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Fluorescent Dyes
BODIPY
1,5,7-Trimethyl-3-(4-methoxyphenylethenyl)-8-phenyl-4,4-difluoroboradiazasindacene

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1,5,7-Trimethyl-3-(4-methoxyphenylethenyl)-8-phenyl-4,4-difluoroboradiazasindacene

1,5,7-Trimethyl-3-(4-methoxyphenylethenyl)-8-phenyl-4,4-difluoroboradiazasindacene | CAS 1144030-44-3

Catalog Number	F01-0123
Category	BODIPY
Molecular Formula	C27H25BF2N2O
Molecular Weight	442.316

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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	750
Emission	773
Storage	Store at -20°C

1,5,7-Trimethyl-3-(4-methoxyphenylethenyl)-8-phenyl-4,4-difluoroboradiazasindacene, often simply known as a specific fluorescent probe, boasts a myriad of applications in scientific research.

Fluorescent Imaging: Renowned for its robust fluorescence properties, this compound serves as a valuable asset in fluorescent imaging methodologies. Researchers leverage its intense fluorescence to mark and visualize specific molecules or structures within cells and tissues in real time. Its utility shines in studies concerning cellular membrane dynamics, protein localization, and cellular signaling pathways.

Biosensing Applications: Employed as a fluorescent probe, this compound finds its niche in biosensors designed to detect diverse biomolecules or alterations in the cellular milieu. Its fluorescence can be modulated, either dimmed or intensified, upon interaction with target molecules like ions, proteins, or nucleic acids. This versatility positions it as a prime instrument for crafting sensitive assays for biochemical and diagnostic purposes.

Environmental Monitoring: In the realm of environmental science, this compound emerges as a valuable tool for identifying pollutants and contaminants in water and soil samples. By tagging these substances with the fluorescent probe, scientists can trace their presence and concentration through fluorescence-driven techniques. This aids in evaluating environmental well-being and devising strategies for remediation efforts.

Photodynamic Therapy Research: Delving into medical research, this compound is under exploration for its potential role in photodynamic therapy, a treatment modality leveraging light-activated drugs to combat cancer cells. By homing in on specific tumor tissues and irradiating them with light, the compound can trigger cellular damage via reactive oxygen species generation. This pioneering approach holds promise for innovating new cancer therapies with reduced side effects.