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CAS 77479-03-9

:

3,6-Dihydro-2,5-pyrazinedipropanoic acid

Description:
3,6-Dihydro-2,5-pyrazinedipropanoic acid, identified by its CAS number 77479-03-9, is a chemical compound characterized by its unique pyrazine ring structure, which contributes to its reactivity and potential applications. This compound features two propanoic acid groups attached to a dihydro-pyrazine framework, making it a dicarboxylic acid derivative. Its molecular structure allows for various interactions, including hydrogen bonding, which can influence its solubility and stability in different solvents. The presence of the pyrazine moiety may impart specific biological activities, making it of interest in pharmaceutical and agrochemical research. Additionally, the compound's properties, such as melting point, boiling point, and solubility, can vary based on environmental conditions and the presence of other substances. Overall, 3,6-Dihydro-2,5-pyrazinedipropanoic acid is a versatile compound with potential applications in various fields, including medicinal chemistry and materials science.
Formula:C10H14N2O4
InChI:InChI=1S/C10H14N2O4/c13-9(14)3-1-7-5-12-8(6-11-7)2-4-10(15)16/h1-6H2,(H,13,14)(H,15,16)
InChI key:InChIKey=VYHCBAHHXCYDQC-UHFFFAOYSA-N
SMILES:C(CC(O)=O)C=1CN=C(CCC(O)=O)CN1
Synonyms:
  • 3,6-Dihydro-2,5-pyrazinedipropanoic acid
  • 2,5-Pyrazinedipropanoic acid, 3,6-dihydro-
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Found 1 products.
  • 3,3'-(3,6-Dihydropyrazine-2,5-diyl)dipropanoic acid
    Biosynth
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    3,3'-(3,6-Dihydropyrazine-2,5-diyl)dipropanoic acid

    CAS:
    <p>3,3'-(3,6-Dihydropyrazine-2,5-diyl)dipropanoic acid (DPPA) is a potent metal chelator that can be used in the treatment of cancer. DPPA binds to metal ions and prevents their access to vital cellular components such as DNA and proteins. This agent has been shown to inhibit the growth of carcinoma cells in culture. It also has an effect on the synthesis of demyelination, which may account for its ability to prevent reactive oxygen species from damaging DNA. DPPA is a strong inhibitor of mitochondrial function and at high concentrations it damages mitochondria by releasing hydrogen peroxide into the cell cytoplasm. The release of hydrogen peroxide causes catalase to become active, leading to cell death.</p>
    Formula:C10H14N2O4
    Purity:Min. 95%
    Molecular weight:226.23 g/mol

    Ref: 3D-ID64789

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