Styryl 6

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Styryl 6

Styryl 6 | 76433-27-7

Catalog Number A17-0108
Category Laser Dyes
Molecular Formula C23H27N2∙ClO4
Molecular Weight 430.93
Catalog Number Size Price Quantity
A17-0108 -- $--

Product Introduction

Styryl 6 is a laser and scintillation dye.

Chemical Information

Synonyms 3H-​Indolium, 2-​[4-​[4-​(dimethylamino)​phenyl]​-​1,​3-​butadien-​1-​yl]​-​1,​3,​3-​trimethyl-​, perchlorate; 2-[4-[4-(dimethylamino)phenyl]-1,3-butadienyl]-1,3,3-trimethyl-3H-indolium perchlorate; LDS 730
Canonical SMILES CC1(C2=CC=CC=C2[N+](=C1C=CC=CC3=CC=C(C=C3)N(C)C)C)C.[O-]Cl(=O)(=O)=O
InChI InChI=1S/C23H27N2.ClHO4/c1-23(2)20-11-7-8-12-21(20)25(5)22(23)13-9-6-10-18-14-16-19(17-15-18)24(3)4;2-1(3,4)5/h6-17H,1-5H3;(H,2,3,4,5)/q+1;/p-1
InChI Key YEZRMIFMBREUKB-UHFFFAOYSA-M
  • Application

Styryl 6 is a synthetic dye belonging to the cyanine family, renowned for its vibrant colors that span the electromagnetic spectrum, including near-infrared (IR) to ultraviolet (UV). Like other cyanine dyes, Styryl 6 is characterized by a polymethine chain connecting nitrogen-containing heterocycles. This dye is notable for its conjugated system that enhances its resonance and electrophilic properties, critical for applications in biotechnology where precise molecular labeling and imaging are required. Styryl 6 is often leveraged for its superior fluorescence capabilities, making it a popular choice for biological assays and imaging techniques.

One of the major applications of Styryl 6 is in nucleic acid labeling, an essential technique in genetic and genomic research. This application involves attaching this fluorescent dye to DNA or RNA molecules to visualize and quantify nucleic acid sequences. The dye’s stability and brightness allow for accurate detection even at low concentrations, which is crucial for microarray analyses and other high-throughput genomic studies. The dye’s emission properties enable scientists to monitor gene expression levels and identify genetic variations with high precision, facilitating advancements in personalized medicine and diagnostics.

Styryl 6 is equally significant in protein labeling, an area vital for proteomics and molecular biology. By binding to specific sites within protein molecules, this dye offers insights into protein localization, expression, and interaction within biological systems. Techniques such as fluorescent resonance energy transfer (FRET) utilize Styryl 6 to study protein-protein interactions in real-time, providing valuable data that enhances our understanding of cellular processes and signaling pathways. This capability is indispensable in drug discovery and development, where identifying target proteins is crucial for devising effective therapies.

The third key application of Styryl 6 lies in its use in flow cytometry, a powerful tool for analyzing the physical and chemical characteristics of cells and particles. Here, Styryl 6 enhances the detection capabilities of flow cytometers by providing bright and stable signals that can be used to differentiate cell subtypes, assess cell health, or track cellular changes over time. This application is especially important in clinical settings for diagnosing diseases like cancer, where detailed cellular analysis can inform treatment decisions.

Finally, Styryl 6 is crucial in live-cell imaging, a technique that allows researchers to observe cellular processes in real-time. The dye’s non-toxic, photostable properties ensure minimal interference with biological functions, making it ideal for long-term observation of dynamic biological processes. Live-cell imaging with Styryl 6 enables scientists to study cell cycles, apoptosis, and other vital physiological activities, providing insights that propel the fields of developmental biology and neurobiology. Such applications of Styryl 6 reaffirm its versatility and indispensability in modern scientific research.

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