Ex 495-570 nm Green

1,1-Dioctadecyl-3,3,3,3-tetramethylindocarbocyanine iodide is a highly fluorescent dye that exhibits strong absorption and emission in the 495-570 nm range. Its unique hydrophobic tail enhances membrane affinity, allowing for effective incorporation into lipid bilayers. The compound's robust photophysical properties, including high quantum yield and low photobleaching, make it suitable for long-term imaging studies. Additionally, its ability to form aggregates in certain environments can provide insights into membrane dynamics and organization.

Sulforhodamine B sodium salt is a vibrant fluorescent dye characterized by its strong absorption and emission in the 495-570 nm range. Its sulfonate groups enhance solubility in aqueous environments, facilitating interactions with various biomolecules. The compound exhibits excellent photostability and a high extinction coefficient, making it ideal for sensitive detection applications. Its unique ability to form non-covalent complexes with proteins can reveal insights into molecular interactions and dynamics in complex biological systems.

Rhodamine 110 chloride is a highly fluorescent compound known for its intense emission in the 495-570 nm range. Its unique structure allows for rapid electron transfer processes, enhancing its photophysical properties. The presence of chloride ions facilitates specific ionic interactions, influencing solubility and reactivity. This dye exhibits remarkable stability under light exposure, making it suitable for various analytical techniques. Its ability to form dynamic aggregates can provide insights into molecular behavior in diverse environments.

Lucifer Yellow CH dilithium salt is a vibrant fluorescent dye that emits light in the 495-570 nm range, characterized by its unique ability to engage in strong π-π stacking interactions. This property enhances its photostability and allows for efficient energy transfer between molecules. The compound's solubility is influenced by its dilithium salt form, which promotes ionic interactions in solution. Its distinct spectral properties make it a valuable tool for studying dynamic cellular processes and molecular interactions.

Acridine Orange 10-nonyl bromide is a fluorescent compound that exhibits emission in the 495-570 nm range, notable for its ability to intercalate into nucleic acids. This intercalation leads to enhanced fluorescence intensity, making it a useful probe for studying DNA and RNA dynamics. The compound's hydrophobic nonyl chain contributes to its membrane permeability, facilitating interactions with cellular components. Its unique photophysical properties allow for effective monitoring of cellular events.

Di-4-ANEPPS is a fluorescent dye characterized by its emission spectrum in the 495-570 nm range. This compound features a unique structure that allows it to selectively bind to lipid membranes, enhancing its fluorescence in response to changes in membrane potential. Its sensitivity to electric fields makes it an effective tool for probing membrane dynamics and cellular signaling pathways. The dye's distinct photostability and high quantum yield further contribute to its utility in various experimental settings.

Resorufin β-D-galactopyranoside is a fluorescent substrate that exhibits a distinct emission profile within the 495-570 nm range. Its unique β-D-galactopyranoside moiety facilitates specific interactions with glycosidases, leading to the release of resorufin upon enzymatic cleavage. This reaction is characterized by rapid kinetics, allowing for real-time monitoring of enzymatic activity. The compound's solubility and stability in aqueous environments enhance its applicability in biochemical assays.

Tetramethylrhodamine methyl ester perchlorate is a vibrant fluorescent dye that emits light in the 495-570 nm range, showcasing its unique photophysical properties. Its structure allows for strong interactions with various biomolecules, enhancing its utility in fluorescence-based applications. The compound exhibits high quantum yield and photostability, making it ideal for tracking molecular dynamics. Its ability to permeate cellular membranes further underscores its versatility in studying cellular processes.

5(6)-Carboxynaphthofluorescein is a fluorescent compound characterized by its distinct emission spectrum in the 495-570 nm range. This dye features a carboxyl group that enhances solubility and facilitates specific interactions with proteins and nucleic acids. Its unique structure allows for efficient energy transfer and a high degree of photostability, making it suitable for various analytical techniques. The compound's reactivity as an acid halide enables selective labeling and tracking of molecular interactions in complex environments.

Fluorescent Red Mega 520 NHS-ester is a vibrant fluorescent dye that exhibits strong emission in the 495-570 nm range. Its NHS-ester functionality allows for efficient covalent bonding with amine-containing biomolecules, promoting specific labeling. The compound's unique structure enhances its photophysical properties, including high quantum yield and stability under light exposure. This dye's reactivity facilitates precise tracking of molecular dynamics, making it a powerful tool for studying complex biological systems.