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Glutathione Promotes DNA and RNA Synthesis

Millions of cells in the human body are responsible for the healthy function of all bodily systems, including the brain, heart, lungs, blood, soft tissues, internal organs, muscles and bones. Healthy cellular activity maintains health and helps prevent serious diseases such as cancer, neurological disorders and immune system problems. Glutathione is essential in maintaining cellular activity and synthesis of essential proteins, nutrients, amino acids and vitamins. When cells break down or become damaged by disease or exposure to toxic substances, serious illnesses such as type 2 diabetes, anxiety, depression, cancer and neurological conditions can occur. Compromised cellular health can also cause disorders associated with the normal aging process. Many of these conditions can be prevented by increasing glutathione production.

Glutathione, described as the body's natural antioxidant is composed of the amino acids cysteine, glutamate and glycene. Healthy glutathione production regulates cellular growth and division by reducing oxides within cells. An accumulation of oxides can damage otherwise healthy cells and prevent normal cell division. Cellular damage can affect the production of DNA and RNA, increasing risks of cancer, cardiovascular disease and neurological disorders.

Deoxyribonucleic acid, known as DNA is an essential molecule in the body that helps encode genetic instructions between cells. DNA is important in the development and function of all living cells. As a nucleic acid, along with essential proteins and carbohydrates, DNA is essential for all forms of life. The molecule is organized into long strands found in cells. DNA can be damaged by certain agents, diseases or viruses that attack cellular structure. Oxidizing agents, such as hydrogen peroxide and radiation can permanently damage DNA production. Severe DNA damage can lead to cancer and other serious medical conditions. All functions of DNA rely upon cellular interactions with proteins and enzymes. Although DNA is often associated with forensic science, it is vital to cellular function.

Ribonucleic acid, known as RNA is a molecule that is responsible for the regulation and division of genes in the human body. DNA and RNA are both nucleic acids that work in combination with proteins and carbohydrates in maintaining healthy cellular activity. RNA is regarded as a messenger, delivering genetic information to allow the synthesis of proteins in cells. Put simply, DNA stores information for protein synthesis, while RNA transports information encoded in DNA molecules. The interaction between DNA and RNA help maintain cellular health and protect the body from preventable diseases.

Synthesis is described as the reproduction and creation of new cell copies. Healthy glutathione levels can protect DNA from stress caused by oxidation during cell division and can help repair damaged DNA and RNA molecules by replacing missing electrons.

Protein synthesis is a vital function in maintaining healthy DNA molecules. Sulfur contained in glutathione prevents proteins from being destroyed by the digestive process. Glutathione, which is found in every bodily cell, moves amino acids and other nutrients in an out of cells, maintaining healthy cellular activity and promoting cellular growth.

Both DNA and RNA are composed of nitrates and elements including guanine, adenine, uracil and cystosine. Diminished production of these elements can cause irreparable damage to both DNA and RNA production, leading to serious health problems. RNA is important in the process of protein absorption or synthesis within a cell. DNA and RNA help deliver essential amino acids to cells, essentially forming proteins necessary for cellular health and activity. Enzymes are essential to maintain the proper levels of DNA and RNA in bodily cells. Without these essential enzymes, cells begin to lose internal structure, causing cellular damage and negatively impacting DNA and RNA synthesis.

Also critical in DNA and RNA synthesis is the metabolism of toxins that can accumulate in the body. Glutathione acts in the liver, attaching sulfur to toxins. Toxins, such as those from prescription medications or a variety of metal compounds become water soluble and can be eliminated from the body without causing harm to internal organs. Enzymes in glutathione are also important in helping remove potentially harmful carcinogens from the body. An accumulation of carcinogens can cause malignant tumors and several forms of cancer including uterine cancer, prostate cancer and lung cancer. Carcinogens and toxins have also been linked to serious neurological conditions such as Parkinson's disease, Alzheimer's disease, anxiety, depression and memory loss. Aside from the potential of causing cancer, carcinogens are damaging to both DNA and RNA.

DNA is important for the coding of proteins and the genetic blueprint of life. DNA is also responsible for the growth and maintenance of healthy life. Based on the production and transfer of amino acids, DNA is regarded as a messenger molecule during the synthesis of essential proteins in the body. Cells in our bodies regularly regenerate themselves to create new blood cells and skin, both of which help in the healing process after a serious injury or disease. If DNA production is destroyed from disease, a lack of essential nutrients, amino acids or proteins can cause cellular damage. If cells begin to die, the effects can negatively impact the immune system. If the body is not able to regenerate or rebuild damaged cells, death can occur.

Glutathione levels can be increased by eating a healthy diet, rich in fresh leafy vegetables, grains, fruit and fresh fish. Supplements are also available at health food stores. If you choose to begin a regimen of vitamins, amino acids or supplements, it is important to speak with your healthcare professional to help you determine correct doses and to understand possible interactions.

 

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Reference Links

http://www.immunehealthscience.com/glutathione.html

http://www.exploredna.co.uk/an-overview-dna-functions.html

http://www.ncbi.nlm.nih.gov/books/NBK21603/