Actively helping customers, employees and the global community during the coronavirus SARS-CoV-2 outbreak.  Learn more >>

MitoLite™ Green EX488

Fluorescence image of HeLa cells stained with MitoLite™ Green EX488 in a Costar black-wall/clear bottom 96-well plate.
Fluorescence image of HeLa cells stained with MitoLite™ Green EX488 in a Costar black-wall/clear bottom 96-well plate.
Ordering information
Price ()
Catalog Number22675
Unit Size
Find Distributor
Additional ordering information
Telephone1-408-733-1055
Fax1-408-733-1304
Emailsales@aatbio.com
InternationalSee distributors
ShippingStandard overnight for United States, inquire for international
Physical properties
SolventDMSO
Spectral properties
Excitation (nm)508
Emission (nm)528
Storage, safety and handling
Certificate of OriginDownload PDF
H-phraseH303, H313, H333
Hazard symbolXN
Intended useResearch Use Only (RUO)
R-phraseR20, R21, R22
StorageFreeze (< -15 °C); Minimize light exposure
UNSPSC12352200

OverviewpdfSDSpdfProtocol


Excitation (nm)
508
Emission (nm)
528
MitoLite™ Green is a cationic dye that selectively accumulates in mitochondria probably vial the mitochondrial membrane potential gradient. The mitochondrial indicator is a hydrophobic compound that easily permeates intact live cells, and trapped in mitochondria after it gets into cells. This fluorescent mitochondrial indicator is retained in mitochondria for long time since the indicator carries a cell-retaining group. This key feature significantly increases its staining efficiency. The labeling protocol is robust, requiring minimal hands-on time. It can be readily adapted for a wide variety of fluorescence platforms such as microplate assays, immunocytochemistry and flow cytometry. It is suitable for proliferating and non-proliferating cells, and can be used for both suspension and adherent cells.

Spectrum


Open in Advanced Spectrum Viewer
spectrum

Spectral properties

Excitation (nm)508
Emission (nm)528

Citations


View all 5 citations: Citation Explorer
Co-delivery of VP-16 and Bcl-2-targeted antisense on PEG-grafted oMWCNTs for synergistic in vitro anti-cancer effects in non-small and small cell lung cancer
Authors: Heger, Zbynek and Polanska, Hana and Krizkova, Sona and Balvan, Jan and Raudenska, Martina and Dostalova, Simona and Moulick, Amitava and Masarik, Michal and Adam, Vojtech
Journal: Colloids and Surfaces B: Biointerfaces (2017): 131--140
Inhibition of heme oxygenase-1 enhances the chemosensitivity of laryngeal squamous cell cancer Hep-2 cells to cisplatin
Authors: Lv, Xin and Song, Dong-mei and Niu, Ying-hao and Wang, Bao-shan
Journal: Apoptosis (2016): 489--501
Effective two-photon excited photodynamic therapy of xenograft tumors sensitized by water-soluble bis (arylidene) cycloalkanone photosensitizers
Authors: Zou, Qianli and Zhao, Hongyou and Zhao, Yuxia and Fang, Yanyan and Chen, Defu and Ren, Jie and Wang, Xiaopu and Wang, Ying and Gu, Ying and Wu, Feipeng
Journal: Journal of medicinal chemistry (2015): 7949--7958
Melatonin promotes adipogenesis and mitochondrial biogenesis in 3T3-L1 preadipocytes
Authors: Kato, Hisashi and Tanaka, Goki and Masuda, Shinya and Ogasawara, Junetsu and Sakurai, Takuya and Kizaki, Takako and Ohno, Hideki and Izawa, Tetsuya
Journal: Journal of Pineal Research (2015): 267--275
Aptamer and IR820 Dual-Functionalized Carbon Dots for Targeted Cancer Therapy against Hypoxic Tumors Based on an 808 nm Laser-Triggered Three-Pathway Strategy
Authors: Liu, Rongjun and Zhang, Liangliang and Zhao, Jingjin and Luo, Zhihui and Huang, Yong and Zhao, Shulin
Journal: Advanced Therapeutics : 1800041

References


View all 70 references: Citation Explorer
Quantification of carbonylated proteins in rat skeletal muscle mitochondria using capillary sieving electrophoresis with laser-induced fluorescence detection
Authors: Feng J, Arriaga EA.
Journal: Electrophoresis (2008): 475
Calcium, mitochondria and apoptosis studied by fluorescence measurements
Authors: Roy SS, Hajnoczky G.
Journal: Methods (2008): 213
Fluorescence imaging of mitochondria in yeast
Authors: Swayne TC, Gay AC, Pon LA.
Journal: Methods Mol Biol (2007): 433
A fluorescence assay for peptide translocation into mitochondria
Authors: Martinez-Caballero S, Peixoto PM, Kinnally KW, Campo ML.
Journal: Anal Biochem (2007): 76
Fast electrophoretic analysis of individual mitochondria using microchip capillary electrophoresis with laser induced fluorescence detection
Authors: Duffy CF, MacCraith B, Diamond D, O'Kennedy R, Arriaga EA.
Journal: Lab Chip (2006): 1007
Discrimination of depolarized from polarized mitochondria by confocal fluorescence resonance energy transfer
Authors: Elmore SP, Nishimura Y, Qian T, Herman B, Lemasters JJ.
Journal: Arch Biochem Biophys (2004): 145
A fluorescence-based technique for screening compounds that protect against damage to brain mitochondria
Authors: Kristian T, Fiskum G.
Journal: Brain Res Brain Res Protoc (2004): 176
Determination of the cardiolipin content of individual mitochondria by capillary electrophoresis with laser-induced fluorescence detection
Authors: Fuller KM, Duffy CF, Arriaga EA.
Journal: Electrophoresis (2002): 1571
Fluorescence imaging of metabolic responses in single mitochondria
Authors: Nakayama S, Sakuyama T, Mitaku S, Ohta Y.
Journal: Biochem Biophys Res Commun (2002): 23
Visualisation of mitochondria in living neurons with single- and two-photon fluorescence laser microscopy
Authors: Dedov VN, Cox GC, Roufogalis BD.
Journal: Micron (2001): 653