BODIPY TMR-X alkyne

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BODIPY TMR-X alkyne

BODIPY TMR-X alkyne

Catalog Number F01-0213
Category BODIPY
Molecular Formula C30H35BF2N4O3
Molecular Weight 548.43
Catalog Number Size Price Quantity

Product Introduction

BODIPY TMR-X Alkyne is an orange-fluorescent dye with an alkyne functional group that is reactive with azides in the copper-catalyzed click reaction. This compound is relatively insensitive to environment and pH changes.

Chemical Information

Synonyms EverFluor TMR-X Alkyne
Appearance Solid Powder
  • Product Specification
  • Application
Excitation 430
Emission 542

BODIPY TMR-X alkyne is a fluorescent dye with diverse applications in biological and chemical research:

Fluorescent Labeling: Widely adopted for fluorescent labeling of biomolecules like proteins, nucleic acids, and lipids, BODIPY TMR-X alkyne shines brightly in tracking and visualizing these molecules within live cells and fixed tissues. Its radiant fluorescence and enduring photostability lend themselves admirably to exploring cellular processes, protein interactions, and the dynamic intricacies of biological systems.

Bioorthogonal Chemistry: Harnessing the power of its alkyne group, BODIPY TMR-X alkyne emerges as a valuable asset in bioorthogonal chemistry realms. Facilitating click chemistry reactions, it selectively partners with azide-labeled molecules under gentle conditions, enabling efficient labeling and visualization of biomolecules in complex biological milieus without disrupting native biochemical processes.

Flow Cytometry: Employed in flow cytometry for staining and characterizing specific cell subsets, BODIPY TMR-X alkyne plays a vital role in delineating distinct fluorescence channels detectable by flow cytometers. This spectral finesse facilitates multiparametric analyses, aiding researchers in appraising cell surface markers, viability, and functional attributes across diverse cell varieties.

Fluorescence Microscopy: In the domain of fluorescence microscopy, the prowess of BODIPY TMR-X alkyne manifests in enabling multicolor imaging and colocalization studies. Compatible with various imaging modalities like confocal and super-resolution microscopy, it supports high-resolution visualization of subcellular structures. Researchers leverage this capacity to navigate through intricate biological dialogues and spatial correlations within cellular domains.

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