Over time, DNA video tapes containing instructions for maintaining life become corrupted through mutations that lead to illness, ageing and eventually death in our bodies; this phenomenon is known as the DNA Phantom Effect.
Peter Gariaev, an Embriologist and Member of the Russian Academy of Sciences, created Wave Genetics as a new science. He led an interdisciplinary team composed of Biophysicists, Molecular Biologists, and Linguists in this endeavor.
DNA phantom effect
The DNA Phantom Effect is caused by quantum mechanical resonant vibrational modes in DNA molecules that can be measured using standard laboratory equipment and appear related to an energy form not recognized by science, yet can have profound ramifications on our lives and contribute towards physical reality. It lends credence to ancient traditions which suggest cells/DNA as having powerful relationships between physical reality and our lives.
Gariaev and Poponin used the laser photon correlation spectrometer in their laboratory to create the DNA Phantom effect. This machine serves as a sensitive detector of acoustic waves and detects vibrational modes of DNA molecules, with these modes having close relationships to electromagnetic fields generated by DNA atoms themselves and connected nonlocally and coherently with laser radiation transmitted through it, providing evidence for quantum nonlocality and an entirely novel field structure.
The DNA Phantom Effect can transmit both information and energy between different locations. To test this theory, an experiment was performed using a computer programmed to translate DNA phantoms into identifiable pixel patterns that were then compared against high-resolution digital photon images of DNA molecules; these comparisons revealed that these pixel patterns corresponded directly with its resonant vibrational modes.
The results of this experiment indicate that DNA phantoms can be imprinted with EI-level information even after their material DNA sample has been removed from their environment. This finding proves the transferability of genetic information among biological systems; even though separated by thousands of kilometers. Ultimately, such experiments could provide the basis for genetic manipulation of living cells and organisms.
Regeneration of pancreas in rats
Wave genetics technology was utilized in one of the most impressive experiments ever performed: regeneration of pancreas tissue in rats using wave genetics technology. Dr. Leonova-Gariaeva and her team successfully transferred genetic information from healthy rats with undamaged pancreases into those suffering from damaged ones resulting in its regeneration and the subsequent restoration. This groundbreaking discovery could revolutionize genetic engineering.
Scientists used a laser to transmit genetic information from healthy pancreas cells directly into those of damaged pancreas patients using laser technology. The results were impressive and showed that transmission could cover distances up to 20 kilometers; those who received this information experienced marked improvements in blood sugar levels while reconstructing missing pancreatic tissue.
Wave Genetics holds that DNA operates not just biochemically but also electromagnetically through electromagnetic wave phenomena, meaning we can transfer genetic information instantaneously over long distances – this revolutionary concept upends traditional notions of gene regulation and cell encoding of data.
Wave Genetics’ work has come under attack from large agribusiness firms who have invested millions of dollars into today’s comparatively “old hat” recombinant genetic modification technologies, while their new competitor may use powerful weapons against them – therefore these corporations have dedicated massive resources towards discrediting Wave Genetics’ efforts.
Gariaev‘s research illustrates that our genome is an intricate living, dynamic system that works like a video tape containing instructions necessary for our bodies’ health and longevity, but with time, that tape becomes corrupted with DNA mutations and errors accumulate causing illness and eventual demise in our bodies.
Classical genetics is concerned with how nucleotides in DNA are translated and translated to form proteins for production, yet this approach falls short because our DNA is an intricate web of many parts whose interactions produce protein synthesis. Gariaev‘s experiments work on this principle: DNA can be read at its material level and changed into complex dynamic structures with diverse properties – such as holograms or fractals – with dynamic features like these being read out of it and transformed into dynamic forms with dynamic features like these to further study genetics research.
Healing of diabetes in rats
Gariaev wave genetics has one of the most remarkable aspects of any scientific discipline: its capacity to reverse diabetes in rats. Using laser devices, this method transmits healing energy directly into cells, speeding up wound healing processes. This discovery also opens the way to new regenerative medicine techniques that could potentially treat chronic illnesses.
Researchers administered a lethal dose of alloxan to one group of rats and observed their rapid descent into type 1 diabetes (high blood sugar concentration levels). Another group received identical injections but were exposed to healing wave information during this time – these rats managed to recover from poison exposure by producing insulin even though many pancreatic cells had been destroyed during treatment; astounding results of experiment from scientists that allowed reconstruction of missing pancreatic cells!
This method is founded on the belief that our DNA acts like a four-dimensional hologram containing all of our bodies’ blueprints, known as wave genetics. Experiments conducted have demonstrated its validity; additionally, researchers discovered that gene encoded within DNA may be affected by electromagnetic and scalar waves, creating networks connecting all living things.
Researchers claim that wave information can alter cellular activity and organ functions, helping the body fight infections and reduce inflammation while correcting metabolic problems to enhance overall health. Access to this data is provided via computer programs which analyze patient cellular activity to see if their genes are operating effectively.
Wave genetics offers other interesting properties as well, including its linguistic ones. Researchers have observed that DNA follows similar rules as spoken language grammatically and it can even be accessed over long distances suggesting quantum properties – this research has opened up endless opportunities for regenerative medicine, such as being able to clone damaged cells back together again or repair any damages they cause.
Regeneration of a living leaf
Researchers had until recently been limited to synthesizing synthetic DNA; however, recent research has demonstrated that natural DNA can also regenerate itself from living leaves. Researchers used their new technology to conduct three separate experiments and verify this theory: one in 2000 in Moscow Russia; two 2001 experiments performed in Toronto Canada; and finally three 2005 experiments at Nizhni Novgorod Russia – with promising results each time. They hope to apply this technology towards regeneration of other organs as well.
The initial experiment involved cutting a piece of living leaf and placing it within an electromagnetic field at high frequency. This produced a visual image lasting for 10-15 seconds that could be recorded onto film. Subsequent laboratories worldwide replicated this groundbreaking breakthrough, considered one of the greatest breakthroughs ever in life science history.
One of the key discoveries made by this team was that DNA can act like a hologram. They observed amazing patterns forming from it that demonstrated this concept further. Furthermore, other experiments also confirmed its holographic qualities.
Gariaev‘s experiments are founded on the theory that our genetic information is transmitted as wave signals. This concept, known as Wave genetics, differs significantly from traditional genetics in several ways: For instance, standard genome structures consist of only 2% coding DNA; by comparison, gene-holograms in liquid crystals of chromosome continuum create sophisticated dynamic holograms (gene-holograms). Furthermore, their quantum nonlocality level reaches six.