Items 21 to 30 of 129 total
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Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
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CruzQuench™ 2 maleimide | sc-362636 | 5 mg | $234.00 | |||
CruzQuench™ 2 maleimide is a specialized fluorescent probe characterized by its exceptional ability to quench fluorescence in the 495-570 nm range. Its unique maleimide functional group enables selective conjugation with thiol-containing biomolecules, facilitating targeted studies of protein interactions. The compound exhibits rapid reaction kinetics, allowing for real-time monitoring of dynamic processes. Additionally, its distinct photophysical properties enhance signal-to-noise ratios in complex environments. | ||||||
Rhodamine B | 81-88-9 | sc-203756 sc-203756A sc-203756B | 25 g 100 g 500 g | $36.00 $72.00 $222.00 | 6 | |
Rhodamine B is a vibrant fluorescent dye known for its strong absorption and emission in the 495-570 nm range. Its unique xanthene structure allows for efficient energy transfer and photostability, making it ideal for various applications. The compound exhibits notable aggregation-induced emission, where its fluorescence intensity can increase in concentrated solutions. Additionally, Rhodamine B's ability to form stable complexes with metal ions enhances its utility in sensing applications, showcasing its versatile molecular interactions. | ||||||
R-Phycoerythrin | 11016-17-4 | sc-359902 sc-359902A | 5 mg 100 mg | $275.00 $1132.00 | 2 | |
R-Phycoerythrin is a red fluorescent protein that exhibits strong absorption and emission in the 495-570 nm range, primarily due to its unique chromophore structure. This protein is characterized by its high quantum yield and exceptional photostability, which facilitate effective light harvesting in photosynthetic organisms. Its distinct molecular interactions enable it to form dynamic complexes with other proteins, influencing energy transfer pathways and enhancing its role in bioluminescent systems. | ||||||
Phalloidin-tetramethylrhodamine conjugate | sc-362065 | 300 tests | $204.00 | 8 | ||
Phalloidin-tetramethylrhodamine conjugate is a fluorescent probe that exhibits vibrant emission in the 495-570 nm range, attributed to its tetramethylrhodamine moiety. This conjugate selectively binds to F-actin filaments, stabilizing their structure and preventing depolymerization. Its unique affinity for actin enhances visualization in cellular studies, while its photophysical properties, including high brightness and stability, make it an effective tool for probing cytoskeletal dynamics. | ||||||
Rhodamine 6G | 989-38-8 | sc-280066 sc-280066A sc-280066B sc-280066C sc-280066D | 25 g 100 g 250 g 1 kg 5 kg | $48.00 $138.00 $258.00 $790.00 $2859.00 | 4 | |
Rhodamine 6G is a highly fluorescent dye known for its intense emission in the 495-570 nm range. Its unique structure allows for strong interactions with various solvents, enhancing solubility and stability. The dye exhibits rapid photobleaching kinetics, making it suitable for time-resolved fluorescence applications. Additionally, its ability to form aggregates in concentrated solutions can lead to distinct spectral shifts, providing insights into molecular interactions and environmental effects on fluorescence behavior. | ||||||
LDS 751 | 181885-68-7 | sc-391156 | 5 mg | $122.00 | 1 | |
LDS 751 is a vibrant fluorescent compound that exhibits remarkable stability and solubility in diverse environments. Its unique molecular architecture facilitates specific interactions with surrounding media, influencing its photophysical properties. The compound demonstrates distinct fluorescence quenching mechanisms, which can be attributed to dynamic conformational changes. Additionally, LDS 751's reactivity as an acid halide allows for selective functionalization, enabling tailored modifications for various applications. | ||||||
DAR-4M AM | sc-221530 | 1 mg | $1199.00 | 3 | ||
DAR-4M AM is a highly fluorescent compound characterized by its exceptional photostability and distinct emission properties within the 495-570 nm range. Its unique molecular structure promotes strong interactions with various substrates, enhancing its luminescent efficiency. The compound exhibits intriguing photochemical behavior, including energy transfer processes and specific binding affinities, which can lead to varied fluorescence responses under different conditions. Its reactivity as an acid halide further allows for targeted modifications, expanding its versatility in diverse chemical environments. | ||||||
Pyronin Y | 92-32-0 | sc-203755 sc-203755A sc-203755B | 1 g 5 g 25 g | $50.00 $110.00 $407.00 | 9 | |
Pyronin Y is a vibrant fluorescent dye known for its remarkable ability to absorb light in the 495-570 nm range. Its unique structure facilitates strong π-π stacking interactions, enhancing its fluorescence intensity. The compound exhibits notable solvatochromism, where its emission spectrum shifts based on the solvent environment. Additionally, Pyronin Y's reactivity as an acid halide allows for selective functionalization, making it adaptable for various chemical transformations and applications. | ||||||
DAF-FM DA (cell permeable) | 254109-22-3 | sc-205940 | 1 mg | $745.00 | 7 | |
DAF-FM DA is a cell-permeable fluorescent probe that exhibits strong fluorescence in the 495-570 nm range, primarily due to its unique electron-rich structure. This compound undergoes rapid reaction kinetics with reactive species, leading to a significant increase in fluorescence upon interaction. Its ability to penetrate cellular membranes allows for real-time monitoring of specific biochemical pathways, providing insights into cellular dynamics and redox states. | ||||||
Mito Red | 1021902-10-2 | sc-301164 | 8 x 50 µg | $404.00 | 5 | |
Mito Red is a specialized fluorescent probe that emits light in the 495-570 nm range, characterized by its unique conjugated system that enhances its photostability. This compound engages in selective interactions with mitochondrial components, facilitating the visualization of mitochondrial dynamics. Its distinct spectral properties allow for minimal background interference, making it ideal for tracking cellular processes. The compound's rapid response to changes in the local environment enables precise monitoring of metabolic states. |