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AAT Bioquest

ICG Xtra-OSu

Indocyanine green (ICG) is a cyanine dye used in medical diagnostics. It is used for determining cardiac output, hepatic function, and liver blood flow, and for ophthalmic angiography. It has a peak spectral absorption at about 800 nm. These infrared frequencies penetrate retinal layers, allowing ICG angiography to image deeper patterns of circulation than fluorescein angiography. ICG binds tightly to plasma proteins and becomes confined to the vascular system. ICG has a half-life of 150 to 180 seconds and is removed from circulation exclusively by the liver to bile juice. AAT Bioquest offers a variety of ICG derivatives for preparing ICG bioconjugates. Among them the two most popular ones are ICG-Sulfo-OSu and ICG-OSu, which generate the identical bioconjugates upon reacting with biomolecules containing amino groups. However, some of our customers and our scientists found that the antibody conjugates from the reactions of ICG-Sulfo-OSu and ICG-OSu are extremely difficult to be separated from the ICG acid resulted from the spontaneous hydrolysis of ICG-Sulfo-OSu and ICG-OSu. ICG Xtra-OSu has been developed to address this problem. It has comparable binding properties to plasma proteins. The antibody conjugates from the reactions of ICG Xtra-OSu can be readily separated from the ICG Xtra acid by a simple desalting column or SEC columns, making the ICG Xtra-OSu conjugations much more robust and easier to perform. In addition, ICG Xtra conjugates have much better water solubility than the corresponding ICG conjugate, making ICG Xtra a superior replacement for ICG for preparing the conjugates with hydrophobic antibodies.

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 ~9.0) 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. ICG Xtra-OSu stock solution (Solution B)
Add anhydrous DMSO into the vial of ICG Xtra-OSu to make a 10 mM 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.

SAMPLE EXPERIMENTAL PROTOCOL

This labeling protocol was developed for the conjugate of Goat anti-mouse IgG with ICG Xtra-OSu. 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 10:1 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. The concentration of the protein is ~0.05 mM assuming the protein concentration is 10 mg/mL and the molecular weight of the protein is ~200KD. 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 by using a Sephadex G-25 column.
  1. Prepare Sephadex G-25 column according to the manufacture instruction.
  2. Load the reaction mixture (From "Run conjugation reaction") to the top of the Sephadex G-25 column.
  3. Add PBS (pH 7.2-7.4) as soon as the sample runs just below the top resin surface.
  4. Add more PBS (pH 7.2-7.4) to the desired sample to complete the column purification. Combine the fractions that contain the desired dye-protein conjugate. Note: For immediate use, the dye-protein conjugate need be diluted with staining buffer, and aliquoted for multiple uses. Note: For longer term storage, dye-protein conjugate solution need be concentrated or freeze dried. 

Calculators

Common stock solution preparation

Table 1. Volume of DMSO needed to reconstitute specific mass of ICG Xtra-OSu 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 mM81.128 µL405.64 µL811.28 µL4.056 mL8.113 mL
5 mM16.226 µL81.128 µL162.256 µL811.28 µL1.623 mL
10 mM8.113 µL40.564 µL81.128 µL405.64 µL811.28 µL

Molarity calculator

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

Mass (Calculate)Molecular weightVolume (Calculate)Concentration (Calculate)Moles
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Spectrum

Product family

NameExcitation (nm)Emission (nm)Extinction coefficient (cm -1 M -1)Correction Factor (280 nm)
ICG-Sulfo-OSu7898132300000.076
ICG-PEG12-OSu7898132300000.076

Citations

View all 5 citations: Citation Explorer
Comparison of Near-Infrared Imaging Agents Targeting the PTPmu Tumor Biomarker
Authors: Johansen, Mette L and Vincent, Jason and Rose, Marissa and Sloan, Andrew E and Brady-Kalnay, Susann M
Journal: Molecular Imaging and Biology (2023): 1--14
Assessment of Lexiscan for Blood Brain Barrier disruption to facilitate Fluorescence brain imaging
Authors: Pak, Rebecca W and Le, Hanh and Valentine, Heather and Thorek, Daniel and Rahmim, Arman and Wong, Dean and Kang, Jin U
Journal: (2017): ATu3B--2
Bioengineering of injectable encapsulated aggregates of pluripotent stem cells for therapy of myocardial infarction
Authors: Zhao, Shuting and Xu, Zhaobin and Wang, Hai and Reese, Benjamin E and Gushchina, Liubov V and Jiang, Meng and Agarwal, Pranay and Xu, Jiangsheng and Zhang, Mingjun and Shen, Rulong and others, undefined
Journal: Nature Communications (2016): 13306
Single-Layer MoS2 Nanosheets with Amplified Photoacoustic Effect for Highly Sensitive Photoacoustic Imaging of Orthotopic Brain Tumors
Authors: Chen, Jingqin and Liu, Chengbo and Hu, Dehong and Wang, Feng and Wu, Haiwei and Gong, Xiaojing and Liu, Xin and Song, Liang and Sheng, Zonghai and Zheng, Hairong
Journal: Advanced Functional Materials (2016)
Deep Photoacoustic/Luminescence/Magnetic Resonance Multimodal Imaging in Living Subjects Using High-Efficiency Upconversion Nanocomposites
Authors: Liu, Yu and Kang, Ning and Lv, Jing and Zhou, Zijian and Zhao, Qingliang and Ma, Lingceng and Chen, Zhong and Ren, Lei and Nie, Liming
Journal: Advanced Materials (2016)

References

View all 193 references: Citation Explorer
Sentinel lymph node biopsy using intraoperative indocyanine green fluorescence imaging navigated with preoperative CT lymphography for superficial esophageal cancer
Authors: Yuasa Y, Seike J, Yoshida T, Takechi H, Yamai H, Yamamoto Y, Furukita Y, Goto M, Minato T, Nishino T, Inoue S, Fujiwara S, Tangoku A.
Journal: Ann Surg Oncol (2012): 486
Indocyanine green angiography-guided photodynamic therapy for treatment of chronic central serous chorioretinopathy: a pilot study
Authors: Yannuzzi LA, Slakter JS, Gross NE, Spaide RF, Costa DL, Huang SJ, Klancnik JM, Jr., Aizman A.
Journal: Retina (2012): 288
Using indocyanine green fluorescent lymphography and lymphatic-venous anastomosis for cancer-related lymphedema
Authors: Mihara M, Murai N, Hayashi Y, Hara H, Iida T, Narushima M, Todokoro T, Uchida G, Yamamoto T, Koshima I.
Journal: Ann Vasc Surg (2012): 278 e1
Management of peripheral polypoidal choroidal vasculopathy with intravitreal bevacizumab and indocyanine green angiography-guided laser photocoagulation
Authors: Rishi P, Das A, Sarate P, Rishi E.
Journal: Indian J Ophthalmol (2012): 60
Synthesis and characterization of bovine serum albumin-coated nanocapsules loaded with indocyanine green as potential multifunctional nanoconstructs
Authors: Jung B, Anvari B.
Journal: Biotechnol Prog (2012): 533
Page updated on November 21, 2024

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Catalog Number186
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Physical properties

Molecular weight

1232.62

Solvent

DMSO

Spectral properties

Correction Factor (260 nm)

0.09

Correction Factor (280 nm)

0.055

Extinction coefficient (cm -1 M -1)

230000

Excitation (nm)

790

Emission (nm)

814

Storage, safety and handling

H-phraseH303, H313, H333
Hazard symbolXN
Intended useResearch Use Only (RUO)
R-phraseR20, R21, R22

Storage

Freeze (< -15 °C); Minimize light exposure
UNSPSC12171501
Excitation emission spetrum of Cat#186
Excitation emission spetrum of Cat#186
Excitation emission spetrum of Cat#186