Items 1 to 10 of 198 total
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Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
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Calcein-AM | 148504-34-1 | sc-203865 | 1 mg | $130.00 | 117 | |
Calcein-AM is a lipophilic compound that exhibits remarkable fluorescence in the 495-570 nm range upon cellular uptake. Its unique ester groups enable it to permeate cell membranes, where intracellular esterases convert it into a hydrophilic form, leading to enhanced fluorescence. This transformation highlights its role in monitoring cellular viability and metabolic activity. The compound's ability to interact with various cellular components underscores its significance in studying dynamic biological processes. | ||||||
FluoroGold™ | 223769-64-0 | sc-358883 sc-358883A | 20 mg 50 mg | $449.00 $819.00 | 47 | |
FluoroGold™ is a highly fluorescent compound that emits light in the 495-570 nm range, characterized by its unique ability to form stable complexes with specific cellular targets. Its distinctive molecular structure facilitates selective binding, allowing for precise tracking of cellular pathways. The compound's photostability and low background fluorescence enhance signal clarity, making it ideal for visualizing dynamic interactions within complex biological systems. Its unique reactivity with thiol groups further expands its utility in probing cellular environments. | ||||||
6-(7-Nitrobenzofurazan-4-ylamino)hexanoic acid | 88235-25-0 | sc-210444 | 100 mg | $137.00 | ||
6-(7-Nitrobenzofurazan-4-ylamino)hexanoic acid exhibits remarkable fluorescence in the 495-570 nm range, driven by its unique nitrobenzofurazan moiety. This compound demonstrates strong interactions with various biomolecules, enabling it to act as a versatile probe in complex environments. Its distinct electronic properties contribute to efficient energy transfer processes, while its solubility profile allows for effective diffusion in diverse media, enhancing its applicability in various experimental setups. | ||||||
Phalloidin CruzFluor™ 488 Conjugate | sc-363791 | 300 tests | $180.00 | 53 | ||
Phalloidin CruzFluor™ 488 Conjugate is a highly specific fluorescent probe that binds to F-actin, facilitating the visualization of cytoskeletal structures. Its unique conjugation with the CruzFluor™ 488 dye enables strong emission in the 495-570 nm range, enhancing signal clarity. The compound's affinity for actin filaments allows for precise localization studies, while its stability under various conditions ensures reliable performance in fluorescence microscopy applications. | ||||||
CalciFluor™ Fluo-8, AM | 1345980-40-6 | sc-362561 | 1 mg | $300.00 | 12 | |
CalciFluor™ Fluo-8, AM is a potent fluorescent indicator designed for calcium ion detection, exhibiting remarkable sensitivity and specificity. Its unique esterified structure allows for efficient cellular uptake, where it is hydrolyzed to release the active form. This compound demonstrates rapid kinetics in response to calcium fluctuations, enabling real-time monitoring of intracellular calcium dynamics. The emission spectrum in the 495-570 nm range provides vibrant visualization, enhancing the study of cellular signaling pathways. | ||||||
CruzFluor™ 488 succinimidyl ester | sc-362617 sc-362617A | 1 mg 5 mg | $357.00 $903.00 | 1 | ||
CruzFluor™ 488 succinimidyl ester is a highly reactive fluorescent dye characterized by its succinimidyl ester functionality, which facilitates covalent bonding to amine-containing biomolecules. This compound exhibits exceptional stability and a broad emission spectrum, peaking between 495-570 nm, making it ideal for various labeling applications. Its unique reactivity allows for selective conjugation, enhancing signal intensity and enabling precise tracking of molecular interactions in complex biological systems. | ||||||
2′,7′-Dichlorofluorescein diacetate | 2044-85-1 | sc-209391 sc-209391A | 1 g 5 g | $138.00 $559.00 | 19 | |
2',7'-Dichlorofluorescein diacetate is a lipophilic compound that readily permeates cell membranes, where it is hydrolyzed by intracellular esterases to release the fluorescent 2',7'-dichlorofluorescein. This transformation enhances its fluorescence, peaking in the 495-570 nm range. The compound's unique ability to respond to changes in the cellular environment allows for real-time monitoring of reactive oxygen species and other dynamic processes, making it a valuable tool for studying cellular metabolism and oxidative stress. | ||||||
JC-1 iodide | 3520-43-2 | sc-364116 sc-364116A | 1 mg 5 mg | $167.00 $367.00 | 36 | |
JC-1 iodide is a fluorescent dye that exhibits unique properties in mitochondrial membrane potential assessment. Upon entering cells, it accumulates in mitochondria, where it undergoes a reversible aggregation process that alters its emission spectrum. This behavior results in distinct fluorescence shifts, particularly in the 495-570 nm range, allowing for the differentiation between healthy and depolarized mitochondria. Its sensitivity to membrane potential changes makes it a powerful indicator of cellular health and energy status. | ||||||
CFSE | 150347-59-4 | sc-202096 | 25 mg | $210.00 | 12 | |
CFSE is a fluorescent dye that exhibits remarkable stability and low toxicity, making it ideal for tracking cellular proliferation. It undergoes a unique esterification reaction, allowing it to permeate cell membranes easily. Once inside, CFSE is cleaved by intracellular esterases, resulting in a stable fluorescent product. This process leads to a gradual dilution of fluorescence intensity with each cell division, enabling precise monitoring of cell division dynamics over time. Its emission in the 495-570 nm range provides clear visualization in various biological assays. | ||||||
FITC-Dextran 70 | 60842-46-8 | sc-263323 sc-263323A | 100 mg 500 mg | $140.00 $446.00 | 13 | |
FITC-Dextran 70 is a highly versatile fluorescent tracer characterized by its large molecular size and hydrophilicity, which restricts its diffusion across cellular membranes. This compound exhibits strong fluorescence in the 495-570 nm range, enabling effective visualization in various experimental setups. Its unique ability to form stable conjugates with proteins and other biomolecules enhances its utility in studying molecular interactions and cellular pathways, providing insights into dynamic biological processes. |