Aspartic Acid

Aspartic acid is a nonessential amino acid that is critical in the many complex metabolic processes associated with proteins. Although it is found in profusion in plant proteins, aspartic acid can also be manufactured in the body form oxaloacetic acid. Structurally, this amino acid (along with glutamic acid) is the only amino acid bearing a negatively charged carboxylate group on its side chain.

As various amino acids develop, aspartic acid is fundamental in the overall development and metabolism processes undertaken by these subunits of protein. Its main properties are principal in the construction of biochemicals in the citric acid cycle as well. Aspartic acid is responsible for the synthesis of both essential and nonessential amino acids, including; arginine, asparagine, isoleucine, lysine, methionine, threonine, and various nucleotides.

Aspartic acid remains a critical element in achieving and maintaining homeostasis and productivity in the mind and body.

Aspartic Acid Food Sources

Aspartic acid is categorized as a nonessential amino acid. When there are inadequate levels in the body, the liver maintains levels by creating the deficient amount. Due to this process, aspartic acid does not have to be solely obtained from diet.

Listed below are the sources that one might find in an average diet. The most bioavailable sources of aspartic acid include portions of dairy, beef, fish, poultry, and sprouting seeds. All food items listed below are based upon a 100 gram (200 Kcalorie) serving: [1]

mg/100g Food Name
5790 Seaweed, spirulina, dried
5430 Seeds, cottonseed flour, low fat (glandless)
5350 Seeds, cottonseed meal, partially defatted (glandless)
5160 Seeds, sunflower seed flour, partially defatted
4650 Seeds, sesame flour, low-fat
4460 Seeds, cottonseed flour, partially defatted (glandless)
3980 Seeds, safflower seed meal, partially defatted
3740 Seeds, sesame flour, partially defatted
10200 Soy protein isolate
10200 Soy protein isolate, potassium type
10200 Soy protein isolate, potassium type, crude protein basis
7250 Soy protein concentrate, produced by acid wash
7250 Soy protein concentrate, crude protein basis (N x 6.25), produced by acid wash
6370 Peanut flour, defatted
5910 Soy flour, defatted
5910 Soy flour, defatted, crude protein basis (N x 6.25)
5850 Soy flour, low-fat
5850 Soy flour, low-fat, crude protein basis (N x 6.25)
5650 Soy meal, defatted, raw
5650 Soy meal, defatted, raw, crude protein basis (N x 6.25)
5300 Tofu, dried-frozen (koyadofu)
5300 Tofu, dried-frozen (koyadofu), prepared with calcium sulfate
4980 Soybeans, mature seeds, dry roasted
4750 Meat extender
4590 Soybeans, mature seeds, raw
4430 Soybeans, mature seeds, roasted, salted
4430 Soybeans, mature seeds, roasted, no salt added
4370 Soy flour, full-fat, roasted
4370 Soy flour, full-fat, roasted, crude protein basis (N x 6.25)
4340 Soy flour, full-fat, raw
4340 Soy flour, full-fat, raw, crude protein basis (N x 6.25)
4120 Peanut flour, low fat
3880 Lupins, mature seeds, raw
6430 Fish, cod, Atlantic, dried and salted
5130 Mollusks, whelk, unspecified, cooked, moist heat
3630 Pork, cured, bacon, cooked, microwaved
8250 Egg, white, dried
6810 Egg, white, dried, flakes, glucose reduced
4760 Egg, whole, dried
4470 Snacks, pork skins, plain
4300 Snacks, pork skins, barbecue-flavor
5270 Gelatins, dry powder, unsweetened
3810 Gelatin desserts, dry mix, reduced calorie, with aspartame, added phosphorus, potassium, sodium, vitamin C
3810 Gelatin desserts, dry mix, reduced calorie, with aspartame, no added sodium

Aspartic Acid Uses

Although aspartic acid is primarily used in the body's metabolic processes; it is also key for a variety of other biological processes. Cellular energy is directly dependant upon this critical nonessential amino acid. This is a vital process in human physiology, and the responsibility for the increased stamina in neurological and muscular activities lies with sufficient levels of this amino acid. Chronic fatigue is a condition that may be directly linked to lower levels of aspartic acid. [2]

Inadequate levels of aspartic acid have also been linked to irregularities of certain chemicals in the brain, largely serotonin. The decreased levels of serotonin have been argued to be a primary contributor to depression in all age groupings. A proper balance insures proper functioning and balance of the brain and its associated processes.

L-aspartic acid has also been used in various clinical applications, showing promise in persons suffering from opiate addictions. A particular clinical study involved eight opiate addicted individuals; two were addicted to codeine, two to heroin, and four to opium. Clinical administration of 2 grams of L-aspartic acid, four times daily, took place for a two week period. [3] Clients showed a decrease in withdrawal symptoms and a greater improvement in social contact and overall behavior.

Aspartic acid is also significant in the removal of excess ammonia and other toxins from the bloodstream. It also assists in the proper functioning of carriers for genetic information - RNA and DNA. This amino acid is equally important in antibody synthesis/immune system support, production of immunoglobulin, cell-functioning, and the movement of minerals across intestinal linings into blood and cellular structures located throughout the body.

Aspartic Acid Dosages

There has not been an established or recommended dosage for this particular amino acid. However, the U.S. National Academy of Sciences recommends that healthy people achieve .36 grams of highly bioavailable protein for each pound of bodyweight-equaling 0.8 grams of protein, per kilogram of bodyweight.

Aspartic Acid Toxicities and Deficiencies

Aspartic Acid Deficiencies

There has been no evidence suggesting a deficiency of aspartic acid has taken place in human biology. Because aspartic acid is a nonessential amino acid, deficiencies are very unlikely to occur. Symptoms of deficiency have been speculated to produce fatigue, depression, autoimmune disorders, and ammonia toxicity in the body

Aspartic Acid Toxicities

The medical community does not focus exclusively on the amino acid aspartic acid itself, but places importance upon the substance which it produces - the artificial sweetener, aspartame. Aspartame is a dipeptide composed of the amino acids aspartic acid and phenylalanine. Upon human ingestion aspartame is quickly metabolized back into aspartic acid, phenylalanine, and also the toxic wood alcohol, methanol. Aside from the toxic properties of methanol, aspartic acid and phenylalanine are not completely benevolent. If one is not predisposed to ridding the body of both of these amino acids quickly, build-up can and may occur leading to alterations in brain chemistry.

Excessive consumption of both aspartic acid and phenylalanine leads to an increased level of these substances in the brain. Neurological damage may occur because of the over-stimulus of the cerebral cortex. The neurotransmitter serotonin may also be adversely affected due to over consumption of these two amino acids. Depletion of serotonin is often the case. This depletion can lead to conditions associated with such a disproportionate change in brain serotonin levels, including (but not limited to); fatigue, headaches, sleep/eating disorders, and in extreme cases, depression.

Products Containing Aspartic Acid
Name Price Rating Serving Price # of Servings Manufacturer Health Condition
Casein Protein $25.99
$0.96 27 Optimum Nutrition
Hardcore Essentials Pure Pro $39.99
$0.55 73 ABB
Mus-L-Blast 2000 $14.95
$1.66 9 Genisoy
Myoplex Deluxe $99.99
$2.78 36 EAS
Pro Blend 55 $31.49
$2.42 13 Wellement
Super Anti-Oxidant Protective Complex $8.89
$8.89 1 Genesis Nutrition
Superior Amino 2222 $17.99
$0.12 150 Optimum Nutrition
Whey Gourmet $27.95
$0.93 30 PVL
Whey Matrix $26.00
$0.37 71 ISS


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