DFHBI 1T: Advancing RNA Imaging with Enhanced Fluorescence and Aptamer Binding
Explore the cutting-edge of RNA imaging with DFHBI 1T, a powerful fluorophore for live cell applications.
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DFHBI 1T
DFHBI 1T is a remarkable fluorophore designed to mimic the properties of Green Fluorescent Protein (GFP), offering significant advancements in the field of RNA imaging. Its fluorescence is specifically activated upon binding to RNA aptamers such as Spinach2 and Broccoli, making it an invaluable tool for studying RNA localization and dynamics within living cells. The compound exhibits superior fluorescence intensity and reduced background noise when coupled with Spinach2, paving the way for clearer and more precise cellular observations.
- Utilize DFHBI 1T for high-resolution RNA imaging in living cells, enabling detailed studies of RNA dynamics.
- Leverage the specific binding of DFHBI 1T with Spinach2 aptamer for targeted fluorescent labeling of RNA molecules.
- Benefit from DFHBI 1T's enhanced specific fluorescence and lower background, ensuring clearer visualization of cellular RNA.
- Investigate the photophysical properties of DFHBI 1T to optimize its application in sophisticated biological assays and research.
Advantages Offered by the Product
Enhanced Imaging Precision
DFHBI 1T provides enhanced specific fluorescence and lower background noise when bound to the Spinach2 aptamer, leading to more precise and clearer RNA imaging in live cells.
Versatile Aptamer Compatibility
This fluorophore is activated by binding to key RNA aptamers like Spinach2 and Broccoli, offering versatility for various RNA imaging applications and research designs.
Facilitates RNA Dynamics Study
The specific activation mechanism of DFHBI 1T allows researchers to study the distribution and dynamics of RNA within cells, contributing to a deeper understanding of cellular processes.
Key Applications
RNA Imaging in Living Cells
DFHBI 1T has been successfully applied to RNA imaging in living cells, providing an important tool for studying the distribution and dynamics of RNA.
Aptamer-based Assays
It serves as a critical component in aptamer-based assays that rely on fluorescence activation for detection and visualization of specific RNA targets.
Biochemical Research
Researchers utilize DFHBI 1T in biochemical studies to understand the complex interactions between fluorophores and RNA aptamers, advancing the field of molecular biology.
Fluorescence Microscopy
Its spectral properties make DFHBI 1T suitable for various fluorescence microscopy techniques, enabling detailed examination of cellular structures and functions.