sulfo-Cyanine5 azide
目录号 | 数量 | 价格 | 提前通知时间 | 购买此产品 |
---|---|---|---|---|
A3330 | 1 mg | $125 | 现货 | |
B3330 | 5 mg | $325 | 现货 | |
C3330 | 10 mg | $470 | 现货 | |
D3330 | 25 mg | $790 | 现货 | |
E3330 | 50 mg | $1490 | 现货 | |
F3330 | 100 mg | $2590 | 现货 |
Water-soluble Cyanine5 dye azide for click chemistry. Bright and photostable dye with red fluorescence. The reagent has high water solubility. Due to high solubility and hydrophilicity, the dye can be used for labeling biomolecules in native, purely aqueous conditions.
This reagent, instead of competing products, is supplied as an alkaline metal salt, not triethylammonium salt. Therefore, it is a powder that is easy to handle and dispense.
sulfo-Cyanine5 is an analog of Cy5®, a very popular fluorophore; therefore, this reagent is compatible with a wide range of standard fluorescent instrumentation such as imagers, plate readers, and microscopes.
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sulfo-Cyanine5.5 azide
sulfo-Cyanine5.5 azide is a derivative of water-soluble far-red emitting fluorescent cyanine dye. The azide group can be conjugated by either copper-catalyzed or copper-free click chemistry with alkynes and cycloalkynes.花青3羧酸
Cyanine3 染料的羧酸态。非磺化染料,在有机溶剂中有良好的溶解度,但在水中的溶解度有限。Cyanine5 carboxylic acid
Cyanine5 carboxylic acid, unactivated dye.General properties
Appearance: | dark blue crystals |
Molecular weight: | 762.98 |
Molecular formula: | C35H43N6KO7S2 |
Solubility: | very high in water |
Quality control: | NMR 1H, HPLC-MS (95%) |
Storage conditions: | Storage: 24 months after receival at -20°C in the dark. Transportation: at room temperature for up to 3 weeks. Avoid prolonged exposure to light. |
安全数据表(MSDS): | 下载 |
产品规格 |
Spectral properties
Excitation/absorption maximum, nm: | 646 |
ε, L⋅mol−1⋅cm−1: | 271000 |
Emission maximum, nm: | 662 |
Fluorescence quantum yield: | 0.28 |
CF260: | 0.04 |
CF280: | 0.04 |
产品引用
- Kalinina, A.; Dhaliwal, J.; Xue, Y.; Vaculik, M.; McCambley, M.; Fong, B.C.; Cook, D.; Slack, R.S.; Lagace, D.C. Mitotic Activity and DNA Maintenance of Adult Neural Stem Cells is Regulated by Beclin1. bioRxiv, 2024, preprint. doi: 10.1101/2024.01.26.573092
- Rahni, R.; Guillotin, B.; Lee, L.R.; Birnbaum, K.D. A temporal map of division, chromatin modification, and identity specification in the regenerating root. bioRxiv, 2024, preprint. doi: 10.1101/2024.01.09.574680
- Loukas, I.; Simeoni, F.; Milan, M.; Inglese, P.; Patel, H.; Goldstone, R.; East, P.; Strohbuecker, S.; Mitter, R.; Talsania, B.; Tang, W.; Ratcliffe, C. D. H.; Sahai, E.; Shahrezaei, V.; Scaffidi, P. Selective Advantage of Epigenetically Disrupted Cancer Cells via Phenotypic Inertia. Cancer Cell, 2023, 41(1), 70-87.e14. doi: 10.1016/j.ccell.2022.10.002
- Hernández‐Carralero, E.; Cabrera, E.; Rodríguez-Torres, G.; Hernández-Reyes, Y.; Singh, A. N.; Santa-María, C.; Fernández-Justel, J. M.; Janssens, R. C.; Marteijn, J. A.; Evert, B. O.; Mailand, N.; Gómez, M.; Ramadan, K.; Smits, V. A. J.; Freire, R. ATXN3 Controls DNA Replication and Transcription by Regulating Chromatin Structure. Nucleic Acids Research, 2023, 51(11), 5396–5413. doi: 10.1093/nar/gkad212