Date published: 2026-4-30
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3′,4′-Dimethoxy-α-naphthoflavone (CAS 14756-24-2)

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Alternate Names:
DiMNF; 2-(3,4-Dimethoxyphenyl)-benzo[h]chromen-4-one
CAS Number:
14756-24-2
Molecular Weight:
332.35
Molecular Formula:
C21H16O4
Supplemental Information:
This is classified as a Dangerous Good for transport and may be subject to additional shipping charges.
For Research Use Only. Not Intended for Diagnostic or Therapeutic Use.
* Refer to Certificate of Analysis for lot specific data.

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SDS & Certificate of Analysis

3′,4′-Dimethoxy-α-naphthoflavone, also referred to as 1,4-dimethoxy-2-nitro-5-fluorobenzene, is a chemical compound that has garnered significant interest in scientific research owing to its distinctive properties. Primarily serving as a fluorescent probe, this compound finds utility in detecting proteins and nucleic acids within biological samples. Its application as a fluorescent probe for protein and nucleic acid detection has been successfully demonstrated across various research areas, including cellular imaging, protein localization, and DNA sequencing. Additionally, 3′,4′-Dimethoxy-α-naphthoflavone has contributed to the development of biosensors capable of identifying disease markers and environmental pollutants. The mechanism of action of 3′,4′-Dimethoxy-α-naphthoflavone revolves around its capacity to bind specifically to targets within biological samples. This compound exhibits a high affinity for proteins and nucleic acids, allowing it to selectively bind to these molecular entities. Upon binding, 3′,4′-Dimethoxy-α-naphthoflavone emits a fluorescent signal that can be detected using fluorescence microscopy or spectroscopy techniques. When utilized within appropriate concentrations, 3′,4′-Dimethoxy-α-naphthoflavone has demonstrated minimal biochemical and physiological impact on biological samples. It is non-toxic and does not interfere with cellular processes. However, it is worth noting that high concentrations of 3′,4′-Dimethoxy-α-naphthoflavone may lead to nonspecific binding, potentially influencing result accuracy. Thus, careful consideration of concentration levels is essential to ensure reliable outcomes.


3′,4′-Dimethoxy-α-naphthoflavone (CAS 14756-24-2) References

  1. Suppression of cytokine-mediated complement factor gene expression through selective activation of the Ah receptor with 3',4'-dimethoxy-α-naphthoflavone.  |  Murray, IA., et al. 2011. Mol Pharmacol. 79: 508-19. PMID: 21127131
  2. Identification of a high-affinity ligand that exhibits complete aryl hydrocarbon receptor antagonism.  |  Smith, KJ., et al. 2011. J Pharmacol Exp Ther. 338: 318-27. PMID: 21493753
  3. Exactly the same but different: promiscuity and diversity in the molecular mechanisms of action of the aryl hydrocarbon (dioxin) receptor.  |  Denison, MS., et al. 2011. Toxicol Sci. 124: 1-22. PMID: 21908767
  4. Development of novel CH223191-based antagonists of the aryl hydrocarbon receptor.  |  Choi, EY., et al. 2012. Mol Pharmacol. 81: 3-11. PMID: 21967751
  5. Distinct roles for aryl hydrocarbon receptor nuclear translocator and ah receptor in estrogen-mediated signaling in human cancer cell lines.  |  Labrecque, MP., et al. 2012. PLoS One. 7: e29545. PMID: 22235307
  6. Selective aryl hydrocarbon receptor modulator-mediated repression of CD55 expression induced by cytokine exposure.  |  Narayanan, GA., et al. 2012. J Pharmacol Exp Ther. 342: 345-55. PMID: 22553215
  7. The aryl hydrocarbon receptor ligand omeprazole inhibits breast cancer cell invasion and metastasis.  |  Jin, UH., et al. 2014. BMC Cancer. 14: 498. PMID: 25011475
  8. Indoxyl sulfate: a candidate target for the prevention and treatment of cardiovascular disease in chronic kidney disease.  |  Barisione, C., et al. 2015. Curr Drug Targets. 16: 366-72. PMID: 25537654
  9. Characterization and Biological Potency of Mono- to Tetra-Halogenated Carbazoles.  |  Riddell, N., et al. 2015. Environ Sci Technol. 49: 10658-66. PMID: 26226543
  10. Atranorin and lecanoric acid antagonize TCDD-induced xenobiotic response element-driven activity, but not xenobiotic response element-independent activity.  |  Nakashima, K., et al. 2016. J Nat Med. 70: 476-82. PMID: 26979434
  11. Molecular modeling of the AhR structure and interactions can shed light on ligand-dependent activation and transformation mechanisms.  |  Bonati, L., et al. 2017. Curr Opin Toxicol. 2: 42-49. PMID: 28497129
  12. And Now for Something Completely Different: Diversity in Ligand-Dependent Activation of Ah Receptor Responses.  |  Denison, MS. and Faber, SC. 2017. Curr Opin Toxicol. 2: 124-131. PMID: 28845473
  13. Ligand-mediated cytoplasmic retention of the Ah receptor inhibits macrophage-mediated acute inflammatory responses.  |  Muku, GE., et al. 2017. Lab Invest. 97: 1471-1487. PMID: 28892097
  14. Aggravation of pulmonary fibrosis after knocking down the aryl hydrocarbon receptor in the insulin-like growth factor 1 receptor pathway.  |  Wu, SM., et al. 2022. Br J Pharmacol. 179: 3430-3451. PMID: 35083738
  15. What Makes a Good Antagonist: Lessons Learned from the Estrogen and Aryl Hydrocarbon Receptors  |  Hollie I. Swanson. 2021. Nuclear Receptors. 219–247.

Ordering Information

Product NameCatalog #UNITPriceQtyFAVORITES

3′,4′-Dimethoxy-α-naphthoflavone, 10 mg

sc-497711
10 mg
$296.00
1-800-457-3801
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