Professor Gariaev is an international scientist who brought together a multidisciplinary team of biophysicists, molecular biologists, embryologists, linguists and linguistic experts to investigate DNA. They discovered that what mainstream science considers “junk DNA” actually has a highly intricate linguistic structure.
The team also discovered that DNA information can be transmitted over long distances via laser waves, creating what they refer to as wave genetics.
Wave Genetics
Prof Piotr Gariaev, a molecular geneticist from Russia and Canada, made a breakthrough discovery in the early 90s called Wave Genetics when he observed that organism’s genetic code not only included its nucleotides but was also expressed through harmonic frequencies. This revolutionary idea allowed instant transmission of information even across oceanic distances; furthermore this concept gave birth to nonlocality research as well as Holographic Geometry studies.
Gariaev‘s work has demonstrated that DNA is more than just an inflexible molecular structure; rather it exhibits plasticity which responds to external influences, due to morphogenetic fields mediating information transfer between DNA encoding regions. These fields act like energy landscapes in that they can alter an object’s size and shape – helping us better understand why genomic influences on health and wellbeing.
At Wave Genetics we know the value of understanding wave genetics is immense. With an increased knowledge of DNA’s workings comes new technologies for healing and prolonging life – although such innovations require careful consideration of ethical considerations as well as implications of manipulating genetic wave patterns.
Prof dr peter gariaev‘s research indicates that genetically modified organisms (GMOs) may not always be safe to create due to technology’s ignorance of DNA’s complex wave and linguistic properties – potentially leading to unintended side effects, including mutations.
As such, we must understand how to better modulate electromagnetic waves that comprise our genome in order to prevent side effects and achieve desired results. This requires taking an holistic approach to genetic engineering and having a firm grasp on both fundamental physics and biology principles for controlling these electromagnetic waves.
Human Speech
Many people use their voices to convey thoughts and emotions, yet no one seems sure where human speech originated? One theory suggests that its development began after our hands became too busy performing other tasks to use manual gesturing effectively for communication purposes, leading to our ancestors using sounds instead.
Producing sound from words is a complex task; brain activity must coordinate various articulatory organs to produce speech sounds. Speech contains both loud and quiet parts; its acoustic characteristics more closely resemble music than single message signals. Furthermore, explaining human speech speed is also difficult as its neural processing is incremental rather than linear.
Human speech is unique in that we possess the ability to copy new sounds. This process facilitates non-genetic transfer of information, possibly contributing to another unique adaptation – cultural traditions and cultures.
Prof dr Peter Gariaev assembled an interdisciplinary team for his DNA research, comprising biophysicists, molecular biologists, embryologists and even linguistic experts to work alongside him on his breakthrough discovery: junk DNA which had long been dismissed as unnecessary leftovers of evolution actually contains grammatical syntax that can be reprogrammed using frequency as sound or words; this breakthrough could enable every baby to receive their personalized sound matrix shortly after birth, helping prevent illness and disease while improving health overall throughout their lives.
Plants
Dr Gariaev‘s experiments have demonstrated how information from healthy organs can be used to direct damaged or diseased ones toward self-healing, making his Matrix Medicine research all the more groundbreaking. Working alongside Biophysicists, Molecular Biologists, Embryologists, Linguistic experts and even Linguists he discovered that so-called junk DNA, which western mainstream science completely ignores, contains vital context information that provides context for what the coding DNA encodes for.
This journal welcomes original research articles, mini reviews, communications and short notes as well as suggestions for special issues and topics in structural, functional and applied botany.
Biological Quantum Computers
Dr Peter Gariaev of Russia was an outstanding scholar who studied DNA extensively. He concluded that what western mainstream science considers unusable junk actually acts like an electromagnetic and acoustic biocomputer, with frequencies used as programming instructions – opening up a whole new field of quantum computing.
Gariaev conducted experiments which demonstrated that when DNA was exposed to red light it produced replica structures identical to both its original form or those produced by five red lamps used to irradiate it. He found the same kind of replica structures when exposed to blue or green light and this suggests that DNA replication involves quantum mechanical vibrations of its atoms.
Gariaev‘s research is grounded in wave genetics and quantum biocomputing theory, wherein the genome acts as a quantum biocomputer that records information about living organisms and their environments in its entirety, with energy from any environment being transformed into its own form and stored for future manipulation and creation of new environments.
Quantum nonlocality of the genome is also an integral aspect of this theory, and can be understood through EPR theory; EPR states that DNA photon polarizations correlate to radio wave polarizations allowing genetic information to travel over long distances without loss.
Utilizing the quantum holographic principle, scientists are able to build a programmable DNA machine capable of controlling living cell behaviour. This enables them to study how different environments impact humans – for instance diet and exercise affect metabolism across cell types.
This system could be used to treat a range of illnesses, from AIDS and cancer to cardiovascular issues and infertility. The hope is that this technology may eventually replace chemotherapy and other traditional treatments, and to extend lifespan by reprogramming DNA.