Cyanine5叠氮化物

Azides Click chemistry Cyanine5
目录号 数量 价格 提前通知时间
13030 100 uL, 10 mM/DMSO –   现货
33030 500 uL, 10 mM/DMSO $199 现货
43030 1 mL, 10 mM/DMSO $495 现货
A3030 1 mg –   现货
B3030 5 mg $199 现货
C3030 10 mg $297 现货
D3030 25 mg $495 现货
E3030 50 mg $895 现货
F3030 100 mg $1490 现货
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用于 点击化学标记的 Cyanine5 叠氮化物试剂,以10 mM DMSO的溶液或固体形式提供。 该叠氮化物可溶于有机溶剂(例如DMSO、DMF);因此,标记反应应使用少量的有机助溶剂。这种叠氮化物可用于在水和有机溶剂的混合物中标记含炔烃基的生物分子。DMSO溶液可用于生物偶合。该试剂还有水溶性磺化版本。 Cyanine5 是 Cy5® 的类似物,Cy5® 是最常用的荧光团之一,与各种仪器兼容。 Cyanine5 还可用作 DyLight® 649 的替代品。
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BDP FL amine

Amino derivative of BDP FL dye, borondipyrromethene dye for FAM (fluorescein) 488 nm channel.

sulfo-Cyanine5.5 amine

sulfo-Cyanine5.5 is a far-red/NIR fluorophore possessing high hydrophilicity and aqueous solubility. This is an amine derivative that is reactive toward electrophiles. It can also be used for enzymatic transamination labeling.

BDP TR azide

BDP TR is a red-emitting fluorophore for the ROX channel. This is an azide for copper-catalyzed and copper-free сlick chemistry conjugation.

外观:
分子量: 601.22
CAS 编号: 1267539-32-1 (chloride)
分子式: C35H45ClN6O
溶解度:
质量控制:
储存条件:
安全数据表(MSDS): 下载
产品规格

激发/吸收极大值,纳米: 646
ε, 摩尔吸光系数,cm⁻¹: 250000
发射极大值,纳米: 662
荧光量子产率: 0.2
CF260: 0.03
CF280: 0.04

产品引用

  1. Xu, M.J.; Jordan, P.W. SMC5/6 Promotes Replication Fork Stability via Negative Regulation of the COP9 Signalosome. International Journal of Molecular Sciences, 2024, 25(2), 952. doi: 10.3390/ijms25020952
  2. Ramezani, M.; Bauman, J.; Singh, A.; Weisbart, E.; Yong, J.; Lozada, M.; Way, G.P.; Kavari, S.L.; Diaz, C.; Haghighi, M.; Batista, T.M.; Pérez-Schindler, J.; Claussnitzer, M.; Singh, S.; Cimini, B.A.; Blainey, P.C.; Carpenter, A.E.; Jan, C.H.; Neal, J.T. A genome-wide atlas of human cell morphology. bioRxiv, 2023. doi: 10.1101/2023.08.06.552164
  3. Tsuchiya, M.; Tachibana, N.; Hamachi, I. Flow cytometric analysis of phosphatidylcholine metabolism using organelle-selective click labeling. STAR Protocols, 2023, 4(3), 102525. doi: 10.1016/j.xpro.2023.102525
  4. Zhao, Y.; Miranda Herrera, P. A.; Chang, D.; Hamelin, R.; Long, M. J. C.; Aye, Y. Function-Guided Proximity Mapping Unveils Electrophilic-Metabolite Sensing by Proteins Not Present in Their Canonical Locales. Proc. Natl. Acad. Sci. U.S.A., 2022, 119(5), e2120687119. doi: 10.1073/pnas.2120687119
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