Superoxide Dismutase 9054-89-1 Boosting The Body′s Primary Antioxidant Defense SOD
|10-99 100-999 1,000+|
|FOB Unit Price:||US $2 US $1.2 US $0.8|
|Purchase Qty. (g)||FOB Unit Price|
|Transport Package:||1kg/Foil Bag|
|Payment Terms:||T/T, Western Union, Money Gram, Bitcoin|
- Model NO.: 9054-89-1
- CAS: 9054-89-1
- Customized: Non-Customized
- Suitable for: Adult, Elderly, Children
- Purity: >99%
- Specification: 25kg/drum
- HS Code: 2903220000
- Alias: SOD
- Powder: Yes
- Certification: GMP, USP, ISO 9001, BP
- State: Powders
- Trademark: NJBN
- Origin: Made in China
Synonyms: Dismutase,superoxide;superoxidedismutasef.bovineerythro-cytes;EC 22.214.171.124;EC: 126.96.36.199;CU/ZN SOD;CU/ZN-SUPEROXIDE DISMUTASE;IUB: 188.8.131.52;SOD
Product Categories: Enzymes;proteins
Storage temp. 2-8°C
Chemical Properties : from bovine erythrocytes
CERTIFICATION OF ANALYSIS
|Product name||Superoxide dismutase(SOD)|
|Shelf life||2 years|
|Appearance||Light green crystal||blue-green|
|Impurities||No visible impurities||No|
|Inspection Method||Xanthine oxidase method|
|Storage conditions||Room temperature|
|Total number of colonies||≤1000(cfu/g)||<10|
|Pathogens||No detected||No detected|
|Number of yeasts||≤25(cfu/g)||<10|
|Other harmful ingredients||No||No|
Description of SOD :
For years, scientists have sought a way to boost one of the body's most powerful natural antioxidant enzymes: superoxide dismutase (SOD). Present both inside and outside cell membranes, SOD is one of the body's primary internal anti-oxidant defenses, and plays a critical role in reducing the oxidative stress implicated in atherosclerosis and other life-threatening diseases. Studies have shown that SOD can play a critical role in reducing internal inflammation and lessening pain associated with conditions such as arthritis.
Until recently, attempts to supplement with oral preparations of pure SOD enzyme proved disappointing, since the SOD protein molecule is easily deactivated by harsh acids and enzymes contained in the digestive tract.
Scientists have conquered these challenges by creating bioavailable forms of SOD using natural plant extracts.
When delicate SOD molecules are coupled with a protective protein derived from wheat and other plants, they can be delivered intact to the intestines and absorbed into the bloodstream, thus effectively enhancing the body's own primary defense system.Once in circulation in the bloodstream, these powerful antioxidants go to work detoxifying potentially harmful substances and reducing oxidative stress that might otherwise contribute to aging and crippling diseases such as atherosclerosis, stroke, and arthritis.
By strengthening the body's primary antioxidant systems, novel SOD-boosting supplements may offer the most powerful free radical protection available today.
The antioxidant enzymes produced within our bodies are complex proteins that often incorporate minerals such as selenium or zinc in their intricate structures. These antioxidant enzymes serve as the body's most potent defense against free radicals and ensuing inflam-matory reactions. They include glutathione peroxidase, catalase, and perhaps the most important internally generated antioxidant of all: superoxide dismutase (SOD).
In the liver, enzymes such as glutathione peroxidase act as catalysts, facilitating reactions that render toxins less harmful.
Some of the most potentially harmful substances in the body are not toxins that enter from the external environment, but rather internally generated pro-oxidants. While oxygen is essential for life, its use comes at a cost, as it poses a potential threat to biological systems. Accordingly, living systems require an entire system of compounds dedicated to neutralizing oxygen's harmful effects.
Application of SOD :
Superoxide dismutase (SOD, EC 184.108.40.206) is an enzyme that alternately catalyzes the dismutation (or partitioning) of the superoxide (O2−) radical into either ordinary molecular oxygen (O2) or hydrogen peroxide (H2O2). Superoxide is produced as a by-product of oxygen metabolism and, if not regulated, causes many types of cell damage.Hydrogen peroxide is also damaging, but less so, and is degraded by other enzymes such as catalase. Thus, SOD is an important antioxidant defense in nearly all living cells exposed to oxygen. One exception is Lactobacillus plantarum and related lactobacilli, which use a different mechanism to prevent damage from reactive (O2−).
SOD may reduce free radical damage to skin-for example, to reduce fibrosis following radiation for breast cancer. Studies of this kind must be regarded as tentative, however, as there were not adequate controls in the study including a lack of randomization, double-blinding, or placebo. Superoxide dismutase is known to reverse fibrosis, perhaps through reversion of myofibroblasts back to fibroblasts .