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商品详细Dojindo/FerroOrange/24/F374
Dojindo/FerroOrange/24/F374
Dojindo/FerroOrange/24/F374
商品编号: F374
品牌: 同仁
市场价: ¥6400.00
美元价: 3840.00
产地: 美国(厂家直采)
公司:
产品分类: 多肽合成
公司分类: peptide
联系Q Q: 3392242852
电话号码: 4000-520-616
电子邮箱: info@ebiomall.com
商品介绍
DescriptionReferencesPlate ReaderFlow cytometryQ & AManualS.D.S

Product DescriptionIron is the most abundant transition metal element within organisms, and it participates in various physiological activities. Recently, free iron in living cells has attracted attention because its high reactivity may be related to cellular damage or death. Free iron exists in its stable redox states, namely ferrous ion (Fe2+) and ferric ion (Fe3+)). In living cells, understanding the behavior of Fe2+) is considered more important than understanding that of Fe3+) because of the intracellular reductive environment, metal transporters, and the water solubility of Fe2+). In 2012, Ferroptosis was proposed as one of new cell deaths. Ferroptosis is studied as non apoptotic cell death caused by accumulation of iron ion-dependent lipid peroxide. FerroOrange is a novel fluorescent probe that enables live-cell fluorescent imaging of intracellular Fe2+, used in ferroptosis research.

Learn more >> Ferroptosis Detection


Ferrous ion (Fe2+) Detection

FerroOrange (F374)Mito-FerroGreen (M489)
LocalizationIntracellularMitochondria
Fluorescent Propertyλex: 543 nm, λem: 580 nmλex: 505 nm, λem: 535 nm
Instrument (filter)Fluorescence microscope,plate reader (Cy3)Fluorescence microscope(FITC, GFP)
SampleLive cellLive Cell
The number of assays1 tube (24 µg)17 assays at 35 mm dish(final concentration 1 µmol/L)1 set (50 µg x 2)10 assays at 35 mm dish(final concentration 5 µmol/L)

Experimental ExampleHeLa cells treated with chelator of iron 2,2′-bipyridyl (Bpy) (100 μmol/L) or Ammonium iron (II) sulfate (100 μmol/L) were prepared. The change of intracellular Fe2+in HeLa cells was detected by the FerroOrange.

<Fluorescence Microscope>Change of intracellular Fe2+in HeLa cells detected by FerroOrange

Ex/Em = 561 nm/570-620 nm, Scale bars 20 μmLeft ControlMiddle Ammonium iron (II) sulfate and 2,2′-Bipyridyl (Bpy) treatedRight Ammonium iron (II) sulfate treatedThe fluorescence intensity of FerroOrange was increased in HeLa cells treated with Ammonium iron (II) sulfate compared with the findings in untreated cells; conversely, its fluorescence intensity was decreased in cells treated with Bpy.

<Plate Reader Assay>The change of intracellular Fe2+in HeLa cells quantified by FerroOrangeEx/Em = 543 nm/ 580 nmLeft ControlMiddle Ammonium iron (II) sulfate and 2,2′-Bipyridyl (Bpy) treatedRight Ammonium iron (II) sulfate treatedThe change of intracellular Fe2+in HeLa cells was quantified by the FerroOrange.

<Metal Ion Selectivity>Metal Ion SelectivityEx/Em = 543 nm/ 580 nm2 μL of 1 mmol/L FerroOrange and 2 μL of 10 mmol/L from each metal were added to 1 mL of 50 mmol/L HEPES Buffer (pH7.4). The fluorescence intensity was measured after the reaction, for 1hr, at room temperature.


Applications

<High-throughput methods for monitoring subcellular labile Fe2+>

FerroOrange is ready to use for a 96-well-plate-based high-content imaging of labile Fe(II) in living cells. In the following article, Dr. Hirayama etc. were able to conduct high-throughput screening of a chemical library containing 3399 compounds.

High-Throughput Screening for the Discovery of Iron Homeostasis Modulators Using an Extremely Sensitive Fluorescent Probe

*FerroOrange is mentioned as “RhoNox-4” in the reference.*FerroOrange was commercialized under the advisory of Dr. Hideko Nagasawa and Dr. Tasuku Hirayama (Gifu Pharmaceutical University).

<Ferrous ion (Fe2+) detection in mouse liver in ferroptosis research>

In the following article, ferrous ions (Fe2+) were detected in mouse livers using FerroOrange (Ferroptosis research).*mice were fed on methionine- choline deficient dietFor details about the experiment, please visit the reference below.

Targeting Ferroptosis Alleviates Methionine-Choline Deficient (MCD)-diet Induced NASH by Suppressing Liver Lipotoxicity


Co-staining with Each Organelle Dye ReagentFerroOrange was co-stained with each organelle’s dye reagents.HeLa cells were stained with organelle’s dye and washed.Then, FerroOrange was added to the cells and cells were observed under the fluorescent microscope.

Co-staining with ER Staining DyeCo-staining with ER Staining Dye<Detection Condition>FerroOrange: Ex. 561 nm, Em. 570-620 nmER Tracker Green (ER Dye): Ex. 488 nm, Em. 510-555 nmScale bars: 10 µm

Co-staining with Mitochondrial staining DyeCo-staining with Mitochondrial staining Dye<Detection Condition>FerroOrange: Ex. 561 nm, Em. 570-620 nmMitoBright Deep Red (Mitochondrial Dye): Ex. 640 nm, Em. 650-700 nmScale bars: 10 µm

Co-staining with Golgi Complex Staining DyeCo-staining with Golgi Complex Staining Dye<Detection Condition>FerroOrange: Ex. 561 nm, Em. 570-620 nmBODIPY FL (Golgi Complex Staining Dye): Ex. 488 nm, Em. 510-555 nmScale bars: 10 µm


Excitation and Emission Spectra

Excitation and Emission Spectra

No.SampleInstrumentsPublications
1)CellFluorescenceK. Tomita, M. Fukumoto, K. Itoh, Y. Kuwahara, K. Igarashi, T. Nagasawa, M. Suzuki, A. Kurimasa and T. Sato, “MiR-7-5p is a key factor that controls radioresistance via intracellular Fe2+ content in clinically relevant radioresistant cells.”, Biochem Biophys Res Commun.., 2019,doi: 10.1016/j.bbrc.2019.08.117.
2)CellFluorescenceY. Wang and M. Tang, “PM2.5 induces ferroptosis in human endothelial cells through iron overload and redox imbalance”, Environ. Pollut.2019, 264, doi: 10.1016/j.envpol.2019.07.105.
3)CellFluorescenceS Guo, X Yao, Q Jiang, K Wang, Y Zhang, H. Peng, J. Tang and W. Yang , “Dihydroartemisinin-Loaded Magnetic Nanoparticles for Enhanced Chemodynamic Therapy”, Front Pharmacol 2020, 11, 226.
4)Cell(293T)FluorescencemicroscopeR. A. Weber, F. S. Yen, S.P.V. Nicholson, H. Alwaaseem, E.C. Bayraktar,M. Alam, R. C. Timson, K. La, M. Abu-Remaileh, H. Molina and K. Birsoy, “Maintaining Iron Homeostasis Is the Key Role of Lysosomal Acidity for Cell Proliferation”, Mol. Cell2020, 77, 1-11.
5)CellFluorescenceX. Li, T. Wang, X. Huang, Y. Li, T. Sun, S. Zang, K. Guan, Y. Xiong, J. Liu and H. Yuan , “Targeting ferroptosis alleviates methionine‐choline deficient (MCD)‐diet induced NASH by suppressing liver lipotoxicity”, Liver Int., 2020,  doi:10.1111/liv.14428.
6)Cell(HepG2)FluorescencemicroscopeMicroplate readerImaging cytometerT. Hirayama, M. Niwa, S. Hirosawa and H. Nagasawa, “High-Throughput Screening for the Discovery of Iron Homeostasis Modulators Using an Extremely Sensitive Fluorescent Probe”, ACS Sens., 2020,doi: 10.1021/acssensors.0c01445.Note: FerroOrange is mentioned as “RhoNox-4” in the reference.

Please refer to the following experimental example:

<Sample>A: No dye added (HeLa cells only)B: Bpy (2,2‘-bipyridine) treated HeLa cells

<Method>1. Add 100μL HeLa cell suspension to each well of 96 well plate (black with clear bottom) making the final concentration 10,000 cells/well. Incubate overnight in the 5% CO2 at 37 ℃.2. Wash Sample C with 100 μL MEM (no FBS) media three times3. Add 100 μL ammonium iron sulfate (II)/MEM (no FBS) solution (final concentration: 100 μmol/L) to Sample C’s wells. Incubate for 30 minutes in the 5% CO2 at 37 ℃.4. Wash cells with 100 μL HBSS three times

6. Measure the fluorescent intensity (Ex. 543 nm, Em. 580nm) using a fluorescence microplate reader.

Quantitative Analysis by Flow Cytometer・FerroOrange may affect staining intensity, depending on cell density and cell type.*Please refer to Q&A “Is it necessary to wash cells after staining?”.・Furthermore, a dye may leak out of the cells, depending on a medium change and a wash.・For these reasons, you need to optimize when performing quantitative flow cytometry.

<Usage Example>1. HeLa cells (1 x105 cells/well) in MEM (10% fetal bovine serum, 1% penicillin-streptomycin) were seeded on a 6 well plate and were cultured at 37oC in a 5% CO2 incubator overnight.2. The cells were washed with serum-free medium (2 mL) three times. Then, serum-free medium (1 mL) was added to the cells.3. 10 mmol/L Ammonium iron (II) sulfate (10 μL) was added to wells (The final concentration: 100 μmol/L).4. To mix Ammonium iron(II) sulfate and serum-free medium, the entire medium was pipetted up from wells and then immediately pipetted back one time.5. The cells were incubated for 20 min in a 37oC incubator equilibrated with 95% air and 5% CO2, and the cells were washed with HBSS (1 mL) three times.6. After trypsinization (250 µL), stop the reaction with serum medium (1 mL), 1.25 ml of the cell suspension was transferred to a microcentrifuge tube.7. The cells suspension was centrifuged at 1,500 rpm for 3 minutes.8. The supernatant was discarded and HBSS (1 mL) was added to the microcentrifuge tube and suspended by pipetting.9. The cells suspension was centrifuged at 1,500 rpm for 3 minutes and the supernatant was discarded.10. 1 μmol/L FerroOrange in MEM (serum-free medium) (300 μL) was added to the cells.11. The cells were incubated for 15 -30 min in a 37oC incubator equilibrated with 95% air and 5% CO2.12. The stained cells were passed through a cell strainer and analyze samples using a flow cytometer.

<Important Points>

1. FerroOrange leaks into the extracellular space due to washing cells after staining; therefore, we suggest you measure cells immediately after staining (Non wash).

2.  We recommend you add equal volumes of dye solutions, because fluorescence intensity can sometimes vary in a dye solution volume-dependent manner.

3. To verify experimental conditions for detecting Fe(II), we recommend you prepare a sample containing ammonium iron (II) sulfate and then observe changes in the fluorescence intensity of FerroOrange.

Are there any tips for successful assay?
1. Please do not change the media after adding the FerroOrange. By changing the media, the FerroOrange dye can leak out of cells.2. For data reliability, we recommend preparing Bpy (2,2‘-bipyridine) or ammonium iron sulfate (II) treated cells as the control for comparison with FerroOrange data.3. If the cell samples have difficulty in staining, please increase the concentration of FerroOrange working solution 1 μmol/L higher than the recommended concentration. We recommend 1-5μmol/L.
How can I use FerroOrange with a plate reader?
Please refer to the following experimental example:

<Sample>A: No dye added (HeLa cells only)B: Bpy (2,2‘-bipyridine) treated HeLa cellsC: Ammonium iron sulfate (II) treated HeLa cells

<Method>1. Add 100μL HeLa cell suspension to each well of 96 well plate (black with clear bottom) making the final concentration 10,000 cells/well. Incubate overnight in the 5% CO2 at 37 ℃.2. Wash Sample C with 100 μL MEM (no FBS) media three times3. Add 100 μL ammonium iron sulfate (II)/MEM (no FBS) solution (final concentration: 100 μmol/L) to Sample C’s wells. Incubate for 30 minutes in the 5% CO2 at 37 ℃.4. Wash cells with 100 μL HBSS three times5. Add 100 μL of 1 μmol/L FerroOrange working solution to Sample A and Sample C’s wells. Add 100 μL of HBSS solution containing FerroOrange (final concentration: 1 μmol/L) and Bpy (final concentration: 100 μmol/L) to Sample B’s wells. Incubate for 30 minutes in the 5% CO2 at 37 ℃.6. Measure the fluorescent intensity (Ex. 543 nm, Em. 580nm) using a fluorescence microplate reader.

Is it necessary to wash cells after staining?
We recommend you not to wash them because this step may induce leakage of FerroOrange from the cells.It has been confirmed that the amount of FerroOrange leakage differs depending on cell density and cell type.

<Differences caused by cell density>

<Differences caused by cell type>

What is the recommended filter?
Excitation: 530-565 nm; Emission: 570-620 nm

Related Categories

Intracellular Fluorescent Probes
品牌介绍
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