Trimethylamine N-oxide dihydrate

97%

  • Product Code: 72948
  Alias:    Trimethylamine Oxide Dihydrate; Trimethylamine Oxide Dihydrate
  CAS:    62637-93-8
Molecular Weight: 75.11(as Anhydrous) g./mol Molecular Formula: C₃H₉NO₂H₂O
EC Number: MDL Number: MFCD00002048
Melting Point: Boiling Point:
Density: Storage Condition: room temperature, sealed
Product Description: Trimethylamine N-oxide dihydrate is widely used in biological and chemical research as a stabilizing agent for proteins and enzymes. It helps maintain the native structure of proteins during experiments, particularly in studies involving denaturation or folding processes. In the field of biochemistry, it is employed as an osmolyte, protecting cells and cellular components from stress caused by extreme environmental conditions such as high salinity or temperature. Additionally, it serves as a methyl donor in various metabolic pathways, making it valuable in studies of cellular metabolism and biochemical reactions. Its role in marine biology is also notable, as it is involved in the osmoregulation of marine organisms, helping them adapt to their saline environments.
Product Specification:
Test Specification
Melting point 94 98?
Purity 96.5 100%
Appearance White Crystalline powder or crystals and/or chunks
Infrared spectrometry Conforms to Structure
Sizes / Availability / Pricing:
Size (g) Availability Price Quantity
5.000 10-20 days ฿320.00
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25.000 10-20 days ฿420.00
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100.000 10-20 days ฿930.00
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500.000 10-20 days ฿3,290.00
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2500.000 10-20 days ฿12,900.00
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10000.000 10-20 days ฿39,700.00
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Trimethylamine N-oxide dihydrate
Trimethylamine N-oxide dihydrate is widely used in biological and chemical research as a stabilizing agent for proteins and enzymes. It helps maintain the native structure of proteins during experiments, particularly in studies involving denaturation or folding processes. In the field of biochemistry, it is employed as an osmolyte, protecting cells and cellular components from stress caused by extreme environmental conditions such as high salinity or temperature. Additionally, it serves as a methyl donor in various metabolic pathways, making it valuable in studies of cellular metabolism and biochemical reactions. Its role in marine biology is also notable, as it is involved in the osmoregulation of marine organisms, helping them adapt to their saline environments.
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