- Products
- Reactive dyes
- Dye NHS esters
- Cyanine3.5 NHS ester
Cyanine3.5 NHS ester
货号 | 规格 | 价格 | 货期 |
---|---|---|---|
12020 | 1 mg | 110.00$ | in stock |
22020 | 5 mg | 210.00$ | in stock |
42020 | 25 mg | 410.00$ | 5 days |
52020 | 50 mg | 695.00$ | in stock |
62020 | 100 mg | 1190.00$ | in stock |
Cyanine3.5 NHS ester (an analog of Cy3.5® NHS ester) is a reactive dye for the labeling of amino-groups in peptides, proteins, and oligonucleotides.
Cyanine3.5 NHS ester can replace NHS esters of Cy3.5®, DyLight 594.
Cyanine3.5 NHS 酯(Cy3.5® NHS 酯的类似物)是一种活性染料,用于标记肽、蛋白质和寡核苷酸中的氨基。
Cyanine3.5 NHS 酯可替代 Cy3.5®、DyLight 594 的 NHS 酯。
Cyanine3.5 NHS ester absorbance and emission spectra
Cyanine3.5 NHS ester相关产品
Sulfo-Cyanine5.5 maleimide
Sulfo-Cyanine5.5 is a water-soluble far red emitting dye. This is a thiol reactive maleimide derivative of sulfo-Cyanine5.5. It is recommended for the labeling of sensitive proteins.
Sulfo-Cyanine5.5 是一种水溶性远红发射染料。 这是 sulfo-Cyanine5.5 的硫醇反应性马来酰亚胺衍生物。 推荐用于敏感蛋白的标记。
Cyanine7.5 amine
Near infrared dye Cyanine7.5 with free amino group.
具有游离氨基的近红外染料Cyanine7.5。
ROX azide, 5- isomer
ROX (aka rhodamine X or rhodamine 101) azide for biomolecule labeling through Click Chemistry.
ROX(又名罗丹明 X 或罗丹明 101)叠氮化物,用于通过 Click Chemistry 进行生物分子标记。
General properties
Appearance: | dark purple solid |
Molecular weight: | 741.62 |
CAS number: | 2231670-85-0 |
Molecular formula: | C42H44N3BF4O4 |
Solubility: | soluble in organic solvents (DMF, DMSO, dichloromethane), insoluble in water |
Quality control: | NMR 1H and 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 |
Product specifications |
Spectral properties
Excitation/absorption maximum, nm: | 591 |
ε, L⋅mol−1⋅cm−1: | 116000 |
Emission maximum, nm: | 604 |
Fluorescence quantum yield: | 0.35 |
CF260: | 0.29 |
CF280: | 0.22 |
相关文献:
- Lee, S.A.; Biteen, J.S. Spectral Reshaping of Single Dye Molecules Coupled to Single Plasmonic Nanoparticles. Journal of Physical Chemistry Letters, 2019, 10, 5764–5769. doi: 10.1021/acs.jpclett.9b02480
- Kravchuk, O.I.; Lyupina, Y.V.; Erokhov, P.A.; Finoshin, A.D.; Adameyko, K.I.; Mishyna, M.Y.; Moiseenko, A.V.; Sokolova, O.S.; Orlova, O.V.; Beljelarskaya, S.N.; Serebryakova, M.V.; Indeykina, M.I.; Bugrova, A.E.; Kononikhin, A.S.; Mikhailov, V.S. Characterization of the 20S proteasome of the lepidopteran, Spodoptera frugiperda. Biochimica et Biophysica Acta – Proteins and Proteomics, 2019, 1867(9), 840–853. doi: 10.1016/j.bbapap.2019.06.010
- Wang, C.; Niederstrasser, H.; Douglas, P.M.; Lin, R.; Jaramillo, J.; Li, Y.; Olswald, N.W.; Zhou, A.; McMillan, E.A.; Mendiratta, S.; Wang, Z.; Zhao, T.; Lin, Z.; Luo, M.; Huang, G.; Brekken, R.A.; Posner, B.A.; MacMillan, J.B.; Gao, J.; White, M.A. Small-molecule TFEB pathway agonists that ameliorate metabolic syndrome in mice and extend C. elegans lifespan. Nature Communications, 2017, 8, 2270. doi: 10.1038/s41467-017-02332-3
- Massey, M.; Kim, H.; Conroy, E.M.; Algar, W.R. Expanded Quantum Dot-Based Concentric Förster Resonance Energy Transfer: Adding and Characterizing Energy-Transfer Pathways for Triply Multiplexed Biosensing. The Journal of Physical Chemistry C, 2017, 121(24), 13345–13356. doi: 10.1021/acs.jpcc.7b02739