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ReadiCleave™ iFluor 700 AML-NHS ester
Ordering information
| Price | |
| Catalog Number | |
| Unit Size | |
| Quantity |
Additional ordering information
| Telephone | 1-800-990-8053 |
| Fax | 1-800-609-2943 |
| sales@aatbio.com | |
| International | See distributors |
| Bulk request | Inquire |
| Custom size | Inquire |
| Shipping | Standard overnight for United States, inquire for international |
Physical properties
| Molecular weight | 1326.51 |
| Solvent | DMSO |
Spectral properties
| Correction Factor (260 nm) | 0.09 |
| Correction Factor (280 nm) | 0.04 |
| Correction Factor (565 nm) | 0.0766 |
| Correction Factor (650 nm) | 0.4004 |
| Extinction coefficient (cm -1 M -1) | 2200001 |
| Excitation (nm) | 690 |
| Emission (nm) | 713 |
| Quantum yield | 0.231 |
Storage, safety and handling
| H-phrase | H303, H313, H333 |
| Hazard symbol | XN |
| Intended use | Research Use Only (RUO) |
| R-phrase | R20, R21, R22 |
| Storage | Freeze (< -15 °C); Minimize light exposure |
| UNSPSC | 12171501 |
Related products
| Overview |  SDSProtocol |
Molecular weight 1326.51 | Correction Factor (260 nm) 0.09 | Correction Factor (280 nm) 0.04 | Correction Factor (565 nm) 0.0766 | Correction Factor (650 nm) 0.4004 | Extinction coefficient (cm -1 M -1) 2200001 | Excitation (nm) 690 | Emission (nm) 713 | Quantum yield 0.231 |
Fluorescence-based methods have many advantages for biological detections in terms of sensitivity and convenience. Many biological molecules can be readily labeled with a fluorescent tag for fluorescence imaging and flow cytometry analysis. However, most of the existing fluorescent tags are used to permanently labeling biological targets from which the added fluorescent tags cannot be cleaved for further downstream analysis, such as mass spectral analysis. AAT Bioquest’s ReadiCleave™ linkers enable fluorescent tags conjugated to a biological target from which the added fluorescent tag can be removed when needed. This ReadiCleave™ AML iFluor® 700 contains an azidomethyl linker that can be cleaved with TCEP to remove the iFluor® 700 fluorophore from the target molecule. The cleavage can be carried out by adding 10 mM TCEP solution (pH 7.5), and incubating at 65 °C for 1-5 min. iFluor® 700 is a superior replacement to Alexa Fluor® 700. iFluor® 700 and Alexa Fluor® 700 have very similar spectral properties.
Calculators
Common stock solution preparation
Table 1. Volume of DMSO needed to reconstitute specific mass of ReadiCleave™ iFluor 700 AML-NHS ester to given concentration. Note that volume is only for preparing stock solution. Refer to sample experimental protocol for appropriate experimental/physiological buffers.
| 0.1 mg | 0.5 mg | 1 mg | 5 mg | 10 mg | |
| 1 mM | 75.386 µL | 376.929 µL | 753.858 µL | 3.769 mL | 7.539 mL |
| 5 mM | 15.077 µL | 75.386 µL | 150.772 µL | 753.858 µL | 1.508 mL |
| 10 mM | 7.539 µL | 37.693 µL | 75.386 µL | 376.929 µL | 753.858 µL |
Molarity calculator
Enter any two values (mass, volume, concentration) to calculate the third.
| Mass (Calculate) | Molecular weight | Volume (Calculate) | Concentration (Calculate) | Moles | ||||
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Spectrum
Open in Advanced Spectrum Viewer
Spectral properties
| Correction Factor (260 nm) | 0.09 |
| Correction Factor (280 nm) | 0.04 |
| Correction Factor (565 nm) | 0.0766 |
| Correction Factor (650 nm) | 0.4004 |
| Extinction coefficient (cm -1 M -1) | 2200001 |
| Excitation (nm) | 690 |
| Emission (nm) | 713 |
| Quantum yield | 0.231 |
Product Family
| Name | Excitation (nm) | Emission (nm) | Extinction coefficient (cm -1 M -1) | Quantum yield | Correction Factor (260 nm) | Correction Factor (280 nm) |
| ReadiCleave™ iFluor 488 AML-NHS ester | 491 | 516 | 750001 | 0.91 | 0.21 | 0.11 |
| ReadiCleave™ iFluor 546 AML-NHS ester | 541 | 557 | 1000001 | 0.671 | 0.25 | 0.15 |
| ReadiCleave™ iFluor 594 AML-NHS ester | 587 | 603 | 2000001 | 0.531 | 0.05 | 0.04 |
Images
Figure 1. Chemical structure for ReadiCleave™ iFluor 700 AML-NHS ester.
References
View all 8 references: Citation Explorer
Multiplexed non-invasive tumor imaging of glucose metabolism and receptor-ligand engagement using dark quencher FRET acceptor.
Authors: Rudkouskaya, Alena and Sinsuebphon, Nattawut and Ochoa, Marien and Chen, Sez-Jade and Mazurkiewicz, Joseph E and Intes, Xavier and Barroso, Margarida
Journal: Theranostics (2020): 10309-10325
Authors: Rudkouskaya, Alena and Sinsuebphon, Nattawut and Ochoa, Marien and Chen, Sez-Jade and Mazurkiewicz, Joseph E and Intes, Xavier and Barroso, Margarida
Journal: Theranostics (2020): 10309-10325
Performance of optoacoustic and fluorescence imaging in detecting deep-seated fluorescent agents.
Authors: Chen, Zhenyue and Deán-Ben, Xosé Luís and Gottschalk, Sven and Razansky, Daniel
Journal: Biomedical optics express (2018): 2229-2239
Authors: Chen, Zhenyue and Deán-Ben, Xosé Luís and Gottschalk, Sven and Razansky, Daniel
Journal: Biomedical optics express (2018): 2229-2239
An enzymatically-sensitized sequential and concentric energy transfer relay self-assembled around semiconductor quantum dots.
Authors: Samanta, Anirban and Walper, Scott A and Susumu, Kimihiro and Dwyer, Chris L and Medintz, Igor L
Journal: Nanoscale (2015): 7603-14
Authors: Samanta, Anirban and Walper, Scott A and Susumu, Kimihiro and Dwyer, Chris L and Medintz, Igor L
Journal: Nanoscale (2015): 7603-14
Noninvasive and quantitative assessment of in vivo fetomaternal interface angiogenesis using RGD-based fluorescence.
Authors: Keramidas, M and Lavaud, J and Sergent, F and Hoffmann, P and Brouillet, S and Feige, J-J and Coll, J-L and Alfaidy, N
Journal: BioMed research international (2014): 309082
Authors: Keramidas, M and Lavaud, J and Sergent, F and Hoffmann, P and Brouillet, S and Feige, J-J and Coll, J-L and Alfaidy, N
Journal: BioMed research international (2014): 309082
Multicolor detection of rare tumor cells in blood using a novel flow cytometry-based system.
Authors: Watanabe, Masaru and Uehara, Yuri and Yamashita, Namiko and Fujimura, Yuu and Nishio, Kaori and Sawada, Takeshi and Takeda, Kazuo and Koizumi, Fumiaki and Koh, Yasuhiro
Journal: Cytometry. Part A : the journal of the International Society for Analytical Cytology (2014): 206-13
Authors: Watanabe, Masaru and Uehara, Yuri and Yamashita, Namiko and Fujimura, Yuu and Nishio, Kaori and Sawada, Takeshi and Takeda, Kazuo and Koizumi, Fumiaki and Koh, Yasuhiro
Journal: Cytometry. Part A : the journal of the International Society for Analytical Cytology (2014): 206-13
Intraoperative near-infrared image-guided surgery for peritoneal carcinomatosis in a preclinical experimental model.
Authors: Keramidas, M and Josserand, V and Righini, C A and Wenk, C and Faure, C and Coll, J L
Journal: The British journal of surgery (2010): 737-43
Authors: Keramidas, M and Josserand, V and Righini, C A and Wenk, C and Faure, C and Coll, J L
Journal: The British journal of surgery (2010): 737-43
Homogeneous TR-FRET high-throughput screening assay for calcium-dependent multimerization of sorcin.
Authors: Appelblom, Heidi and Nurmi, Jussi and Soukka, Tero and Pasternack, Michael and Penttilä, Kai E and Lövgren, Timo and Niemelä, Pauliina
Journal: Journal of biomolecular screening (2007): 842-8
Authors: Appelblom, Heidi and Nurmi, Jussi and Soukka, Tero and Pasternack, Michael and Penttilä, Kai E and Lövgren, Timo and Niemelä, Pauliina
Journal: Journal of biomolecular screening (2007): 842-8
Analysis of hollow-core photonic bandgap fibers for evanescent wave biosensing.
Authors: Sun, Jian and Chan, Chi-Chiu and Zhang, Yi-Fan and Shum, Ping
Journal: Journal of biomedical optics : 054048
Authors: Sun, Jian and Chan, Chi-Chiu and Zhang, Yi-Fan and Shum, Ping
Journal: Journal of biomedical optics : 054048