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Magnesium Malate 20% (DC Granular)
Nanjing Gemsen
CAS 869-06-7
Introduction:
Product Name | Magnesium Malate |
Synonyms | Magnesium Malate Anhydrous |
Appearance | White granular or irregular granular |
CAS | 869-06-7 |
Molecular formula | C4H4MgO5 |
Molecular Weight | 156.377 |
Purity | 98%min, 20%Magnesium |
Sample | Available |
Magnesium Malate is a chelated complex where magnesium is bound to malic acid, an integral metabolite in the cellular energy cycle. This organic formulation offers high bioavailability and minimal gastrointestinal irritation, making it a preferred form for oral supplementation. Magnesium serves as an essential cofactor in hundreds of enzymatic processes, including energy metabolism, neuromuscular function, and nucleic acid synthesis. Malic acid, naturally present in fruits such as apples, acts as a key intermediate in the tricarboxylic acid (TCA) cycle, directly supporting aerobic energy production. The compound typically contains 11-13% elemental magnesium by weight and demonstrates excellent stability under normal storage conditions.
Specification:
Function and Application:
1. Its chelated structure enhances intestinal absorption of magnesium while significantly reducing the laxative effect common with inorganic salts. This improved tolerability supports long-term use for deficiency correction and maintenance of magnesium status.
2. The combination uniquely supports cellular energy metabolism: malic acid fuels the TCA cycle while magnesium activates ATP-synthesizing enzymes. This dual action makes it particularly effective against persistent fatigue and low vitality.
3. It promotes neuromuscular well-being by modulating calcium-mediated contraction and nerve signaling. This mechanism underlies its utility in managing muscle cramps, spasms, and fibromyalgia-related pain.
4. Malic acid aids anaerobic energy generation, improving performance under hypoxic conditions. This benefit is valued by athletes and individuals in oxygen-limited environments.
5. The compound contributes to metabolic health by supporting insulin-sensitive glucose uptake and assisting in the detoxification of heavy metals through chelation.
6. Specific populations derive targeted benefits—athletes experience enhanced endurance and recovery, while those with chronic fatigue or fibromyalgia obtain symptomatic relief from this well-tolerated mineral supplement.
Introduction:
Product Name | Magnesium Malate |
Synonyms | Magnesium Malate Anhydrous |
Appearance | White granular or irregular granular |
CAS | 869-06-7 |
Molecular formula | C4H4MgO5 |
Molecular Weight | 156.377 |
Purity | 98%min, 20%Magnesium |
Sample | Available |
Magnesium Malate is a chelated complex where magnesium is bound to malic acid, an integral metabolite in the cellular energy cycle. This organic formulation offers high bioavailability and minimal gastrointestinal irritation, making it a preferred form for oral supplementation. Magnesium serves as an essential cofactor in hundreds of enzymatic processes, including energy metabolism, neuromuscular function, and nucleic acid synthesis. Malic acid, naturally present in fruits such as apples, acts as a key intermediate in the tricarboxylic acid (TCA) cycle, directly supporting aerobic energy production. The compound typically contains 11-13% elemental magnesium by weight and demonstrates excellent stability under normal storage conditions.
Specification:
Function and Application:
1. Its chelated structure enhances intestinal absorption of magnesium while significantly reducing the laxative effect common with inorganic salts. This improved tolerability supports long-term use for deficiency correction and maintenance of magnesium status.
2. The combination uniquely supports cellular energy metabolism: malic acid fuels the TCA cycle while magnesium activates ATP-synthesizing enzymes. This dual action makes it particularly effective against persistent fatigue and low vitality.
3. It promotes neuromuscular well-being by modulating calcium-mediated contraction and nerve signaling. This mechanism underlies its utility in managing muscle cramps, spasms, and fibromyalgia-related pain.
4. Malic acid aids anaerobic energy generation, improving performance under hypoxic conditions. This benefit is valued by athletes and individuals in oxygen-limited environments.
5. The compound contributes to metabolic health by supporting insulin-sensitive glucose uptake and assisting in the detoxification of heavy metals through chelation.
6. Specific populations derive targeted benefits—athletes experience enhanced endurance and recovery, while those with chronic fatigue or fibromyalgia obtain symptomatic relief from this well-tolerated mineral supplement.