Glucose Colorimetric/Fluorometric Assay Kit
Catalog number
K606-100
Name
Glucose Colorimetric/Fluorometric Assay Kit
Size
100 assays
Price
480.00 EUR
Supplier
Details
Kit's description
Glucose (C₆H₁₂O₆; FW: 180.16) is a very important fuel source to generate universal energy molecules ATP. Glucose level is a key diagnostic parameter for many metabolic disorders. Measurement of glucose can be very important in both research and drug discovery processes. The Glucose Assay Kit provides direct measurement of glucose in various biological samples (e.g., serum, plasma, body fluid, food, growth medium, etc.). Glucose Enzyme Mix specifically oxidizes glucose to generate a product which reacts with a dye to generate color (λ = 570 nm) and fluorescence (Ex/Em = 535/587 nm). The generated color and fluorescence is proportionally to the glucose amount. The method is rapid, simple, sensitive, and suitable for high throughput. The assay is also suitable for monitoring glucose level during fermentation and glucose feeding in protein expression processes. The kit detects 1-10000 µM glucose samples.
Highlights
• Detection method: Absorbance (570 nm) or Fluorescence (Ex/Em 535/587 nm) • Species reactivity: Mammalian • Applications: The kit detects 1:10000 µM glucose samples.
Kit's benefits
• Simple procedure; takes ~40 minutes • Fast and convenient • Kit provides all necessary buffers and reagents for a accurate assay of glucose in various mammalian samples.
Category
Glucose Assay
Kit's other name
none
Contents
• Glucose Assay Buffer • Glucose Probe (in DMSO) • Glucose Enzyme Mix (lyophilized) • Glucose Standard (100 nmol/ml)
Storage condition
-20°C
Shipping condition
gel pack
Maximum time can be stored
12 months
Species reactivity
see datasheet
Applications
Inquire
Samples tested
Cell and tissue culture supernatants, urine, plasma and serum, as well as many other biological fluids and growth medium
Test
Biovision supplies other types of Assays as 1.
Properties
Colorimetric assays or detection use UV absorption or enzymatic color reaction.