AFC [7-Amino-4-trifluoromethylcoumarin]
Cat.No. : | DYE-155 |
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Description : | This compound is the precursor for a variety of AFC enzyme substrates. It is also used as a calibration standard for AFC-based enzyme substrates. Compared to AMC enzyme substrates, fluorogenic AFC substrates generate AFC that has longer absorption and fluorescence wavelength that AMC. |
CAS number : | 53518-15-3 |
Molecular Mass : | 229.2 |
Formula : | C10H6F3NO2 |
Ex(nm) : | 380 |
Em(nm) : | 500 |
Solvent : | DMSO |
Storage : | Store at -20°C in the dark. Dessicated. |
For Research Use Only. Not intended for any clinical use. No products from Creative BioMart may be resold, modified for resale or used to manufacture commercial products without prior written approval from Creative BioMart.
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Q&As (10)
Ask a questionThe expression of AFC protein is regulated by specific factors and signaling pathways.
Dysregulation or dysfunction of AFC protein can disrupt cellular homeostasis, perturb molecular signaling networks, and contribute to disease development.
The enzymatic activity or biochemical function of AFC protein can be characterized experimentally using enzymatic assays or substrate specificity studies.
AFC protein holds potential as a target for therapeutic purposes, and further research is needed to explore its implications for disease treatment or intervention.
The subcellular localization of AFC protein can be experimentally determined using techniques such as immunofluorescence microscopy or subcellular fractionation.
AFC protein may interact with specific molecules or participate in protein complexes, which have functional implications in cellular processes.
AFC protein contributes to specific cellular processes or physiological functions, and the underlying molecular mechanisms are currently being investigated.
Genetic variations or mutations in the gene encoding AFC protein may impact its expression or function, influencing cellular processes or disease susceptibility.
Various experimental techniques or assays, such as enzyme activity assays, protein-protein interaction studies, or functional genomics approaches, have been used to study the functional significance of AFC protein.
Post-translational modifications and regulatory mechanisms may modulate the activity or stability of AFC protein.
Customer Reviews (3)
Write a reviewExploring protein-protein interactions in angiogenesis pathways for blood vessel formation.
Unraveling protein-protein interactions in stem cell pluripotency for regenerative medicine.
Investigating protein-protein interactions in neuronal signaling for synaptic transmission.
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