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ProductsBack/Fluorescein dipropionate [7276-28-0]
Chemical Structure
Chemical Structure
Chemical Structure

Fluorescein dipropionate [7276-28-0]

Research Use Only
CDX-F0088
Chemodex
CAS Number7276-28-0
DownloadDatasheet
Product group Chemicals
Estimated Purity>97%
Molecular Weight444.43
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Overview

  • Supplier
    Chemodex
  • Product Name
    Fluorescein dipropionate [7276-28-0]
  • Delivery Days Customer
    10
  • CAS Number
    7276-28-0
  • Certification
    Research Use Only
  • Estimated Purity
    >97%
  • Hazard Information
    Warning
  • Molecular Formula
    C26H20O7
  • Molecular Weight
    444.43
  • Scientific Description
    Chemical. CAS: 7276-28-0. Formula: C26H20O7. MW: 444.43. Fluorescein is the most important xanthene dye widely used for labeling and sensing biomolecules. It has a high extinction coefficient and fluorescence quantum yield in aqueous solution, and its excitation wavelength is in the visible range. However, fluorescein also has some obvious deficiencies. Particularly its hydrophilic nature limits its application to the detection of enzymes, therefore fluorescein esters are a useful alternative. Fluorescein esters, such as fluorescein dipropionate, are nonfluorescent, but they can be cleaved by intracellular enzymes to yield fluorescent products, such as fluorescein. The rate of change in the fluorescence of the solution, due to the production of fluorescein, is measured and correlated with enzyme activity. Therefore, fluorescein esters could be used as fluorometric determination probes of enzymes. Fluorescein dipropionate could also be used as a building block or intermediate in synthesis of fluorescent probes. - Fluorescein is the most important xanthene dye widely used for labeling and sensing biomolecules. It has a high extinction coefficient and fluorescence quantum yield in aqueous solution, and its excitation wavelength is in the visible range. However, fluorescein also has some obvious deficiencies. Particularly its hydrophilic nature limits its application to the detection of enzymes, therefore fluorescein esters are a useful alternative. Fluorescein esters, such as fluorescein dipropionate, are nonfluorescent, but they can be cleaved by intracellular enzymes to yield fluorescent products, such as fluorescein. The rate of change in the fluorescence of the solution, due to the production of fluorescein, is measured and correlated with enzyme activity. Therefore, fluorescein esters could be used as fluorometric determination probes of enzymes. Fluorescein dipropionate could also be used as a building block or intermediate in synthesis of fluorescent probes.
  • SMILES
    O=C(O1)C2=C(C=CC=C2)C31C4=CC=C(OC(CC)=O)C=C4OC5=C3C=CC(OC(CC)=O)=C5
  • Storage Instruction
    2°C to 8°C
  • UNSPSC
    41116134