetics, meta-genetics now has both support and documentation it needs for full blooming.
We have shown that potential DNA follows grammar and usage rules nearly identical to human languages, lending support for the idea that genes are iconic waves encoding for chromosomal information. Furthermore, memory storage of DNA can occur on solitons and photons providing evidence of genome quantum nonlocality. Our findings could have important ramifications for artificial DNA-wave computing applications that might help solve the puzzle of why certain diseases seem to strike some individuals while others appear immune.
Conclusions
With reference to wave theory of genes and our knowledge of DNA-chemistry, one may surmise that genetic apparatus exhibits characteristics indicative of quantum nonlocality. We believe that by creating an artificial genetic apparatus composed of solitons and localised photons incorporating elements of DNA-memory based on EPR effect, it will be possible to build an artificial DNA-wave computer capable of managing processes like embryogenesis, metabolism and thinking of Biosystems while at the same time running language programs on it. We also hope this will contribute to solving the telepathy issue, which is essential for maintaining human consciousness and the future of mankind. — M.U. Malov of Moscow Institute of Mathematics and Physics in 1985
