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Product Introduction
BODIPY dyes are used to generate fluorescent conjugates of proteins, nucleotides, oligonucleotides and dextrans, as well as to prepare fluorescent enzyme substrates, fatty acids, phospholipids, lipopolysaccharides, receptor ligands and polystyrene microspheres.
Product Specification
Application
| Excitation | 555 |
| Emission | 580 |
| Storage | Store at -20°C |
Red-BODIPY-pH probe is a fluorescent dye used in various scientific and clinical applications to monitor pH changes. Here are some key applications of Red-BODIPY-pH probe:
Cellular Imaging: The Red-BODIPY-pH probe is widely used in cellular imaging due to its bright fluorescence and pH sensitivity. Researchers use it to visualize and measure pH fluctuations within live cells and organelles, assisting in the study of cellular processes like autophagy and apoptosis. Its ability to provide real-time visualization makes it invaluable for dynamic cellular studies.
Environmental Monitoring: In environmental science, Red-BODIPY-pH probes can be utilized to monitor and assess pH changes in water systems. Researchers employ these probes to detect acidification events in oceans, lakes, and rivers, which are crucial for understanding ecological impacts of pollution and climate change. The probe’s stability and sensitivity make it ideal for field measurements.
Biochemical Assays: Red-BODIPY-pH probes are employed in biochemical assays to track pH changes during enzyme reactions and metabolic processes. By integrating these probes in assays, researchers can better quantify enzymatic activity and understand reaction kinetics under varying pH conditions. This contributes to insights in enzyme function and optimization of reaction conditions in biochemical research.
Medical Diagnostics: In clinical diagnostics, Red-BODIPY-pH probes can be used to assess pH in various body fluids, providing clues about patient health. For instance, these probes can help monitor pH in wound environments, which is critical for assessing healing stages or infection presence. Such non-invasive probing techniques enhance diagnostic accuracy and patient care.
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