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Important Vitamin Partnerships  

Vitamins are an essential part of the function and health of the body. While many vitamins serve individual purposes, the more common way for vitamins to function is as cofactors to, or in partnership with, other vitamins, minerals, nutrients or other substances, such as enzymes. Some of the most important processes in the body are the result of Vitamins partnering with each other to achieve certain affects, processes or functions.

Two of the most essential and most powerful vitamin partnerships are the group of eight vitamins that make up the nutritional powerhouse that is collectively known as the Vitamin B complex and the group of three vitamins that are known as the antioxidant vitamins. In addition to these, there are variety of other combinations of vitamins that serve essential purposes within the body, preserving health and enhancing function.

The vitamins that make up the Vitamin B complex include Vitamin B1, also called thiamin, Vitamin B2, also known as riboflavin, Vitamin B3, also referred to as niacin, Vitamin B5, also called pantothenic acid, Vitamin B6, also known as pryidoxine, Vitamin B9, also referred to as folate or folic acid, Vitamin B12, also known as cobalamin, due to its cobalt content, and biotin, which is less commonly referred to as Vitamin H.

The degree to which the Vitamin B complex affects bodily function and health, as well as the function and health of the mind, in terms of cognitive processes and emotional balance and stability, is nothing short of amazing. The Vitamin B complex is at work in and essential to every major system of the body and is a part of almost every important function.

The group of vitamins that is known as the antioxidant group is made up of Vitamin C, Vitamin E, and Vitamin A, each powerful agents on their own, serving individual essential purposes in the body. When they combine their strengths, acting as antioxidants, they serve to rid the body of the cell and tissue damaging free radicals that have been associated with a variety of degenerative processes and diseases, including the effects of the basic aging process and the declining abilities of the mind. Some studies have suggested connections between free radicals and such infirmities as heart disease and Alzheimer's disease.

Free radicals are destabilized molecules, created when a weakened molecule splits and leaves the free radical without one of the electrons it needs. Weakened molecules can result from the body's natural metabolic processes, such as some of those that include oxygen, as well as from environmental contaminants, such as pollution. The free radical attacks other molecules in the effort to take the electron that it is missing. This damages the attacked molecule, making it a free radical too. When enough free radicals emerge in a cell, it can cause cellular damage, which, as more free radicals continue to be produces, can cause tissue damage. Antioxidants bring these free radicals under control by giving them the electron that they need, bringing to an end their aggressive behavior against other molecules.