Cellrox deep red fluorescent probe

Manufactured by Thermo Fisher Scientific

Sourced in Spain

The CellROX Deep Red fluorescent probe is a cell-permeant dye that can be used to measure oxidative stress in live cells. It exhibits strong fluorescence upon oxidation by reactive oxygen species (ROS) and reactive nitrogen species (RNS). The probe can be detected using far-red/near-infrared (Cy5) fluorescence imaging and flow cytometry techniques.

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Lab products found in correlation

Tsc spe confocal microscope, by Leica (3 mentions) Evos fl cell imaging system amf4300, by Thermo Fisher Scientific (2 mentions)

5 protocols using cellrox deep red fluorescent probe

Intracellular ROS Detection via CellROX

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Generation of intracellular ROS was detected using the CellROX^® Deep Red fluorescent probe (Invitrogen, Thermo Fisher Scientific Inc., Waltham, MA, USA). The cells were treated with IC₉₀ of DT for 24 h and exposed to CellROX^® Deep Red (5 μM, 30 min) at 26 °C in the dark. Cells were observed in a Leica TSC SPE confocal microscope equipped with inverted optics at λ_exc 633 and λ_em 519 nm.

Lorenzo-Morales J., Díaz-Marrero A.R., Cen-Pacheco F., Sifaoui I., Reyes-Batlle M., Souto M.L., Hernández Daranas A., Piñero J.E, & Fernández J.J. (2019). Evaluation of Oxasqualenoids from the Red Alga Laurencia viridis against Acanthamoeba. Marine Drugs, 17(7), 420.

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Intracellular ROS Detection by CellROX

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The generation of intracellular ROS was detected using the CellROX Deep Red fluorescent probe (Invitrogen). The cells were treated with IC₉₀ of STS for 24 h and exposed to CellROX Deep Red (5 μM, 30 min) at 26 °C in the dark. Cells were observed in a Leica TSC SPE- confocal microscope equipped with inverted optics at λ_exc = 633 and λ_em = 519 nm.

Cartuche L., Sifaoui I., Cruz D., Reyes-Batlle M., López-Arencibia A., Javier Fernández J., Díaz-Marrero A.R., Piñero J.E, & Lorenzo-Morales J. (2019). Staurosporine from Streptomyces sanyensis activates Programmed Cell Death in Acanthamoeba via the mitochondrial pathway and presents low in vitro cytotoxicity levels in a macrophage cell line. Scientific Reports, 9, 11651.

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Intracellular ROS Detection Assay

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The generation of intracellular ROS was detected using the CellROX® Deep Red fluorescent probe (Invitrogen). The cells were treated with IC90 of both 5 and 7 for 24 h and exposed to CellROX® Deep Red (5 μM, 30 min) at 26 °C in the dark. Cells were observed in a Leica TSC SPE-confocal microscope equipped with inverted optics at λexc = 633 and λem = 519 nm.

Sifaoui I., Rodríguez-Expósito R.L., Reyes-Batlle M., Rizo-Liendo A., Piñero J.E., Bazzocchi I.L., Lorenzo-Morales J, & Jiménez I.A. (2019). Ursolic Acid Derivatives as Potential Agents Against Acanthamoeba Spp.. Pathogens, 8(3), 130.

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Intracellular ROS Measurement in Naegleria

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The generation of intracellular ROS was evaluated by using the CellROX Deep Red fluorescent probe (Invitrogen, Termo Fisher Scientific, Madrid, Spain). Naegleria fowleri trophozoites were treated with the IC₉₀ of laurinterol for 24 h and exposed to CellROX Deep Red (5 μM, 30 min) at 37 °C in the dark. Cells were observed in an EVOS FL Cell Imaging System AMF4300 (Life Technologies, Madrid, Spain).

Arberas-Jiménez I., García-Davis S., Rizo-Liendo A., Sifaoui I., Reyes-Batlle M., Chiboub O., Rodríguez-Expósito R.L., Díaz-Marrero A.R., Piñero J.E., Fernández J.J, & Lorenzo-Morales J. (2020). Laurinterol from Laurencia johnstonii eliminates Naegleria fowleri triggering PCD by inhibition of ATPases. Scientific Reports, 10, 17731.

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Measuring ROS in Treated Amoebae

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The generation of ROS in treated amoebae was determined with the CellROX Deep Red fluorescent probe (Invitrogen, Termo Fisher Scientifc, Madrid, Spain). The experiment was carried out after incubating 5*10⁵ cells/ml with the IC₉₀ of the tested compounds at 37 °C during 24 h. Afterwards, cells were exposed to CellROX Deep Red (final concentration 5 μM) and incubated for 30 min in dark. Finally, the presence or ROS was evaluated with EVOS FL Cell Imaging System AMF4300 (Life Technologies, Madrid, Spain) as they show high red fluorescence (Arberas-Jiménez et al., 2020 (link)).

Rizo-Liendo A., Arberas-Jiménez I., Sifaoui I., Gkolfi D., Santana Y., Cotos L., Tejedor D., García-Tellado F., Piñero J.E, & Lorenzo-Morales J. (2021). The therapeutic potential of novel isobenzofuranones against Naegleria fowleri. International Journal for Parasitology: Drugs and Drug Resistance, 17, 139-149.

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