Dexamethasone Fluorescein
Dexamethasone Fluorescein
Citações e referências (2)
Invitrogen™

Dexamethasone Fluorescein

The synthetic steroid hormone dexamethasone binds to the glucocorticoid receptor, producing a steroid-receptor complex that then localizes in the nucleusLeia mais
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Número do catálogoQuantity
D13835 mg
Número do catálogo D1383
Preço (BRL)
1.587,89
Each
Adicionar ao carrinho
Quantity:
5 mg
Preço (BRL)
1.587,89
Each
Adicionar ao carrinho

The synthetic steroid hormone dexamethasone binds to the glucocorticoid receptor, producing a steroid-receptor complex that then localizes in the nucleus and regulates gene transcription. The green fluorescent analog, fluorescein dexamethasone should be useful for studying the mechanism of glucocorticoid receptor activation, although at a slower rate than unmodified dexamethasone.

For stock concentrations up to 1 mM, DMF or aqueous buffers above pH 6 are recommended as diluent. Stock solutions can be stored as single-use aliquots, protected from light at -20°C.

For Research Use Only. Not for use in diagnostic procedures.
Especificações
Excitation/Emission494/519 nm
Label TypeClassic Dyes
Molecular FormulaC45H45FN2O9S2
Molecular Weight (g/mol)840.98
Quantity5 mg
Recommended StorageStore at room temperature and protect from light.
Shipping ConditionRoom Temperature
Physical FormSolid
Product TypeDexamethasone Fluorescein
Unit SizeEach

Citações e referências (2)

Citações e referências
Abstract
A high-throughput fluorescent polarization assay for nuclear receptor binding utilizing crude receptor extract.
Authors:Lin S, Bock CL, Gardner DB, Webster JC, Favata MF, Trzaskos JM, Oldenburg KR
Journal:Anal Biochem
PubMed ID:11743686
'A homogenous high-throughput assay has been developed to measure the binding between nuclear receptors and test compounds. This assay applies a fluorescence polarization (FP) detection method using human glucocorticoid receptor (GR) as a model system. Crude receptor extract, which requires no additional purification, is used in the assay. The binding ... More
Hindlimb heating increases vascular access of large molecules to murine tibial growth plates measured by in vivo multiphoton imaging.
Authors:
Journal:J Appl Physiol (1985)
PubMed ID:24371019