Dr Gariaev and his team of biophysicists, molecular biologists, embryologists and linguists discovered that DNA functions both on a particle level as well as wave level. His experiments demonstrate how our double helix molecules store electromagnetic and acoustic information imprinted onto intracellular water networks via electromagnetic fields or electromagnetic radiation and can be reprogrammed using frequencies as sounds or words to reprogram them back into action.
Quantum Non-Locality
Quantum non-locality refers to particles’ ability to exist simultaneously in two locations at once – something called “entanglement,” where particles “link” even though separated by great distances. Scientists also believe this non-locality may form the basis for consciousness; some scientists even propose that there may be a universal field of consciousness which drives its workings in our universe.
Bohm developed the theory of entanglement and non-locality, proposing that there are two orders of reality perfectly integrated together: explicate reality (matter/energy), limited by light speed, and implicate reality (the consciousness) within matter itself. According to this hypothesis, Bohm suggests that our universe exists as an intricate network with interconnected non-local parts which transmit information into material reality – which might explain reports of telepathic communications or remote mental interactions among some individuals.
Penrose and Hameroff propose that microtubules in the brain act as quantum entanglement, and consciousness is transmitted this way. Their theory rests on an assumption that each living cell contains its own quantum field that transmits information to other cells – something supported by experiments conducted by the CIA-sponsored remote viewing tests as well as research by Roger Nelson at Princeton University.
Studies of quantum events in nature and global human mental activity has led to speculation that quantum events synchronizing with each other correspond with global human mental activity – some physicists refer to this field as the “psi field.” Evidence for this hypothesis includes crystals tuned to identical frequencies exhibiting resonant twinning phenomena; similarly studies on random number generators (RNGs) exhibit anomalous behaviors that correspond with global human mental activity.
Holographic DNA
Dr Gariaev‘s discoveries hold immense potential to revolutionise our understanding of life by creating non-invasive healing techniques, organ regeneration therapies and significantly lengthening human lifespans. His experiments have proven that DNA holograms emitted by cells contain information about their current state. Furthermore, these holograms emit light and sound radiation which can be detected by other cells; additionally, this radiation transmits information regarding metabolic processes within an organism.
Dr Peter Gariaev bases his work on the theory that genetic information in electromagnetic waves in the form of holograms can be instantly transmitted over long distances, unlike classical genetics which focuses on nucleotides that make up DNA and determine gene expression, protein synthesis and other biochemical processes. This approach differs significantly from traditional genetics which emphasizes gene sequences as the key elements.
Dr. Peter Gariaev used laser spectroscopy in his experiments to measure electromagnetic radiation emitted by DNA molecules. Utilizing a quartz cuvette with DNA sample in it, he directed a laser beam towards it and recorded wavelengths of its reflected radiation; his results suggested that DNA’s holographic information could be transmitted between separate samples even over vast distances.
Dr. Gariaev used quantum physics to demonstrate that seemingly “useless” DNA found in double helix molecules actually contains abundant biochemical information – further disproving our previous beliefs of life’s complexity. Non-coding regions not only serve as “assistants” for primary DNA sequences but have their own unique language!
Dr Gariaev conducted experiments that demonstrated how DNA emits light and sound waves that communicate with other cells within an organism’s body, creating an organism-wide informational space called DNA wave bio-computer that processes metabolic information simultaneously throughout all its cells simultaneously – this process known as wave genetics has many practical uses, including being able to regenerate damaged organs such as pancreases.
Linguistic DNA
Gariaev‘s groundbreaking research laid the foundation for Linguistic DNA, an alternative form of genetic engineering involving altering our genomes with sound frequencies to reprogram genes to heal disease and increase longevity. His team discovered that DNA sequences resemble language structures; leading him to conclude that our genes communicate via biological language.
Language features of our genetic code include codon frequency and shape as well as spoken grammatical structure. This indicates that our genes contain an encoded language-driven protein translation mechanism governing translation using spoken language; further suggesting our genes can be reprogrammed using sound waves and audio programs allowing us to adjust physical, mental, and emotional states via sound.
Dr Gariaev found that DNA can function both particle-wise and wave-wise, and be programmed using frequencies such as words or sounds to enable greater communication between physical and spiritual parts of ourselves. This discovery enabled new levels of communication between our physical and spiritual selves.
He used a laser beam to record photons near DNA samples, and found that codon sequences in their molecules corresponded perfectly with those recorded – providing proof that DNA contains its own lexicon – as well as showing how programming DNA could follow similar logical rules as language itself.
Gariaev conducted another experiment by shining a laser light through a developing salamander embryo, and observed how its DNA had completely changed into that of an adult salamander. Reprogramming could occur across distances; suggesting our bodies act like holograms that can transmit information instantly across dimensions.
This research project seeks to understand how and why ideas change over time, focusing on the sixteenth and seventeenth centuries specifically, by analysing big data derived from historic texts. Computer algorithms will be employed to uncover patterns of semantic change while investigating their contexts; ultimately leading to an improved grasp on how knowledge is produced.
Transmitting Genetic Information
Gariaev demonstrated that genetics isn’t limited to studying the sequence of nucleotides within DNA and how these code for protein synthesis; rather it operates both on particle level as well as through wave phenomena. He demonstrated with his team of biophysicists, molecular biologists, embryologists and linguists that “junk DNA” does not simply represent evolutionary waste but instead contains rules which can be changed using frequencies similar to language to create electromagnetic fields similar to language itself.
Gariaev demonstrated how signals could transmit cellular information over long distances, similar to radio waves carrying signals across vast expanses. His experiments with laser technology showed him transmitting his own pancreatic genetic code directly into subjects with damaged pancreases via laser technology; this resulted in regeneration. He also discovered our DNA has grammatical similarities with language and could potentially be recoded via frequency, opening the door for genetic linguistics research.
His work with Luc Montagnier revealed that bacteria’s signature frequencies could be transferred into homeopathic dilutions of water to create exact replicas of their original DNA — providing proof of cellular memory. This monumental discovery could open the way to numerous applications like remote healing via frequency, regeneration of damaged organs, significant lifespan extension and quantum biocomputing.
Genetics has become an essential component of healthcare today, and genetic profiles have often been used to identify criminals or reunite children with their families. To protect confidentiality, any genetic profiles provided should only be shared with a physician who has assessed an individual’s needs, or in the case of Medicare beneficiaries it should only ever be shared with their physician’s office directly as any unwelcome requests could expose them to identity theft and fraud.