Em 590-620 nm Orange

Propidium Iodide is a fluorescent dye that emits light in the 590-620 nm range, known for its ability to intercalate into nucleic acids. This intercalation leads to a significant increase in fluorescence intensity upon binding, allowing for effective detection of cellular components. Its hydrophilic nature enhances permeability in certain cellular contexts, while its stability under various conditions ensures reliable performance in fluorescence-based assays. The compound's unique interaction with DNA and RNA makes it a valuable tool for studying nucleic acid dynamics.

Phalloidin CruzFluor™ 594 Conjugate is a highly specific fluorescent probe that binds to F-actin filaments, facilitating the visualization of cytoskeletal structures. Emitting light in the 590-620 nm range, it exhibits strong fluorescence due to its unique affinity for polymerized actin. This conjugate enhances imaging clarity and resolution, enabling detailed studies of cellular morphology and dynamics. Its stability and low photobleaching make it ideal for prolonged observation in fluorescence microscopy.

Tetramethylrhodamine isothiocyanate mixed isomers is a vibrant fluorescent dye characterized by its emission spectrum in the 590-620 nm range. This compound exhibits strong photostability and high quantum yield, making it suitable for various labeling applications. Its isothiocyanate functional group allows for efficient covalent bonding with amine-containing biomolecules, facilitating specific targeting in complex biological systems. The dye's unique electronic structure contributes to its distinct fluorescence properties, enhancing signal detection in various experimental setups.

Ethidium Bromide Solution is a potent intercalating agent known for its distinctive fluorescence in the 590-620 nm range. It interacts with nucleic acids through intercalation between base pairs, leading to enhanced fluorescence upon binding. This property allows for sensitive detection of DNA and RNA in gel electrophoresis. Its planar structure and positive charge facilitate strong interactions with negatively charged nucleic acids, making it a critical tool in molecular biology for visualizing genetic material.

Sulforhodamine 101 is a vibrant dye characterized by its strong fluorescence emission in the 590-620 nm range. Its unique structure allows for effective binding to proteins and other biomolecules, enhancing its utility in various analytical techniques. The dye exhibits high photostability and a distinct affinity for hydrophobic environments, which can influence reaction kinetics and molecular interactions. This behavior makes it a valuable tool for studying dynamic processes in complex biological systems.

5-Carboxy-X-rhodamine N-succinimidyl ester is a fluorescent dye notable for its emission in the 590-620 nm range. Its reactive N-succinimidyl ester group facilitates covalent bonding with amine-containing molecules, promoting specific labeling in biochemical assays. The dye's robust photophysical properties, including high quantum yield and stability under light exposure, enhance its performance in fluorescence applications, allowing for precise tracking of molecular interactions and dynamics.

Mito Red is a fluorescent probe characterized by its emission spectrum in the 590-620 nm range. This compound features a unique structure that allows for selective binding to mitochondrial components, enhancing its specificity in cellular imaging. Its exceptional photostability and high extinction coefficient contribute to its effectiveness in visualizing dynamic processes. The dye's ability to undergo rapid photochemical reactions further enables real-time monitoring of cellular activities, making it a powerful tool in fluorescence microscopy.

CruzFluor™ 594 succinimidyl ester is a fluorescent dye notable for its emission in the 590-620 nm range. This compound exhibits a high degree of reactivity due to its succinimidyl ester functionality, facilitating efficient conjugation with amine-containing biomolecules. Its robust photophysical properties, including excellent quantum yield and stability, allow for prolonged observation in various environments. The dye's unique spectral characteristics enable precise tracking of molecular interactions, enhancing experimental outcomes in fluorescence applications.

Resorufin β-D-galactopyranoside is a fluorescent substrate that emits light in the 590-620 nm range, characterized by its ability to undergo hydrolysis in the presence of specific enzymes. This compound features a β-D-galactopyranoside moiety, which enhances its solubility and interaction with biological systems. Its reaction kinetics are influenced by enzyme concentration and substrate availability, making it a valuable tool for studying enzymatic activity and cellular processes.

4-(4-Diethylaminostyryl)-1-methylpyridinium iodide is a vibrant fluorescent compound that exhibits emission in the 590-620 nm range. Its unique structure allows for strong intramolecular charge transfer, enhancing its photostability and brightness. The compound's interactions with polar solvents can significantly affect its spectral properties, while its ionic nature facilitates rapid diffusion in various media. This behavior makes it an intriguing subject for studies on molecular dynamics and photophysical phenomena.