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Development of wave genetics

ЛИТЕРАТУРА

1. Garyaev P., 1994, Wave Gene. M. Изд. The common good. 279s.
2. Garyaev P., Gorelik V.s., Kazulin E.a., Shcheglov V.a., 1994, Dvuhfotonno indemnification luminescence in solid phase DNA. Quantum Electronics., N6, s. 603-604.
3. Gariaev P.P., 1994, DNA as source of new kind of God “knowledge”, Act and Facts/Impact series, N12, pp,7-11.
4. Maslov M.U., Gariaev P.P., 1994, Fractal Presentation of Natural Language Texts and Genetic Code. 2nd International Conference on Quantitative Linguistics “QUALICO-94”. September 20-24. (1994). Moscow, Lomonosov Moscow State University, Philological Faculty, pp. 193-194.
5. Gariaev P.P., Vasiliev A.A., Berezin A.A., 1994, Holographic associative memory and information transmission by solitary waves in biological systems. SPIE – The International Society for Optical Engineering. CIS Selected Papers. Coherent Measuring and Data Processing Methods and Devices v. 1978, pp. 249-259.
6. Garyaev P., Vnuchkova V.a., Šelepina G.a., Commissioners., 1994, Verbal-semantic modulation resonances of the Fermi-Pasta-Ulam as a methodology of command and the figurative system of genome. Journal of Russian physical idea. N1-4, c. 17-28.
7. Garyaev P., 1994, The crisis of genetics and genetics., The Russian thought., N1-6, s. 46-49. M., Изд. “The common good”.
8. A. Trubnikov, Garyaev P., 1995, Similar whether “speech” DNA molecules on computer programs? Nature, N1, with. 21 – 32.
9. Berezin A.a., Garyaev P., 1995, Modeling the radiation èlektroakustičeskogo of DNA as the carrier of bioinformation., 2nd International Symposium "Mechanisms of action of ultra-low doses of radiation", May 23-26, 1995., Moscow. , c. 122. (Abstracts)
10. Garyaev P., Leonova E., 1996, Genetic apparatus as wave management system., International scientific-practical Conference "system analysis on the threshold of the twenty-first century: theory and practice "., s. 69-78.
11. Gotovskiy Yu.v., Commissioners., Garyaev P., 1996, A new method of diagnosis for the seven major points of acupuncture (glaive) and equipment for sale. II International Conference "theoretical and clinical aspects of bioresonance and mul′tirezonansnoj therapy". The Center For Intelligent Medical Systems "IMEDIS". Moscow, 1996. s. 164-169.
12. Shcheglov V.a., Garyaev P., 1996, Laser-laser interaction and Ghost effects in genetic structures. Materials of scientific conference with international participation "the science on the threshold of the twenty-first century – the new paradigm ".
13. Garyaev P., 1996, Semiotic habitats wave genes. Materials of scientific conference with international participation "the science on the threshold of the twenty-first century – the new paradigm ".
it's 14. Blagodatskih V.i., Garyaev P., Leonova E., Maslov M.yu., Shaytan K.v., Shcheglov V.a., 1996, On the dynamics of dislocations in a molecule of DNA. Brief reports in physics. Physics Institute Of RAS, N3-4, 9-14.
15. Garyaev P., Maslov M.yu., Reshetnyak S.a., Shcheglov V.a., 1996, The interaction of electromagnetic radiation with biomacromolecules. “Antenna” model. Brief reports in physics. Physics Institute Of RAS, N1-2, c. 54-59.
16. Garyaev P., Maslov M.yu., Reshetnyak S.a., Shcheglov V.a., 1996, Model of the interaction of electromagnetic radiation with biomacromolecules., Brief reports in physics. Physics Institute Of RAS, N1-2, c. 60-63.
17. Garyaev P., Leonova E., 1996, Пересмотр модели генетического кода. Consciousness and physical reality., Изд. “FOLIUM”, т.1, N1-2, с.73-84.
18. S.A.Reshetnyak, V.A.Shcheglov, V.I.Blagodatskikh, P.P.Gariaev, and m. u. Maslov, 1996, Mechanism of interaction of electromagnetic radiation with a biosystem, Laser Physics, v.6, N2, p. 621-653.
19. Berezin A.A., Gariaev P.P., Gorelik V.S., Reshetniak S.A., Shcheglov V.A., 1996, Is it possible to create laser based on information biomacromolecules? Laser Physics, v.6, N6, pp.1211-1213. (and preprint p. n. Lebedev Physical Institute RAS, No. 49, 12p.)
20. A. M. Agal′cov, P.P. Garyaev, IN THE.. Gorelik, AND A. Rakhmatullaev, V.A.. Shcheglov, 1996, Двухфотонно-возбуждаемая люминесценция в генетических структурах. Квантовая электроника, v.23, N2, с.181-184.
21. P.P. Garyaev, 1996, Эпигенетическая роль внеклеточных матриксов. Гипотеза кодовой иерархии. Inter-Republic extramural scientific-technical seminar "use of lasers in science and technology", Vol. 8. Irkutsk. Изд. Irkutsk Branch Of The Institute Of Laser Physics Of The SB RAS, with 85-107..
22. P.P. Garyaev, 1996, Information and wave properties of living systems. Holographic aspect. Inter-Republic extramural scientific-technical seminar "use of lasers in science and technology", Vol. 8. Irkutsk. Изд. Irkutsk Branch Of The Institute Of Laser Physics Of The SB RAS, s. 137-159.
23. P.P. Garyaev, 1996, On the nature of reflexology. Modern concepts of primary mechanisms of acupuncture and acupressure. Inter-Republic extramural scientific-technical seminar "use of lasers in science and technology", Vol. 8. Irkutsk. Изд. Irkutsk Branch Of The Institute Of Laser Physics Of The SB RAS, with 188-206..
24. Garyaev P., Leonova E., 1996, The new model of the genetic code. Collection of scientific papers. Academy of medico-technical sciences of the Russian Federation. Bank branch «biotechnical systems and education "in fryazino. AD. Bauman. Issue 1. s. 25-34.
25. Garyaev P., Dmitri Tertyshny., Gotovskiy Yu.v., 1997, The transformation of light into radio waves. III международная конференция «Теоретические и клинические аспекты применения адаптивной резонансной и мультирезонансной терапии». «ИМЕДИС». Moscow. April 18-20, 1997. с.303-313.
26. Garyaev P., Macedonian S.n., Leonova E., 1997, The human genetic molecules as reality. Information technology, No. 5, c. 42-46.
27. Garyaev P.,1997, Wave genetic code. Monograph. Изд. "The State entreprise». 108 pages.
28. Garber M.r., Garyaev P., Lebedev L.l., Dmitri Tertyshny., 0January 5, 1999 g. International application for invention №a PCT/RU99/00007 method analysis of physical objects and device for its implementation. I started ingestion of 20 ml of ZhKIM. It was at . Garyaev P., Dmitri Tertyshny., Loŝilov V.i., Shcheglov V.a., Gotovskiy Yu.v., 1997, The phenomenon of moving light in the radio waves in the biosistemam. Moscow. Collection of scientific works of mstu. AD. Bauman. "Actual problems of creation of biotechnological systems". Academy Of Medico-Technical Sciences Of The Russian Federation. Issue 2. S. 31-42.
30. P.P. Garyaev, M. R. Garber, EA. Leonov., 1998, Virtual genome prions. Fridmanovskie reading. The all-Russian Scientific Conference. Perm, 7-12 September 1998. P. 140-142.
31. P.P. Garyaev, M. R. Garber, EA. Leonova, G.g. Dmitri Tertyshny, 1999, The central dogma of molecular biology. Consciousness and physical reality, Изд. “FOLIUM” t. 4, # 1, s. 34-46.
32. Garyaev P., Dmitri Tertyshny., Gotovskiy Yu.v., Leonova E., 1999, Holographic and quantum nonlocality genome. 5th International Conference “Theoretical and clinical aspects of the application of bioresonance and multirezonansnoj therapy”. Часть II. “IMEDIS”, Moscow. С.256-272.
33. Gariaev P.P., Tertishny G.G., Kampf U., Muchamedjarov F., Leonova E.A., 1999, Fractal structure in DNA code and human language: Towards a semiotics of biogenic unformation. 7th International congress of the international association for semiotic studies (IASS/AIS). TU Dresden, October 3-6, 1999. p. 161.
34. Gariaev P., Tertishniy G. The quantum nonlocality of genomes as a main factor of the morphogenesis of biosystems. // 3th Scientific and medical network continental members meeting. Potsdam, Germany, may 6-9, 1999. p. 37-39.
35. I.v. Prangishvili, P.P. Garyaev, G.g. Dmitri Tertyshny, E. Leonova, A.v. Mologin, M.r. Garber, 2000, The genetic structure of both the source and destination of the holographic information. Sensors and systems, # 2, c. 3-8.
36. I.v. Prangishvili, P.P. Garyaev, G.g. Dmitri Tertyshny, Vladimir Maksimenko, A.v. Mologin, E. Leonova, E.r. Ernest, 2000, Spectroscopy of localized radiation photon-wave: access to non-local quantum bio-informational processes. Sensors and systems, # 9(18), c. 2-13.
37. Peter P. Gariaev, Boris I. Birshtein, Alexander M. Iarochenko, Peter J. Marcer, George G. Tertishny, Katherine A. Leonova, Uwe Kaempf ., 2001, The DNA-wave biocomputer. “CASYS” – International Journal of Computing Anticipatory Systems (ed. D.M.Dubois), Liege, Belgium, v.10, pp.290-310.
38. Peter P. Gariaev, George G. Tertishny, Katherine A. Leonova., 2002, The Wave, Probabilistic and Linguistic Representations of Cancer and HIV. Journal of Non-Locality and Remote Mental Interactions Vol. I, №.2
39. P.P.Gariaev, G.G.Tertishny, A.M. Iarochenko, V.V.Maximenko, E.A.Leonova, 2002, The spectroscopy of biophotons in non-local genetic regulation. Journal of Non-Locality and Remote Mental Interactions Vol.I Nr. 3
40.http://www.geocities.com/nwbotanicals1/oak/newphysics/metaphysics/bioholography_a.htm
41. Jiang Kandzhjen, Biojelektromagnitnoe field-biogeneticheskoj material carrier  information. // Aura-Z. 1993, No. 3, p. 42-54. Patent No. 1828665. How to change the hereditary traits of a biological object and directed the transfer of biological information. Application № 3434801. priority of an invention, 30.12.1981., recorded October 1992,.
^ PICTURES AND CAPTIONS
Fig. 1 of the [1,37].


An example of one type of wave memory DNA is light scattering experiment with identifying the phantom memory DNA in vitro. Used light scattering spectrometer "Malvern".

1st top schedule - no DNA control light scattering in the form of the temporal autocorrelation function, as well as the subsequent graphics. 2nd schedule - regular oscillation of DNA molecules. 3rd graph - DNA preparation is removed from the spectrometer, However, photons continue to dissipate to reveal DNA sledovom, remaining in the empty Office kjuvetnom spectrometer. 4th schedule - registration phantom 7 minutes. We interpret data experiments as a manifestation of the type previously unknown genetic memory.

Fig. 6.



Fig. 2 of [1]. Long wave interaction between DNA and DNA donor-acceptor, implemented using a special instrument complex. To register the effects of interaction used light scattering spectrometer "Malvern". 1st top graph - the reference light scattering DNA preparation from calf thymus in the form of the temporal autocorrelation function (time of registration 11:00 52 min.), as well as the subsequent graphics. Control displays the native DNA gel fluctuations as usually observed sinusoids. Note only, such sine wave may have specific modulation with repetitions within the phenomenon of Fermi-Pasta-Ulam. However, general nature of fluctuations in gels DNA always sinusoidal. At 13 hours 04 minutes. began the session far DNA donornogo effects on DNA-Acceptor, that dramatically changed the nature of the flare (2nd graph). At 13 hours 04 minutes. the impact of continued, that is also reflected in the anomalous behavior of the drug a DNA Acceptor (Third schedule). There are abnormal trapezoidal avtokorreljacionnye functions, display the collective behavior of DNA molekud sveruporjadochennoe. Between spectrometer, sounding preparation DNA Acceptor, and instrument exposure to DNA-donor about 50 km.





Fig. 3 from [20], then there are illustrations of the article Am Agaltsov, P.P.Gariaev,

V. S. Gorelik, I. A. Rahmatullaev, V.A.Shcheglov, 1996,

Two photon excited luminescense in genetic structures.

Quantum electronics, v.23, N2, p. 181-184. (in English/Russian).

The first top figure-diagram experiment.

IN
Torah-the specter of two Photonic raised luminescence

dimedrol, used as intermediate

for the transfer of energy of photons on DNA and nukleogiston. The rest of the

correspond to the labels under the original drawings.





Fig. 4. No published data.
An experiment on the transport and introduction of distant partially distorted genetic information from DNA preparation, selected from one line of the plant Arabidopsis thaliana, the other seeds sprouting, nearest, lines of Arabidopsis thaliana. Red small bars-control. The top picture is the impact of photons and radio waves simultaneously. The distance between the laser (wavelength 632,8 nm, 2MW) and irradiated seeds 10 cm. Lower figure - the impact of radio waves only at a distance of about 6 km. Impact of statistically causes quasi mutagenesis at close and far distance (letalnnye embryonic mutations by Müller). This is the first generation of plant-level, pods and sprouts. In the second generation mutations are not inherited. That is why we call this phenomenon a quasi mutagenesis. It is not caused by damage of chromosomal DNA, because the energy of Red photons of laser and radio waves is insufficient for this. Such quasi mutagenesis is an illustration of a soft reversible wave genetic occurrence in plant genome. This wave genetic information knowingly misrepresented, as a source of information – preparation of DNA in vitro, who has many of the properties of native plants in vivo chromosome. For this reason is called quasi mutagenesis. Here's another significantly, namely, the proof of concept makrodistantnogo transfer opportunities, Let a distorted, but all the same genetic information using radio waves and photons, drug promodulirovannyh DNA.



Impact on patients of rats only radio waves, containing medical information.

The distance from the scanning laser beam treatment of the matrix to 15 rats patients km.
Fig. 5. Long wave Genome Management pancreas in rats. No published data. The results obtained in Canada (Toronto) in 2002. 3


Garyaev Peter Petrovich, doctor of biological sciences, academician of the Russian Academy of medico-technical sciences, Member of New York Academy of Sciences.

Canada, Toronto, 2002g.

1 http://www.psrast.org/defknthe.htm
2 These and other key experiments are outlined below in the Appendix as a chronicle of the main results, obtained by our group for the period 1984-2002 years,.
3 In the experiments with the model of alloxan diabetes was G.G.Tertyshny

P.P. Garyaev, doctor of biological sciences, academician of the Russian Academy of medico-technical sciences,

E. Leonova, candidate of biological sciences.