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Invitrogen™
SYTO™ Deep Red Nucleic Acid Stain, for live cells
SYTO Deep Red Nucleic Acid Stain is cell-permeant dye that specifically stains the nuclei of live, dead, or fixed cells.Read more
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| Catalog Number | Quantity |
|---|---|
| S34900 | 1 Vial |
| S34901 | 5 Vials |
Catalog number S34900
Price (USD)
347.65
Online Exclusive
360.00Save 12.35 (3%)
Each
In stock
Quantity:
1 Vial
Price (USD)
347.65
Online Exclusive
360.00Save 12.35 (3%)
Each
SYTO Deep Red Nucleic Acid Stain is cell-permeant dye that specifically stains the nuclei of live, dead, or fixed cells. It can be used in live-cell fluorescent imaging workflows and in fixed cell workflows, including immunocytochemistry, immunohistochemistry, and immunofluorescence experiments. After a brief incubation with the stain, the nuclei of live, dead, or fixed cells fluoresce with a deep red/far red signal that is detectable with a Cy5/deep red standard filter set or laser configuration.
• Cell-permeant dye that stains nuclei of live, dead, or fixed cells
• Detectable with deep red/Cy5 fluorescence filter set, with excitation/emission maxima of 652/669 nm
• Five times greater fluorescent signal when staining dsDNA vs RNA
SYTO Deep Red Nucleic Acid Stain can be multiplexed with blue, green, orange, red, and near-IR fluorophores when compatible fluorescent filter/laser configurations are used. The stain increases in fluorescence with increasing concentrations of dsDNA. SYTO Deep Red Nucleic Acid Stain displays up to five times more fluorescence when incubated with dsDNA vs RNA, unlike DRAQ or other live-cell deep red nucleic acid stains. It has a bright initial signal and excellent photo stability in a typical imaging experiment. These properties make the stain ideal as a simple and quantitative single-step dead/fixed cell nucleus-labeling dye for use with fluorescence microscopes, fluorimeters, fluorescence microplate readers, and flow cytometers. The stain has been successfully used on live monolayer cells and spheroid cells and as a nuclear counter-stain in immunocytochemistry.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
ColorDeep Red
Detection MethodFluorescence
Dye TypeCell-Permeant
Emission669 nm
Excitation Wavelength Range652 nm
For Use With (Equipment)Fluorescence Microscope
Product LineSYTO
Quantity1 Vial
Shipping ConditionRoom Temperature
Volume (Metric)250 μL
Label TypeFluorescent Dye
Product TypeNucleic Acid Stain
SubCellular LocalizationNucleic Acids
Unit SizeEach
Contents & Storage
Store in freezer at -5°C to -30°C and protect from light.
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Figures
Multiplex image of live HeLa cells
Multiplex image of live HeLa cells
Multiplex image of live HeLa cells
SYTO Deep Red vs DRAQ5, dsDNA vs RNA
Fluorescence response to dsDNA or RNA
Multiplex image live HASM cells
Multiplex image of HeLa spheroids
Multiplex image of live HeLa cells
Multiplex image of ICC using HeLa cells
Multiplex image of live HeLa cells
Spectra of SYTO Deep Red bound to DNA
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Lot #Certificate TypeDateCatalog Number(s)
3148212Certificate of AnalysisApr 09, 2025S34901
3143932Certificate of AnalysisApr 09, 2025S34900
2680169Certificate of AnalysisMay 01, 2024S34901
2850318Certificate of AnalysisFeb 20, 2024S34900
2738322Certificate of AnalysisAug 24, 2023S34901
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Citations & References (3)
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Citations & References
Abstract
Cellular and Molecular Aspects of Anti-Melanoma Effect of Minocycline-A Study of Cytotoxicity and Apoptosis on Human Melanotic Melanoma Cells.
Journal:Int J Mol Sci
PubMed ID:32967177
'Minocycline is a tetracycline compound with pleiotropic pharmacological properties. In addition to its antibacterial action, it shows many non-antimicrobial effects, including an anti-cancer activity. The anti-cancer action was confirmed in studies on ovarian carcinoma cells, hepatocellular carcinoma cells, glioma cells, or acute myeloid leukemia cells. Malignant melanoma remains a serious
Mitochondria-Specific Anticancer Drug Delivery Based on Reduction-Activated Polyprodrug for Enhancing the Therapeutic Effect of Breast Cancer Chemotherapy.
Journal:ACS Appl Mater Interfaces
PubMed ID:31329411
Mitochondria-targeting cancer therapies have achieved unprecedented advances attributed to their superior ability for improving drug delivery efficiency and producing an enhanced therapeutic effect. Herein, we report a mitochondria-targeting camptothecin (CPT) polyprodrug system (MCPS) covalently decorated with a high-proportioned CPT content, which can realize drug release specifically responsive to a tumor
Astrogliosis in an Experimental Model of Hypovitaminosis B12: A Cellular Basis of Neurological Disorders due to Cobalamin Deficiency.
Journal:Cells
PubMed ID:33050187
Cobalamin deficiency affects human physiology with sequelae ranging from mild fatigue to severe neuropsychiatric abnormalities. The cellular and molecular aspects of the nervous system disorders associated with hypovitaminosis B12 remain largely unknown. Growing evidence indicates that astrogliosis is an underlying component of a wide range of neuropathologies. Previously, we developed
3 total citations