Did You Know without Magnesium, You Could not Survive?
|Did You Know without Magnesium, You Could not Survive?||Darrell Miller||02/16/11|
February 16, 2011 02:04 PM
Author: Darrell Miller (firstname.lastname@example.org)
Subject: Did You Know without Magnesium, You Could not Survive?
Magnesium and your Health
Magnesium is vital to life on all levels. All types of cells in all organisms must maintain a balance of magnesium to support life as we know it, and its presence in human beings is ubiquitous at a cellular level. Low levels of magnesium have been tied to a number of medical conditions such as asthma, diabetes, and osteoporosis whereas excesses are known to impair functions of tissues and organs, notably nerves cells and the kidneys.
Supplies the Human Body with Energy
Glucose is best known as the primary source of energy of most multicellular organisms, including of course human beings, while adenosine triphosphate, or ATP, is the form of energy yielded by the utilization of glucose within the cells. All forms of carbohydrates and fats from our diet must be broken down into simpler compounds to be able to be converted into ATP that powers cellular activities.
That being said, ATP requires magnesium in its participation in a number of physiological functions. What we refer to as ATP in fact contains ions of magnesium, for the former must be chemically bound to the latter to perform its role in interactions with protein kinases. In fact, it is a common observation that magnesium almost always acts as the functional regulator in the binding of proteins with ATP.
Participates in Enzymatic Reactions
More or less 300 hundred enzymes in the body are dependent on ATP, which we refer to as coenzyme, a kind of chemical compound that binds to protein. Magnesium acts as glue that keeps the enzymes and ATP together, aiding in the catalytic activities brought about by the enzymes and their utilization of ATP. Thus, the metabolic pathways that employ these enzymes rely on the presence of magnesium.
One example of the interaction of ATP with proteins that necessitate magnesium as a divalent cation, in other words functional regulator, is in enzymes that modify the molecular structure of other proteins. These enzymes are transcribed in more than 500 protein genes and affect up to 30 per cent of all proteins in the human body. Moreover, magnesium plays a role in ribosome, the cellular component responsible for creation of RNA copies and the manufacture of proteins.
Magnesium Facilitates Absorption of Calcium
Over 60 per cent of magnesium in the body is stored in the bones, and this fact has become the basis of the recent trend of dietary supplements that utilize magnesium to induce healthy bone density. Indeed low levels of magnesium has been reported to contribute to the degeneration of bones as we age, resulting in porous bone particles in a medical condition called osteoporosis.
Prevents Ailments of the Circulatory System
Since magnesium is essentially everywhere in the body, it significantly impacts the overall health of the circulatory system, notably in the prevention of heart diseases. Not surprisingly, insufficient levels of magnesium have been documented to cause cardiovascular problems, including hypertension and congestive heart failure, and supplementation of magnesium has been noted to cut complications of preexisting circulatory conditions.
Have you had your magnesium today?