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iFluor® Ultra 647 succinimidyl ester

HeLa cells were incubated with mouse anti-tubulin followed by AAT&rsquo;s iFluor<sup>TM</sup>&nbsp;Ultra 647 goat anti-mouse IgG conjugate or Alexa Fluor<sup>&reg;</sup>&nbsp;647 goat anti-mouse IgG.
HeLa cells were incubated with mouse anti-tubulin followed by AAT&rsquo;s iFluor<sup>TM</sup>&nbsp;Ultra 647 goat anti-mouse IgG conjugate or Alexa Fluor<sup>&reg;</sup>&nbsp;647 goat anti-mouse IgG.
HeLa cells were incubated with mouse anti-tubulin followed by AAT&rsquo;s iFluor<sup>TM</sup>&nbsp;Ultra 647 goat anti-mouse IgG conjugate or Alexa Fluor<sup>&reg;</sup>&nbsp;647 goat anti-mouse IgG.
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Physical properties
Molecular weight2634.28
SolventDMSO
Spectral properties
Absorbance (nm)654
Correction Factor (260 nm)0.07
Correction Factor (280 nm)0.07
Extinction coefficient (cm -1 M -1)2500001
Excitation (nm)655
Emission (nm)670
Quantum yield0.391
Storage, safety and handling
H-phraseH303, H313, H333
Hazard symbolXN
Intended useResearch Use Only (RUO)
R-phraseR20, R21, R22
StorageFreeze (< -15 °C); Minimize light exposure
UNSPSC12171501
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iFluor® 350 goat anti-rabbit IgG (H+L)
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iFluor® 700 goat anti-rabbit IgG (H+L)
iFluor® 750 goat anti-rabbit IgG (H+L)
iFluor® 790 goat anti-rabbit IgG (H+L)
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iFluor® 488 goat anti-rabbit IgG (H+L) *Cross Adsorbed*
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iFluor® 647 Styramide *Superior Replacement for Alexa Fluor 647 tyramide*
iFluor® 680 Styramide *Superior Replacement for Alexa Fluor 680 tyramide and Opal 690*
iFluor® 700 Styramide *Superior Replacement for Alexa Fluor 700 tyramide*
iFluor® 750 Styramide *Superior Replacement for Alexa Fluor 750 tyramide*
iFluor® 790 Styramide *Superior Replacement for Alexa Fluor 790 tyramide*
iFluor® 555 Tyramide
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iFluor® 350 PSA™ Imaging Kit with Goat Anti-Rabbit IgG
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iFluor®555-PEG12-dUTP *1 mM in Tris Buffer (pH 7.5)*
iFluor®647-PEG12-dUTP *1 mM in Tris Buffer (pH 7.5)*
iFluor® 800 goat anti-mouse IgG (H+L)
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iFluor® 810 goat anti-mouse IgG (H+L)
iFluor® 810 goat anti-mouse IgG (H+L) *Cross Adsorbed*
iFluor® 820 goat anti-mouse IgG (H+L)
iFluor® 820 goat anti-mouse IgG (H+L) *Cross Adsorbed*
iFluor® 840 goat anti-mouse IgG (H+L)
iFluor® 840 goat anti-mouse IgG (H+L) *Cross Adsorbed*
iFluor® 860 goat anti-mouse IgG (H+L)
iFluor® 860 goat anti-mouse IgG (H+L) *Cross Adsorbed*
iFluor® 800 goat anti-rabbit IgG (H+L)
iFluor® 800 goat anti-rabbit IgG (H+L) *Cross Adsorbed*
iFluor® 810 goat anti-rabbit IgG (H+L)
iFluor® 810 goat anti-rabbit IgG (H+L) *Cross Adsorbed*
iFluor® 820 goat anti-rabbit IgG (H+L)
iFluor® 820 goat anti-rabbit IgG (H+L) *Cross Adsorbed*
iFluor® 840 goat anti-rabbit IgG (H+L)
iFluor® 840 goat anti-rabbit IgG (H+L) *Cross Adsorbed*
iFluor® 860 goat anti-rabbit IgG (H+L)
iFluor® 860 goat anti-rabbit IgG (H+L) *Cross Adsorbed*
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iFluor® 450 Tyramide *Superior Replacement for Opal 480*
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iFluor® 647 succinimidyl ester
iFluor® 660 succinimidyl ester
iFluor® 680 succinimidyl ester
iFluor® 700 succinimidyl ester
iFluor® 750 succinimidyl ester
iFluor® 610 succinimidyl ester
iFluor® 710 succinimidyl ester
iFluor® 790 succinimidyl ester
iFluor® 800 succinimidyl ester
iFluor® 810 succinimidyl ester
iFluor® 820 succinimidyl ester
iFluor® 860 succinimidyl ester
iFluor® 546 succinimidyl ester
iFluor® 568 succinimidyl ester
iFluor® 430 succinimidyl ester
iFluor® 450 succinimidyl ester
iFluor® 840 succinimidyl ester
iFluor® 560 succinimidyl ester
iFluor® 670 succinimidyl ester
iFluor® 460 succinimidyl ester
iFluor® 440 succinimidyl ester
iFluor® 665 succinimidyl ester
iFluor® 690 succinimidyl ester
iFluor® 720 succinimidyl ester
iFluor® 740 succinimidyl ester
iFluor® 597 succinimidyl ester
iFluor® 770 succinimidyl ester
iFluor® 780 succinimidyl ester
iFluor® 570 succinimidyl ester
iFluor® 830 acid
iFluor® 830 maleimide
iFluor® 830 succinimidyl ester
iFluor™ 405 azide
iFluor® 514 maleimide
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iFluor® 675 succinimidyl ester
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iFluor® 750-Concanavalin A Conjugate
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iFluor® 350-Wheat Germ Agglutinin (WGA) Conjugate
iFluor® 532-Wheat Germ Agglutinin (WGA) Conjugate
iFluor® 680-Wheat Germ Agglutinin (WGA) Conjugate
iFluor® 700-Wheat Germ Agglutinin (WGA) Conjugate
iFluor® 750-Wheat Germ Agglutinin (WGA) Conjugate
iFluor® 790-Wheat Germ Agglutinin (WGA) Conjugate
iFluor® 570 Styramide *Superior Replacement for Alexa Fluor 568 tyramide*
iFluor® 670 Styramide *Replacement for Opal 690*
iFluor® 445 succinimidyl ester
iFluor® 500 succinimidyl ester
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iFluor™ 790 Azide
iFluor™ 790 Alkyne
iFluor® 720 maleimide
Show More (279)

OverviewpdfSDSpdfProtocol


Molecular weight
2634.28
Absorbance (nm)
654
Correction Factor (260 nm)
0.07
Correction Factor (280 nm)
0.07
Extinction coefficient (cm -1 M -1)
2500001
Excitation (nm)
655
Emission (nm)
670
Quantum yield
0.391
Fluorescent dye-conjugated antibodies provide a tool for identifying proteins in many applications including fluorescent cell imaging, flow cytometry, western blotting, immunohistochemistry and more. The advantages of using a fluorescently labeled antibody include higher sensitivity, multiplexing capabilities, and ease of use. iFluor® Ultra family is a recent upgrade of our popular iFluor® dyes and optimized for labeling antibodies used for fluorescence imaging and flow cytometry applications. Antibody conjugates prepared with iFluor® Ultra 647 are far superior to the conjugates of other existing similar dyes such as Cy5, Dylight 650 and Alexa Fluor® 647. iFluor® Ultra 647 conjugates are significantly brighter than the conjugates prepared with Cy5, Dylight 650 and Alexa Fluor® 647 under the same conditions. Additionally, the fluorescence of iFluor® Ultra 647 is not affected by pH (4-10). iFluor® Ultra 647 SE dye is reasonably stable and shows good reactivity and selectivity with protein amino groups. iFluor® Ultra 647 has spectral properties and reactivity similar to Cy5, Dylight 650 and Alexa Fluor® 647 (Cy5® and Alexa Fluor® is the trademarks of GE Healthcare and ThermoFisher respectively).

Example protocol


PREPARATION OF STOCK SOLUTIONS

Unless otherwise noted, all unused stock solutions should be divided into single-use aliquots and stored at -20 °C after preparation. Avoid repeated freeze-thaw cycles.

1. Protein stock solution (Solution A)
Mix 100 µL of a reaction buffer (e.g., 1 M  sodium carbonate solution or 1 M phosphate buffer with pH ~8.5) with 900 µL of the target protein solution (e.g. antibody, protein concentration >2 mg/mL if possible) to give 1 mL protein labeling stock solution.
Note     The pH of the protein solution (Solution A) should be 8.5 ± 0.5. If the pH of the protein solution is lower than 8.0, adjust the pH to the range of 8.0-9.0 using 1 M  sodium bicarbonate solution or 1 M pH 9.0 phosphate buffer.
Note     The protein should be dissolved in 1X phosphate buffered saline (PBS), pH 7.2-7.4. If the protein is dissolved in Tris or glycine buffer, it must be dialyzed against 1X PBS, pH 7.2-7.4, to remove free amines or ammonium salts (such as ammonium sulfate and ammonium acetate) that are widely used for protein precipitation.
Note     Impure antibodies or antibodies stabilized with bovine serum albumin (BSA) or gelatin will not be labeled well. The presence of sodium azide or thimerosal might also interfere with the conjugation reaction. Sodium azide or thimerosal can be removed by dialysis or spin column for optimal labeling results.
Note     The conjugation efficiency is significantly reduced if the protein concentration is less than 2 mg/mL. For optimal labeling efficiency the final protein concentration range of 2-10 mg/mL is recommended.


2. iFluor™ Ultra 647 SE stock solution (Solution B)
Add 100 µL high-quality, anhydrous dimethylsulfoxide (DMSO) or dimethyl-formamide (DMF) to 1 mg iFluor™ Ultra 647 SE to prepare 10 mg/mL stock solution. Mix well by pipetting or vortex.
Note     Prepare the dye stock solution (Solution B) before starting the conjugation. Use promptly. Extended storage of the dye stock solution may reduce the dye activity. Solution B can be stored in freezer for two weeks when kept from light and moisture. Avoid freeze-thaw cycles.
Note     Once reconstituted, the NHS ester reactive dye solution is not very stable, especially if exposed to moisture. It could hydrolyze into the nonreactive free acid in aqueous solutions.

SAMPLE EXPERIMENTAL PROTOCOL

This labeling protocol was developed for the conjugate of Goat anti-mouse IgG with iFluor™ Ultra 647 SE. You might need further optimization for your particular proteins.
Note     Each protein requires distinct dye/protein ratio, which also depends on the properties of dyes. Over labeling of a protein could detrimentally affects its binding affinity while the protein conjugates of low dye/protein ratio gives reduced sensitivity.


Run conjugation reaction
  1. Use 6-10 molar ratio of Solution B (dye)/Solution A (protein) as the starting point:  Add 5 µL of the dye stock solution (Solution B, assuming the dye stock solution is 10 mM) into the vial of the protein solution (95 µL of Solution A) with effective shaking.
    Note     We recommend to use 10:1 molar ratio of Solution B (dye)/Solution A (protein). If it is too less or too high, determine the optimal dye/protein ratio at 5:1, 15:1 and 20:1 respectively.
  2. Continue to rotate or shake the reaction mixture at room temperature for 30-60 minutes. 

Purify the conjugation
The following protocol is an example of dye-protein conjugate purification with 15 mL MWCO=30K filter (https://www.emdmillipore.com/US/en/product/Amicon-Ultra-4-Centrifugal-Filter-Units,MM_NF-C7719)
  1. Prepare column according to the manufacture instruction.
  2. Load the reaction mixture (From "Run conjugation reaction") to the top of the column.
  3. Add  4 mL of PBS (pH 7.2-7.4) as soon as the sample runs.
  4. Centrifuge to concentrate to ~0.4 mL.
  5. Add 4 mL PBS and then concentrate to ~0.4 mL.
  6. Repeat ~3 times, until the elution absorbance at 650 nm < 0.1.
  7. Collect the purified Antibody-iFluor™Ultra 647 conjugate solution. 

Calculators


Common stock solution preparation

Table 1. Volume of DMSO needed to reconstitute specific mass of iFluor® Ultra 647 succinimidyl 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 mg0.5 mg1 mg5 mg10 mg
1 mM37.961 µL189.805 µL379.61 µL1.898 mL3.796 mL
5 mM7.592 µL37.961 µL75.922 µL379.61 µL759.221 µL
10 mM3.796 µL18.981 µL37.961 µL189.805 µL379.61 µL

Molarity calculator

Enter any two values (mass, volume, concentration) to calculate the third.

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Spectrum


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spectrum

Spectral properties

Absorbance (nm)654
Correction Factor (260 nm)0.07
Correction Factor (280 nm)0.07
Extinction coefficient (cm -1 M -1)2500001
Excitation (nm)655
Emission (nm)670
Quantum yield0.391

Product Family


NameExcitation (nm)Emission (nm)Extinction coefficient (cm -1 M -1)Quantum yieldCorrection Factor (260 nm)Correction Factor (280 nm)
iFluor® Ultra 594 succinimidyl ester58660118000010.9110.070.05
iFluor® Ultra 750 succinimidyl ester74977325000010.3210.040.05

Images


Citations


View all 5 citations: Citation Explorer
Site-specific labeling and functional efficiencies of human fibroblast growth Factor-1 with a range of fluorescent Dyes in the flexible N-Terminal region and a rigid $\beta$-turn region
Authors: Mohale, Mamello and Gundampati, Ravi Kumar and Kumar, Thallapuranam Krishnaswamy Suresh and Heyes, Colin D
Journal: Analytical biochemistry (2022): 114524
SP/NK-1R Axis Promotes Perineural Invasion of Pancreatic Cancer and is Affected by lncRNA LOC389641
Authors: Ji, Tengfei and Ma, Keqiang and Wu, Hongsheng and Cao, Tiansheng
Journal: (2021)
Efferocytosis induces macrophage proliferation to help resolve tissue injury
Authors: Gerlach, Brennan D and Ampomah, Patrick B and Yurdagul Jr, Arif and Liu, Chuang and Lauring, Max C and Wang, Xiaobo and Kasikara, Canan and Kong, Na and Shi, Jinjun and Tao, Wei and others,
Journal: Cell metabolism (2021): 2445--2463
Pharmacological targeting of Sam68 functions in colorectal cancer stem cells
Authors: Masibag, Angelique N and Bergin, Christopher J and Haebe, Joshua R and Zouggar, A{\"\i}cha and Shah, Muhammad S and Sandouka, Tamara and da Silva, Amanda Mendes and Desrochers, Fran{\c{c}}ois M and Fournier-Morin, Aube and Benoit, Yannick D
Journal: Iscience (2021): 103442
Influence of particle geometry on gastrointestinal transit and absorption following oral administration
Authors: Li, Dong and Zhuang, Jie and He, Haisheng and Jiang, Sifan and Banerjee, Amrita and Lu, Yi and Wu, Wei and Mitragotri, Samir and Gan, Li and Qi, Jianping
Journal: ACS applied materials \& interfaces (2017): 42492--42502

References


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Comparison of separation modes for microchip electrophoresis of proteins.
Authors: Samarasinghe, Thushara N and Zeng, Yong and Johnson, Carey K
Journal: Journal of separation science (2021): 744-751
Small molecule microarray identifies inhibitors of tyrosyl-DNA phosphodiesterase 1 that simultaneously access the catalytic pocket and two substrate binding sites.
Authors: Zhao, Xue Zhi and Kiselev, Evgeny and Lountos, George T and Wang, Wenjie and Tropea, Joseph E and Needle, Danielle and Hilimire, Thomas A and Schneekloth, John S and Waugh, David S and Pommier, Yves and Burke, Terrence R
Journal: Chemical science (2021): 3876-3884
Investigating Single-Molecule Fluorescence Spectral Heterogeneity of Rhodamines Using High-Throughput Single-Molecule Spectroscopy.
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Targeted volumetric single-molecule localization microscopy of defined presynaptic structures in brain sections.
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Journal: Communications biology (2021): 407
Intravital Imaging of Circulating Red Blood Cells in the Retinal Vasculature of Growing Mice.
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A Combined Immunofluorescence and Fluorescent Viability Cocktail Staining Procedure for Rapid Microscopic Detection and Enumeration of Live Legionella pneumophila.
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Multimodality labeling of NGR-functionalized hyaluronan for tumor targeting and radiotherapy.
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Molecular and Spectroscopic Characterization of Green and Red Cyanine Fluorophores from the Alexa Fluor and AF Series*.
Authors: Gebhardt, Christian and Lehmann, Martin and Reif, Maria M and Zacharias, Martin and Gemmecker, Gerd and Cordes, Thorben
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SMALL MOLECULE IMAGING AGENT FOR MUTANT KRAS G12C.
Authors: Koch, Peter D and Quintana, Jeremy and Ahmed, Maaz and Kohler, Rainer H and Weissleder, Ralph
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Effect of membrane potential on entry of lactoferricin B-derived 6-residue antimicrobial peptide into single Escherichia coli cells and lipid vesicles.
Authors: Hossain, Farzana and Dohra, Hideo and Yamazaki, Masahito
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