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Chemodex
Acridine orange 10-nonyl bromide
150
CHF
CHF 150.00
In stock
CDX-A0103-M100100 mgCHF 150.00
| Product Details | |
|---|---|
| Synonyms | 10-Nonylacridine orange bromide; 3,6-Bis(dimethylamino)-10-nonylacridinium bromide; 10-nonyl Acridine Orange; NAO |
| Product Type | Chemical |
| Properties | |
| Formula |
C26H38BrN3 |
| MW | 472.5 |
| CAS | 75168-11-5 |
| Source/Host Chemicals | Synthetic. |
| Purity Chemicals | ≥90% (HPLC) |
| Appearance | Dark red powder. |
| Solubility | Soluble in DMF, ethanol, DMSO or methanol. |
| Identity | Determined by 1H-NMR. |
| Declaration | Manufactured by Chemodex. |
| Other Product Data |
Click here for Original Manufacturer Product Datasheet |
| InChi Key | DRBHTUDHPPBMCD-UHFFFAOYSA-M |
| Smiles | CN(C)C1=CC2=[N+](CCCCCCCCC)C3=CC(N(C)C)=CC=C3C=C2C=C1.[Br-] |
| Shipping and Handling | |
| Shipping | AMBIENT |
| Short Term Storage | +20°C |
| Long Term Storage | +4°C |
| Handling Advice | Protect from light and moisture. |
| Use/Stability | Stable for at least 2 years after receipt when stored at +4°C. |
| Documents | |
| MSDS | Inquire |
| Product Specification Sheet | |
| Datasheet |
 Download PDF |
Description
Acridine orange 10-nonyl is a green fluorescent mitochondrial dye. The dye incorporates into the cardiolipin-rich inner mitochondrial membrane. Acridine orange 10-nonyl has been used to study multidrug resistance and to measure changes in mitochondrial mass during apoptosis. Acridine orange 10-nonyl has been used to quantify cardiolipin content and mitochondrial mass in isolated mitochondria and cellular systems. Spectral Data: λEx/λEm (MeOH) = 495/522nm.
Product References
(1) M.H. Ratinaud, et al.; Cytometry 9, 206 (1988) | (2) A. Maftah, et al.; FEBS Letters 260, 236 (1990) | (3) D. Kessel, et al.; Cancer Res. 51, 4665 (1991) | (4) J.M. Petit, et al.; Eur. J. Biochem. 209, 267 (1992) | (5) A. Cossarizza, et al.; Exp. Cell Res. 214, 323 (1994) | (6) E. Mileykovskaya & W. Dowhan; J. Bacteriol. 182, 1172 (2000) | (7) J.F. Keij, et al.; Cytometry 39, 203 (2000) | (8) J. Jacobson, et al.; J. Neurochem. 82, 224 (2002) | (9) M.I. Garcia Fernandez, et al., Anal. Biochem. 328, 174 (2004)