Lipoamide dehydrogenase (or diaphorase) catalyzes the following reaction: Lipoamide + NADH + H+ Dihydrolipoamide + NAD+. The enzyme occurs in mammalian and microbial cells and it catalyzes a number of reactions which involve NAD+ or NADH. Lipoamide dehydrogenase from porcine heart contains two polypeptide chains which are similar. It has two molecules of tightly bound flavin adenine dinucleotide (FAD). The molecular weight of the porcine heart enzyme is between 100,000 and 114,000.
This enzyme is a membrane protein and goes through an intermediate stage during the reaction where it is autophosphorylated with a phosphate group covalently linked to a basic amino acyl residue through an n-p bond.
Potassium formate brine, lubricants. xanthan. pac..
Uralkali potash & potassium chloride .
Steel And Chemical Products.
Hydrous ethanol 95 cda12a sda40b undenatured ethanol ipa we also have: acetic acid methanol npentane nhexane acetone usp and tech grade.
Raw material of hand sanitizers like ethanol or isopropanol.
Calcium chloride.
Industrial And Petroleum Material.
Used oil, vgo, base oil, antifreeze, ethylene glycol, propolyne glycol.
Barium sulfate , barite (baso4) .
Silver liquid mercury, spent catalyst.
Lithium tetraborate and lithium chloride.
Ethanol and magnesium silicate.
98% ethylene glycol.
Chemicals, Solvents, Salts.
The use of fertilizer, which delivers the minerals required by plants, maintains the physical and chemical structure of the soil, and allows plants to be fed more easily from the soil, is of great importance in terms of ensuring agricultural continuity.
Chemical Property: Calcium Ammonium Nitrate (CAN) is a compound with the chemical formula Ca(NO3)2�·NH4NO3�·10H2O. It is a complex fertilizer that contains calcium, ammonium, and nitrate ions. The formula indicates the presence of calcium ions (Ca2+), ammonium ions (NH4+), nitrate ions (NO3^-), and water molecules (H2O) in the crystal structure. CAN is typically found as white granules or prills and is water-soluble. Application in Fertilizer: Calcium Ammonium Nitrate is widely used in agriculture as a fertilizer and has several applications: Nitrogen Source: CAN is a nitrogen fertilizer that provides a balanced supply of both ammonium and nitrate nitrogen. The ammonium component releases nitrogen gradually, while the nitrate component is more quickly available for plant uptake. Calcium Supply: CAN also supplies calcium, an essential secondary nutrient for plants. Calcium is important for cell wall structure, root development, and overall plant growth. Balanced Nutrition: The combination of nitrogen and calcium in CAN provides balanced nutrition for plants, supporting their growth, yield, and overall health. Root Development: Calcium supports healthy root development, which in turn improves nutrient and water uptake by plants. Nitrate-Nitrogen Uptake: The nitrate component in CAN helps promote efficient nitrogen uptake by plants, particularly during periods of active growth. Acidic Soil Amendment: CAN's ammonium content can contribute to lowering soil pH, making it useful for crops that prefer slightly acidic soil conditions. Fruit and Vegetable Production: CAN is often used for crops such as fruits, vegetables, and ornamentals that require a balanced nutrient profile to achieve optimum growth and quality. Field and Horticultural Crops: CAN is suitable for both field crops (such as grains and oilseeds) and horticultural crops (such as fruits, vegetables, and flowers). Environmental Considerations: The balanced nitrogen release in CAN can help mitigate nitrogen loss through leaching and volatilization compared to some other nitrogen fertilizers. Fertilizer Blends: CAN can be blended with other fertilizers to create custom formulations that suit specific crop and soil nutrient requirements. It's important to use Calcium Ammonium Nitrate according to recommended guidelines to avoid overuse and potential nutrient imbalances. Soil testing and understanding specific crop needs can help determine appropriate application rates for optimal results while minimizing environmental impacts.
The use of fertilizer, which delivers the minerals required by plants, maintains the physical and chemical structure of the soil, and allows plants to be fed more easily from the soil, is of great importance in terms of ensuring agricultural continuity.
Normal superphosphate or single superphosphate (NSP, SSP) is used solely as a fertilizer material. NSP can be used with most crops and is applied during the planting season. NSP is a solid phosphate fertilizer material that is produced from phosphate rock and sulfuric acid (H2SO4).