
IraZolve-L1™ | CAS 2169684-98-2
Catalog Number | A16-0062 |
Category | Endoplasmic Reticulum Fluorescent Probes |
Molecular Formula | C29H19IrN8 |
Molecular Weight | 671.7 |
Catalog Number | Size | Price | Quantity |
---|---|---|---|
A16-0062 | -- | -- |
* Please be kindly noted products are not for therapeutic use. We do not sell to patients.
Product Introduction
IraZolve-L1™ is a cell-permeable fluorogenic probe that can be used to label intracellular lipid droplets and the endoplasmic reticulum in live and fixed cells.
Chemical Information
Product Specification
Application
Synonyms | (OC-6-44)-bis[2-(2-pyridinyl-κN)phenyl-κC][6-(1H-tetrazol-5-yl-κN1)-3-pyridinecarbonitrilato-κN1]-iridium |
Appearance | Solid Powder |
Excitation | 405 nm |
Emission | 600 nm |
Storage | Store at -20°C |
IraZolve-L1™ is a specialized fluorescent probe used in biomedical research and diagnostics. Here are some key applications of IraZolve-L1™:
Cell Imaging: IraZolve-L1™ is commonly used for the visualization of live cells, enabling researchers to study cellular structures and dynamics in real-time. Its bright fluorescence and specificity to certain cellular components make it an invaluable tool in cell biology. By using IraZolve-L1™, scientists can monitor cell viability, apoptosis, and cellular responses to various treatments with high precision.
Cancer Research: In cancer studies, IraZolve-L1™ is utilized to investigate tumor cell behaviors and interactions with the microenvironment. Its ability to highlight specific biomarkers allows researchers to understand cancer progression and identify potential therapeutic targets. By providing detailed images of cancerous tissues, IraZolve-L1™ aids in the development of more effective cancer treatments.
Drug Discovery: IraZolve-L1™ plays a critical role in the screening and development of new pharmaceutical compounds. By enabling the monitoring of cellular responses to drug candidates, it helps in assessing the efficacy and toxicity of these compounds. This application is crucial for optimizing drug formulations and advancing preclinical studies.
Neuroscience: IraZolve-L1™ is used in neuroscience to visualize and analyze neuron structures and synaptic connections. Its application in labeling neuronal components aids in the study of neurological disorders and brain function. Researchers rely on IraZolve-L1™ to uncover the complexities of neural networks, contributing to the understanding of the nervous system.
Recommended Services
Recommended Articles

- Hoechst Dyes: Definition, Structure, Mechanism and Applications
- Mastering the Spectrum: A Comprehensive Guide to Cy3 and Cy5 Dyes
- Fluorescent Probes: Definition, Structure, Types and Application
- Fluorescent Dyes: Definition, Mechanism, Types and Application
- Coumarin Dyes: Definition, Structure, Benefits, Synthesis and Uses
- BODIPY Dyes: Definition, Structure, Synthesis and Uses
- Cyanine Dyes: Definition, Structure, Types and Uses
- Fluorescein Dyes: Definition, Structure, Synthesis and Uses
- Rhodamine Dyes: Definition, Structure, Uses, Excitation and Emission
- Unlocking the Power of Fluorescence Imaging: A Comprehensive Guide
- Cell Imaging: Definitions, Systems, Protocols, Dyes, and Applications
- Lipid Staining: Definition, Principles, Methods, Dyes, and Uses
- Flow Cytometry: Definition, Principles, Protocols, Dyes, and Uses
- Nucleic Acid Staining: Definition, Principles, Dyes, Procedures, and Uses
- DNA Staining: Definition, Procedures, Benefits, Dyes and Uses
- Cell Staining: Definition, Principles, Protocols, Dyes, and Uses
- Ion Imaging: Definition, Principles, Benefits, Dyes, and Uses
- Fluorescent Labeling: Definition, Principles, Types and Applications
Recommended Products
Online Inquiry