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CFSE
5-(and 6)-Carboxyfluorescein diacetate, succinimidyl ester; CAS 150347-59-4
CFSE is a cell permeable, green fluorogenic tracer useful for multi-generational proliferation assays in flow cytometry platforms, with an excitation peak at 498 nm and an emission peak at 517 nm.
Principle and mechanism
CFSE (carboxyfluorescein diacetate succinimidyl ester) is a non-fluorescent dye that can be used to track cell proliferation over multiple generations. It is cell permeable, able to pass through the membrane of live cells. Once inside, the acetate groups of the molecule are cleaved by non-specific intracellular esterases, resulting in a fluorescent product that accumulates in the cell. Non-viable cells do not have active esterases, nor do their leaky membranes retain the dye; therefore they remain non-fluorescent. The activated CFSE stain forms covalent bonds with free primary amine groups exposed on surface and intracellular proteins, such as lysine side chains. This means CFSE labeling can be used for tracing, counting and identification of specific cells across multiple divisions.Excitation and emission
CFSE (fluorescein, CFDA, SE) is a fluorescent compound with an excitation peak at 498 nm and an emission peak at 517 nm. It is well excited by the 488 nm argon laser line. The emission can be monitored with a flow cytometer using the FL1 channel or FITC filter set.Calculators
Common stock solution preparation
Table 1. Volume of DMSO needed to reconstitute specific mass of CFSE [5-(and 6)-Carboxyfluorescein diacetate, succinimidyl ester] *CAS 150347-59-4* 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 | 179.385 µL | 896.925 µL | 1.794 mL | 8.969 mL | 17.939 mL |
| 5 mM | 35.877 µL | 179.385 µL | 358.77 µL | 1.794 mL | 3.588 mL |
| 10 mM | 17.939 µL | 89.693 µL | 179.385 µL | 896.925 µL | 1.794 mL |
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
Citations
View all 9 citations: Citation Explorer
Microalgal cell division tracking using CFSE
Authors: Pozzobon, Victor and Lagirarde, Jules and Arnoudts, Clarisse and Levasseur, Wendie
Journal: Algal Research (2024): 103501
Authors: Pozzobon, Victor and Lagirarde, Jules and Arnoudts, Clarisse and Levasseur, Wendie
Journal: Algal Research (2024): 103501
Hypoxia-activated ADCC-enhanced humanized anti-CD147 antibody for liver cancer imaging and targeted therapy with improved selectivity
Authors: Qi, Fang-Zheng and Su, Hui-Shan and Wang, Bo and Qian, Luo-Meng and Wang, Yang and Wang, Chen-Hui and Hou, Ya-Xin and Chen, Ping and Zhang, Qing and Li, Dong-Mei and others,
Journal: MedComm (2024)
Authors: Qi, Fang-Zheng and Su, Hui-Shan and Wang, Bo and Qian, Luo-Meng and Wang, Yang and Wang, Chen-Hui and Hou, Ya-Xin and Chen, Ping and Zhang, Qing and Li, Dong-Mei and others,
Journal: MedComm (2024)
Restoration of miR-299-3p promotes macrophage phagocytosis and suppresses malignant phenotypes in breast cancer carcinogenesis via dual-targeting CD47 and ABCE1
Authors: Tong, Shoufang and Zhu, Yingli and Leng, Yeqing and Wu, Yunling and Xiao, Xingxing and Zhao, Wenfeng and Tan, Shuhua
Journal: International Immunopharmacology (2024): 111708
Authors: Tong, Shoufang and Zhu, Yingli and Leng, Yeqing and Wu, Yunling and Xiao, Xingxing and Zhao, Wenfeng and Tan, Shuhua
Journal: International Immunopharmacology (2024): 111708
Interaction of Treponema pallidum, the syphilis spirochete, with human platelets
Authors: Church, Brigette and Wall, Erika and Webb, John R and Cameron, Caroline E
Journal: PloS one (2019): e0210902
Authors: Church, Brigette and Wall, Erika and Webb, John R and Cameron, Caroline E
Journal: PloS one (2019): e0210902
Antigen presentation of the Oct4 and Sox2 peptides by CD154-activated B lymphocytes enhances the killing effect of cytotoxic T lymphocytes on tumor stem-like cells derived from cisplatin-resistant lung cancer cells
Authors: Zhang, Xueyan and Zhang, Yanwei and Xu, Jianlin and Wang, Huimin and Zheng, Xiaoxuan and Lou, Yuqing and Han, Baohui
Journal: Journal of Cancer (2018): 367
Authors: Zhang, Xueyan and Zhang, Yanwei and Xu, Jianlin and Wang, Huimin and Zheng, Xiaoxuan and Lou, Yuqing and Han, Baohui
Journal: Journal of Cancer (2018): 367
References
View all 68 references: Citation Explorer
Novel method for cell debris removal in the flow cytometric cell cycle analysis using carboxy-fluorescein diacetate succinimidyl ester
Authors: Terho P, Lassila O.
Journal: Cytometry A (2006): 552
Authors: Terho P, Lassila O.
Journal: Cytometry A (2006): 552
Modification of the fluorescein diacetate assay for screening of antifungal agents against Candida albicans: comparison with the NCCLS methods
Authors: Brouwer N, Kohen J, Jamie J, Vemulpad S.
Journal: J Microbiol Methods (2006): 234
Authors: Brouwer N, Kohen J, Jamie J, Vemulpad S.
Journal: J Microbiol Methods (2006): 234
Optimisation of the fluorescein diacetate antibacterial assay
Authors: Wan, undefined and y S, Brouwer N, Liu Q, Mahon A, Cork S, Karuso P, Vemulpad S, Jamie J.
Journal: J Microbiol Methods (2005): 21
Authors: Wan, undefined and y S, Brouwer N, Liu Q, Mahon A, Cork S, Karuso P, Vemulpad S, Jamie J.
Journal: J Microbiol Methods (2005): 21
A three-dimensional flow control concept for single-cell experiments on a microchip. 2. Fluorescein diacetate metabolism and calcium mobilization in a single yeast cell as stimulated by glucose and pH changes
Authors: Peng XY, Li PC.
Journal: Anal Chem (2004): 5282
Authors: Peng XY, Li PC.
Journal: Anal Chem (2004): 5282
Effect of immunosuppressants on T-cell subsets observed in vivo using carboxy-fluorescein diacetate succinimidyl ester labeling
Authors: Hu H, Dong Y, Feng P, Fechner J, Hamawy M, Knechtle SJ.
Journal: Transplantation (2003): 1075
Authors: Hu H, Dong Y, Feng P, Fechner J, Hamawy M, Knechtle SJ.
Journal: Transplantation (2003): 1075
Page updated on September 30, 2024
![Treponema pallidum-platelet interactions. (A) Flow cytometry isolates the co-localized platelet and treponeme populations by SSC and FSC gating. Dot plots of (B) CFSE-labeled heat-treated treponemes demonstrate reduced binding to human platelets labeled with PE/Cy5 anti-CD41a compared with (C) CSFE-labeled viable treponemes. (D) CFSE-labeled viable treponemes bound significantly more human platelets (mean = 55.13% ± 2.91 [SD] *P<0.0001) compared with heat-treated treponemes (mean = 19.05% ± 2.29 [SD]) following co-incubation for 16 hours at 37°C and ~ 5% oxygen. Results represent the mean of three independent experiments with statistical significance computed by two-way ANOVA, with a minimum of 3 replicates per sample type per experiment. (E) Darkfield microscopy FOV counts (20 random locations/slide) demonstrate viable treponemes bind significantly more human platelets (mean = 31.73% ± 1.19 [SD] *P<0.0001) than heat-treated treponemes (mean = 6.47% ± 1.19 [SD]) following co-incubation at 5% oxygen at 34°C for 48 hours. Results represent the mean of three independent experiments with statistical significance computed by unpaired two-tailed Student’s t test, n = 3. (F) Heat-treated treponemes (top) are non-motile yet morphologically similar to viable treponemes (bottom). (G) Darkfield microscopy at 1000x magnification demonstrates platelet interactions are reversible. Image capture from video micrographs show edgewise attachment of a treponeme to an activated platelet (0.01 s to 8.10 s) which then detaches and moves away (9.05 s). Source: <strong>Interaction of Treponema pallidum, the syphilis spirochete, with human platelets </strong>by Church et al., <em>PLOS</em>, Jan. 2019.](/_next/image?url=https%3A%2F%2Fimages.aatbio.com%2Fproducts%2Ffigures-and-data%2Fcfse-5-and-6-carboxyfluorescein-diacetate-succinimidyl-ester-cas-150347-59-4%2Ffigure-for-cfse-5-and-6-carboxyfluorescein-diacetate-succinimidyl-ester-cas-150347-59-4_gDWcE.jpg&w=96&q=25)
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