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NAD imbalance within cells has a major impact on aging.
Nicotinamide adenine dinucleotide (NAD+) is a compound located in every living cell and is critically important for metabolism. It helps to convert food into energy within the mitochondria of cells. An imbalance in the equilibrium of cellular NAD has an impact on chromosomal telomeres leads to a faster aging process.
Continue reading “NAD+ Equilibrium, Telomeres and Aging”In biochemistry, the term “de novo” means that one compound like niacin makes a brand new compound like NADH. It is like building a car from scratch. Human cells generally depend on the De novo creation of NAD from the basics.
Continue reading “Salvage and de Novo – Two Unique Pathways to Make NADH”
Our immune systems are affected by many different things including climate changes. With fluctuating outdoor temperatures our immune systems are not always prepared to handle it. In addition, the influence of light and dark cycles also can weaken our bodies. Harmful germs from the environment can attack and damage our immune cells. As one ages, the immune system becomes more vulnerable.
Continue reading “Promoting Immune Function & Longevity With mTOR – Less is More”Research is investigating ways to stop cognitive decline by finding metabolic agents to increase cellular ATP (Adenosine triphosphate) levels. ATP is the molecule that carries and transfers or stores energy within all living cells. ATP energy is made from food substances that are broken down and released.
Continue reading “The Relationship Between Cellular ATP Levels and Cognitive Function”
Epigenetics is derived from a Greek word meaning Over & Above the Genome. It is known that aging is characterized by a decline in the function of body systems, tissues, and organs. There is evidence that shows the association between epigenetic changes and aging decline. The reason researchers are investigating epigenetics is that it can be reversed and that there are ways in the pathways to prevent age related decline and disease.
Continue reading “Aging & Epigenetics – How to Change Pathway to Increase Life Span”
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