DNA is located inside the nucleus of almost every cell in the human body. DNA gives special instructions for building proteins of every tissue and organ. During life, some cells have the ability to copy and thus replace old non-functional cells with new ones. Replication requires the synthesis of new DNA, so that daughter cells also receive through DNA the blueprints needed for their proper functionality. The DNA of the human body contains information from about 30,000 different genes. The cellular mechanism used for DNA synthesis is occasionally subject to errors that are completely invisible during cell replication. Some of these errors can lead to complete tissue dysfunction and disease. It is imperative to keep the DNA protective and in good working order.
Drastic DNA damage can lead to cancer.
Damage to the body’s DNA can reach several million during the day, and their cause can be external or exogenous or internal endogenous. Changes in the cellular genome can generate errors when reading DNA—errors in reading lead to incorrect protein construction. The human body has a natural system of repairing genetic defects. Still, if the action of internal or external factors on genes is too aggressive, these repair systems cannot send and achieve the correction of a large number of errors.
A chemical mutagen can attack DNA. Physical sources can primarily be of radioactive origin, including UV radiation. One of the sources can also be depleted uranium that collects in and deposits in the bones, radiation from electrical devices such as mobile phones, and others.
Genetic mutations of that fear can also be caused by the presence of a virus, such as the HPV virus. They can also be caused by certain hormones such as estrogen, testosterone, insulin, and others.
Vitamin B6 is converted in the body into an essential coenzyme called pyridoxine phosphate. This coenzyme is involved in the synthesis of nucleic acids. The DNA-storing information is encoded by the specific nucleic acids guanine, adenine, cytosine, and thymine.
Folate, also known as folic acid or folacin, is converted in the organs to tetrahydrofuran or THF and vitamin b12. Vitamin b12 and THF are essential in synthesizing nucleotide bases involved in storing information in DNA.
Vitamins C and E protect DNA and are used as antioxidants. We have a wide range of antioxidants, but these two vitamins should be mentioned. Biochemical reactions that occur in cells during normal metabolism produce many substances known as free radicals. Antioxidants such as vitamin c can neutralize free radicals by preventing DNA and tissue damage.
Phosphorus and zinc are used in DNA synthesis. Phosphorus is essential for the production of the phosphorus backbone, the DNA helix, while zinc is used in the production of enzymes that initiate
DNA replication.
Cannabis and cannabis oil or hemp oil Cannabis sativa is an important factor in DNA repair. Hemp has a perfect 3: 1 ratio of omega 3 and omega 6 omega fatty acids that the human body needs. One omega 3 job is mobile DNA repair. Hemp has 65% protein, of which 35% is globulin edestin. It is the protein closest to human globulin and is very well absorbed by the body.
Globulin is a major factor in DNA repair because cells use this protein to repair DNA damage.
Also, excellent antioxidants that selectively act on certain harmful free radicals that cause DNA damage are C 60 shungite and molecular hydrogen.
