Dr Gariaev and his team discovered that in vitro DNA can imprint an image of its surrounding environment onto itself. Additionally, they demonstrated how DNA codon sequences could be changed simply by modulating coherent laser light with semantic meaning (semantics).
This amazing discovery was achieved through collaboration among a team of scientists comprising Biophysicists, Molecular Biologists, and Embryologists.
What is DNA?
DNA is the hereditary material that gives your cells the instructions needed to do their jobs properly. Each cell’s DNA consists of two spiraling double helix strands that hold information on how to create proteins – these essential chemicals perform most of our bodily processes. DNA can be found in the nuclei of all body cells except red blood cells and platelets, which don’t have nuclei. Your parents provide dominant traits while non-dominant traits are passed down from grandparents.
DNA is made up of two long strands that enfold each other like corkscrews; held together at their core by phosphate and deoxyribose sugar molecules. Each strand possesses an arrangement of nitrogenous bases–Adenine, Cytochrome Cytosine Guanine Thymine or AGCTG) read from left to right to code for specific amino acids linked together through chemical bonds into proteins.
Human cells contain about three billion base pairs, or 3 Bb, of nuclear DNA; laid end-to-end it would measure nearly 6 feet long! As this vast amount of data must be tightly packed into very limited volumes, chromosomes serve to organize it into manageable chunks.
Chargaff discovered from his paper chromatography experiments that nearly all DNA, no matter where it came from or organism it belonged in, has an almost universally similar composition. As a result, Watson and he could use an easy model-building approach (assembling possible three-dimensional structures based on known molecular distances and bond angles) to figure out its structure, particularly its double helical shape.
One of the remarkable aspects of DNA is its remarkable capacity for being reprogrammed into proteins; this process, known as DNA reprogramming, forms one key aspect of cell-free artificial life creation.
What is the purpose of DNA?
Western science following Crick and Watson took an extremely materialist view of DNA. Only its physical coding sequences (triodts) were considered meaningful; for example, triplet UUU was thought to code for only one amino acid: phenylalanine; in actuality however it encodes two amino acids (leucine and tyrosine).
Dr Gariaev and his team took a broad-based approach in their research. By employing biophysical techniques such as coherent laser light, magnetic fields and vibrational frequencies they discovered that codons in DNA strings could actually change order, meaning that what was thought to be junk DNA that modern scientific studies had disregarded could actually be reprogramed! This discovery shows just how revolutionary modern scientific studies can be!
To demonstrate their point, they shone a low power laser beam through an embryo of a salamander and directed it toward an identical laser beam being shone into an embryo of a frog – this reprogrammed its DNA so that instead it became capable of building salamanders instead! They also discovered that modulating laser light or radio waves using spoken language could reprogram in-vivo DNA in living organisms.
How can we reprogram it?
Dr Gariaev‘s group discovered that DNA codon sequences are not static but can be altered. By modulating laser light or radio waves with the grammar and semantics of DNA language, they were able to reprogram living organism genomes. This discovery often appears in discussions about merging molecular biology with consciousness or vibrational energy for spiritual outcomes such as healing or connection; furthermore it marked an important step forward towards integrating linguistics into quantum paradigm.
