Cyanine7 NHS ester
| Cat. # | Quantity | Price | Lead time | Buy this product |
|---|---|---|---|---|
| 15020 | 1 mg | $110.00 | in stock | |
| 25020 | 5 mg | $210.00 | 7 days | |
| 45020 | 25 mg |
$410.00
|
in stock | |
| 55020 | 50 mg |
$695.00
|
5 days | |
| 65020 | 100 mg |
$1190.00
|
in stock |
Amine reactive Cyanine7, near infrared fluorescent dye, an improved analog of Cy7®.
NIR fluorophores can be used to take advantage of near infrared window of biological tissues - increased transparency of tissues in this spectral region allows to carry out in vivo imaging.
This reagent can be utilized to produce Cyanine7-labeled biomolecules for subsequent use in various in vivo research, and drug design related experiments.
The structure of Cyanine7 features rigidized design of central polymethyne chain. This molecular reinforcement allows to increase quantum yield by 20% compared with parent structure, increasing fluorescence brightness.
This reagent requires organic co-solvent for the labeling (please see Recommended Protocols section below). Water-soluble Cyanine7 NHS ester is also available, and recommended for protein NIR labeling.
Cy7 absorbance and emission spectra
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BDP 581/591 azide
BDP 581/591 is a relatively hydrophobic borondipyrromethene fluorophore that can be used as a probe for ROS species, or fluorescence polarization tracer. This is an azide derivative for Click chemistry.General properties
| Appearance: | dark green solid |
| Molecular weight: | 733.64 |
| CAS number: | 1432019-64-1 |
| Molecular formula: | C41H48N3BF4O4 |
| IUPAC name: | 1‐{6‐[(2,5‐dioxopyrrolidin‐1‐yl)oxy]‐6‐oxohexyl}‐ 3,3‐dimethyl‐2‐[(E)‐2‐[(3E)‐3‐{2‐[(2E)‐1,3,3‐ trimethyl‐2,3‐dihydro‐1H‐indol‐2‐ ylidene]ethylidene}cyclohex‐1‐en‐1‐yl]ethenyl]‐3H‐ indol‐1‐ium tetrafluoroborate |
| Solubility: | soluble in organic solvents (DMSO, DMF, dichloromethane), low solubility in water |
| Quality control: | NMR 1H, HPLC-MS (95%) |
| Storage conditions: | Storage: 12 months after receival at -20°C in the dark. Transportation: at room temperature for up to 3 weeks. Avoid prolonged exposure to light. Desiccate. |
| MSDS: | Download |
Spectral properties
| Excitation maximum, nm: | 750 |
| ε, L⋅mol−1⋅cm−1: | 199000 |
| Emission maximum, nm: | 773 |
| Fluorescence quantum yield: | 0.3 |
| CF260: | 0.022 |
| CF280: | 0.029 |
Product citations
- Li, W.; Li, Y.; Liu, Z.; Kerdsakundee, N.; Zhang, M.; Zhang, F.; Liu, X.; Bauleth-Ramos, T.; Lian, W.; Mäkilä, E.; Kemell, M.; Ding, Y.; Sarmento, B.; Wiwattanapatapee, R.; Salonen, J.; Zhang, H.; Hirvonen, J.T.; Liu, D.; Deng, X.; Santos, H.A. Hierarchical structured and programmed vehicles deliver drugs locally to inflamed sites of intestine. Biomaterials, 2018, 185, 322–332. doi: 10.1016/j.biomaterials.2018.09.024
- Besford, Q.A.; Ju, Y.; Wang, T.-Y.; Yun, G.; Cherepanov, P.V.; Hagemeyer, C.E.; Cavalieri, F.; Caruso, F. Self-Assembled Metal-Phenolic Networks on Emulsions as Low-Fouling and pH-Responsive Particles. Small, 2018, 14(39), e1802342. doi: 10.1002/smll.201802342
- Etrych, T.; Daumová, L.; Pokorná, E.; Tušková, D.; Lidický, O.; Kolářová, V.; Pankrác, J.; Šefc, L.; Chytil, P.; Klener, P. Effective doxorubicin-based nano-therapeutics for simultaneous malignant lymphoma treatment and lymphoma growth imaging. Journal of Controlled Release, 2018, 289, 44–55. doi: 10.1016/j.jconrel.2018.09.018
- Bonnard, T.; Jayapadman, A.; Putri, J.A.; Cui, J.; Ju, Y.; Carmichael, C.; Angelovich, T.A.; Cody, S.H.; French, S.; Pascaud, K.; Pearce, H.A.; Jagdale, S.; Caruso, F.; Hagemeyer, C.E. Low-Fouling and Biodegradable Protein-Based Particles for Thrombus Imaging. ACS Nano, 2018, 12(7), 6988–6996. doi: 10.1021/acsnano.8b02588
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