2360411-64-7

2360411-64-7 structure

Name: Cyanine5 DBCO
Chemical Name: Cyanine5 DBCO
CAS Number: 2360411-64-7
Molecular Formula: C₅₃H₅₉F₆N₄O₂P
Molecular Weight: 929.03
Catalog: Research Areas Others
Create Date: 2022-10-31 18:10:08
Modify Date: 2024-04-06 09:54:54
Cyanine5 DBCO (DBCO-Cy5) is a water-soluble, low-toxicity azide reactive probe (NIR fluorescent dye), for imaging azide-labeled biomolecules via a copper-free "click-through" reaction. Cyanine5 DBCO has no apparent cytotoxicity or animal toxicity and shows no damage to the physiological functions of cells other than the target cells (azide-labeled cells). Cyanine5 DBCO can be used to label and track cells in vitro and in vivo (Ex=635 nm, Em=650-700 nm)[1][2].

Name	Cyanine5 DBCO

Description	Cyanine5 DBCO (DBCO-Cy5) is a water-soluble, low-toxicity azide reactive probe (NIR fluorescent dye), for imaging azide-labeled biomolecules via a copper-free "click-through" reaction. Cyanine5 DBCO has no apparent cytotoxicity or animal toxicity and shows no damage to the physiological functions of cells other than the target cells (azide-labeled cells). Cyanine5 DBCO can be used to label and track cells in vitro and in vivo (Ex=635 nm, Em=650-700 nm)[1][2].
Related Catalog	Research Areas >> Others Signaling Pathways >> Others >> Others
In Vitro	Guidelines (Following is our recommended protocol. This protocol only provides a guideline, and should be modified according to your specific needs). Cell labeling (A549 cells for example)[1][2]: 1. Seed cells onto 35-mm glass-bottom dishes at a density of 3×104 (varies by cell) in 2 mL of growth media. 2. Add Ac4ManNAz (50 µM, final concentration), incubate for 3 days (generate azide groups on the surface of cells). 3. Wash cells twice with DPBS (pH 7.4). 4. Incubate cells with Cyanine5 DBCO (20 µM, final concentration) for 1 h at 37℃. 5. Rinse cells with DPBS (pH 7.4) and fix with formaldehyde-glutaraldehyde combined fixative for 15 min at 25℃. 6. Wash cells twice with DPBS (pH 7.4) and stain cells with DAPI to label nuclei. 7. Measure Cyanine5 DBCO fluorescence (Ex=635 nm, Em=650-700 nm) using a confocal laser scanning microscope. Note: 1) Artificially introduced azide groups on the cell surface can be targeted by Cyanine5 DBCO for more than 3 days after treatment with Ac4ManNAz. 2) Degree of Cyanine5 DBCO labeling is in a dose-dependent manner.
In Vivo	Guidelines (Following is our recommended protocol. This protocol only provides a guideline, and should be modified according to your specific needs). Cell tracking in vivo[1][2]: 1. Seed cells onto 35-mm glass-bottom dishes at a density of 3×104 (varies by cell) in 2 mL of growth media. 2. Add Ac4ManNAz (50 µM, final concentration), incubate for 3 days (generate azide groups on the surface of cells). 3. Wash cells twice with DPBS (pH 7.4). 4. Anesthesia for mice, then inject cells (after Ac4ManNAz treatment) into the left lobe of the liver. 5. Inject Cyanine5 DBCO (25 µM, 200 µL) to tail vein (3 days post injection of cells into the liver). 6. Measure Cyanine5 DBCO fluorescence (Ex=635 nm, Em=650-700 nm). In vivo near-infrared fluorescence (NIRF) images is obtained with the in vivo imaging system.
References	[1]. Kang SW, et al. Cell labeling and tracking method without distorted signals by phagocytosis of macrophages. Theranostics. 2014 Feb 12;4(4):420-31. [2]. Zhu L, et al. Coupling Aptamer-based Protein Tagging with Metabolic Glycan Labeling for In Situ Visualization and Biological Function Study of Exosomal Protein-Specific Glycosylation. Angew Chem Int Ed Engl. 2021 Aug 9;60(33):18111-18115. [3]. Song S, et al. In Situ One-Step Fluorescence Labeling Strategy of Exosomes via Bioorthogonal Click Chemistry for Real-Time Exosome Tracking In Vitro and In Vivo. Bioconjug Chem. 2020 May 20;31(5):1562-1574.

Molecular Formula	C₅₃H₅₉F₆N₄O₂P
Molecular Weight	929.03

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