Catalog No.
Product Name
Application
Product Information
Citations
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Fluorescent Dye
Cy7.5-COOH bromide is a cyanine dye that serves as a highly fluorescent compound with an absorption/emission peak at 781/808 nm. It can function as an effective fluorescent probe in various applications, including DNA sequencing, flow cytometry, and in vivo imaging studies. This compound enhances the detection and analysis of biological samples, facilitating advanced research in molecular biology and related fields. -
Fluorescent Dye
Cyanine7 carboxylic acid is a fluorescent dye that exhibits strong fluorescence characteristics. The presence of carboxyl groups in this compound enables it to form covalent bonds with amines, facilitating conjugation to biomolecules. This property makes Cyanine7 carboxylic acid suitable for various research applications, including biological imaging and the development of fluorescent conjugates for tracking in cellular studies. -
Dye
Pro-AMC is a multifunctional dye designed for various biological applications. It provides essential capabilities for researchers to observe and analyze cell structures, track biomolecules, evaluate cell functions, and differentiate cell types. Additionally, Pro-AMC is useful for detecting biomolecules, studying tissue pathology, and monitoring microorganisms. Its versatile applications extend from fundamental scientific research to clinical diagnostics and include traditional uses in textile dyeing and emerging fields such as functional textile processing, food pigments, and dye-sensitized solar cells. -
Fluorescent Dye
Flavanthrone is a fluorescent dye characterized by its vibrant yellow appearance under specific conditions. It serves as a valuable tool in biological research for labeling and visualization in various imaging applications. Its unique fluorescent properties enable effective tracking of biological molecules, making it suitable for studies in cell biology and histology. -
Fluorescent Dye
Pigment Orange 13 is a pyrazolone-based fluorescent dye that exhibits strong optical properties. Its high stability and brightness make it suitable for various biological applications, including fluorescence microscopy and labeling in cellular assays. This compound is widely utilized in research settings for studying cellular processes and imaging techniques. -
Fluorescent Dye
Disperse Orange 1 is a fluorescent dye primarily targeting textile applications, specifically in fiber dyeing. This compound exhibits strong fluorescent properties, making it suitable for various research applications including fluorescence microscopy and cellular imaging. Its vibrant orange hue allows for enhanced visualization in biological assays and materials science experiments. -
Fluorescent Dye
Pigment Yellow 108 is a disazomethine dye known for its solid-state fluorescence properties. This fluorescent dye exhibits strong light absorption and emission characteristics, making it suitable for applications in biological imaging and labeling. Its unique photophysical properties are valuable for various research applications, including cellular studies and the development of fluorescent probes. -
Fluorescent Dye
Direct Red 254 is a fluorescent dye known for its ability to bind effectively to cotton fabrics. This compound exhibits strong staining properties, making it suitable for various applications in histology and tissue analysis, where visualizing cellular structures is critical. Direct Red 254 facilitates the study of biological samples, aiding researchers in assessing morphological characteristics. -
Fluorescent Dye
C.I. Pigment Red 5 is a fluorescent dye known for its stability and versatility across diverse applications. It exhibits strong color properties and retains its integrity when incorporated into various mediums, making it suitable for use in textiles, food, cosmetics, plastics, paint, and other industries. Its reliable performance in enhancing color in a wide range of formulations underlines its importance in chemical research and product development. -
Fluorescent Dye
C.I. Basic Red 14 is a fluorescent dye known for its strong affinity for amino acids and proteins. It demonstrates effective adsorption properties in aqueous solutions, particularly in intermittent systems utilizing tree ferns as biosorbents. This compound is commonly applied in biological research, especially in studies focused on dye-binding assays and environmental applications for pollutant removal. Its photostability and fluorescence characteristics make it a valuable tool for chemical analysis and visualization in various scientific disciplines. -
Fluorescent Dye
C.I. Basic Blue 41 is a fluorochrome dye that exhibits alkaline properties, making it suitable for various biological applications. It is commonly utilized in studies involving fluorescent microscopy and biological assays, particularly for staining cellular components. This dye has also been investigated for its capacity to be effectively removed from aqueous solutions through intermittent adsorption systems using tree ferns as biosorbents, highlighting its potential in environmental bioremediation applications. -
Fluorescent Dye
Fluorescent Brightener 85 is a fluorescent dye that enhances the visibility of materials by absorbing ultraviolet light and re-emitting it as visible light. This compound is commonly employed in various applications, including polymer and textile processing, as well as in biological research for fluorescence microscopy and imaging techniques. Its ability to significantly improve the fluorescence of samples makes it a valuable tool in molecular diagnostics and biomolecular studies. -
Fluorescent Dye
C.I. Pigment Red 123 is a fluorescent dye known for its exceptional stability and vibrant coloration. It exhibits strong resistance to degradation by the carrier medium, making it suitable for various applications across multiple industries, including textiles, medicine, food, cosmetics, plastics, paint, ink, photography, and paper. Its unique properties enable researchers to utilize this pigment in assays requiring reliable fluorescence and colorimetric detection. -
Fluorescent Dye
Sulfo-Cy5 carboxylic acid potassium is a water-soluble fluorescent dye that targets molecular imaging applications. It exhibits strong near-infrared fluorescence, making it suitable for various biological assays, including labeling and detection in live cell imaging and flow cytometry. This reagent is ideal for enhancing signal detection in multiplex assays and other fluorescence-based methodologies. -
Fluorescent Dye
Sulfo-Cyanine5.5 amine potassium functions as a water-soluble fluorescent dye, targeting the far-red to near-infrared spectrum for applications such as in vivo imaging. Characterized by its four sulfonate groups, it exhibits high hydrophilicity and exceptional brightness due to a robust extinction coefficient. The presence of an amine group, linked to the fluorophore by a prolonged linker, enables efficient conjugation to various electrophiles, including activated esters and epoxides, while also facilitating enzymatic transamination labeling. This makes Sulfo-Cyanine5.5 amine potassium an invaluable tool in advanced fluorescent labeling techniques. -
Fluorescent Dye
JF646-Hoechst is a fluorescent red DNA probe designed for use in PAINT (Point Accumulation for Imaging in Nanoscale Topography) experiments, particularly in bacterial studies. This dye provides a sensitive alternative to large oligonucleotide-coupled antibodies, facilitating the visualization of nucleic acids. With an excitation maximum of 655 nm and an emission maximum of 670 nm, JF646-Hoechst enables high-resolution imaging in biological research applications. -
Fluorochrome Dye
ATTO 550 is a fluorescent dye characterized by its high fluorescence yield, making it ideal for a variety of labeling applications. With an optimal excitation wavelength of 554 nm and an emission wavelength of 576 nm, it is well-suited for fluorescence microscopy, flow cytometry, and other imaging techniques. This dye enhances signal clarity and brightness, facilitating detailed analysis in biological and chemical research. -
Fluorescent Dye
Methyl 2-(7-hydroxy-2-oxo-2H-chromen-4-yl)acetate acts as a fluorescent dye through its unique coumarin structure. This compound is primarily utilized in the development of switchable fluorescent substrates, facilitating the detection of bacterial enzymes. Its properties make it a valuable tool for applications in biochemical assays and fluorescent imaging in research settings. -
Triphenylmethane Dye
Leucocrystal violet is a cationic triarylmethane dye that acts as a chromogenic reagent for the detection of hydrogen peroxide. It generates a purple product through reactions catalyzed by horseradish peroxidase, allowing the determination of submicrogram levels of hydrogen peroxide without interference from common substances such as tryptophan and persulfate. In addition to its use in oxidative assays, Leucocrystal violet exhibits weak fluorescence in unbuffered whole blood solutions, with maximum absorption at 630 nm and emission at 665 nm. This reagent is extensively utilized for staining blood residues on both porous and non-porous surfaces in various biological research applications. -
Fluorescent Dye
Cy2 DiC18 is a fluorescent dye belonging to the cyanine dye series, primarily utilized as a marker for biomolecules. This compound exhibits the ability to intercalate with double-helical DNA, resulting in enhanced fluorescence upon binding. Its key applications include imaging and tracking of biomolecular interactions, making it valuable in various fields of biochemical research. -
SNAP-EGFP Dye
SNAP-TMR is a fluorescent dye that specifically targets the SNAP-tag technology, allowing for precise labeling of SNAP-EGFP fusion proteins. This compound facilitates the visualization and tracking of protein dynamics in live cells, making it valuable for studies in cell biology, protein interactions, and tracking cellular processes. SNAP-TMR can be utilized in various imaging applications, enhancing the overall understanding of protein function and localization in biological research. -
Fluorescent Dye
PB LC acid is a blue-fluorescent dye that covalently reacts with primary amines found in biomolecules including peptides, proteins, modified nucleotides, and biopolymers. With an excitation/emission wavelength of 410/455 nm, it facilitates the labeling and visualization of biomolecules in various research applications. This reagent is particularly valuable for studies involving protein tracking, bioconjugation, and the development of fluorescence-based assays. -
Fluorescent Dye
C6 Biotin phytoceramide (t18:0/6:0) serves as an affinity probe utilizing biotin to facilitate the detection or immobilization of C6 phytoceramide. This compound is particularly valuable in applications requiring the visualization of ceramide interactions in cellular models. Researchers can leverage its fluorescent properties to study lipid behavior, signaling pathways, and membrane dynamics in biological systems. -
Fluorescent Probe
SNAP-430 is a fluorescent probe labeled with (diethylamino) coumarin, designed for use with the SNAP-tag technology. This reagent facilitates the development of SNAP-tag fusion proteins in living cells, on cell surfaces, or in vitro, enabling real-time monitoring of protein dynamics and localization. Its application is crucial for studies involving protein interactions, gene expression, and cellular imaging. -
Fluorescent Probe
SNAP-649 is a fluorescent probe that utilizes a DY-649P1 label for enhanced imaging capabilities. It selectively targets SNAP tags, allowing for precise visualization of protein localization and dynamics in live cells. This probe is suitable for applications in cellular imaging, protein interaction studies, and monitoring biological processes in real-time. -
SNAP tag Fluorescent Probe
BGSBD is a SNAP-tag-based fluorescent probe that exhibits excitation and emission maxima at 435 nm and 516 nm, respectively. This probe is engineered with the environmentally sensitive SBD fluorescent group, allowing for direct protein labeling in live cells without the need for washing steps. BGSBD demonstrates a significant fluorescence enhancement of 280-fold upon labeling, leveraging the hydrophobic binding pocket of the SNAP-tag protein. This unique characteristic makes it a valuable tool for real-time visualization and monitoring of protein dynamics within cellular environments. -
Fluorescent Probe
CLIP-Biotin is a biotin-labeled fluorescent probe designed to selectively bind CLIP-tag fusion proteins. This reagent enables the visualization and tracking of these proteins within cellular environments, facilitating studies in protein localization, interactions, and dynamics. Its versatility in fluorescent tagging makes it a valuable tool for researchers investigating cellular processes and protein function. -
Fluorescent Probe
BC-OG is a fluorescent probe labeled with Oregon Green, designed to specifically target CLIP-tagged fusion proteins. This reagent enables effective labeling of CLIP-tag fusion proteins within cellular environments, facilitating visualization and tracking in various biological studies. BC-OG is ideal for applications in protein interaction and localization analyses, contributing to advancements in cell biology research. -
Fluorescent Probe
BG-Kaede chromophore is a fluorescent probe specifically designed for SNAP-tag labeling, utilizing the chromophore of the red fluorescent protein Kaede. This compound serves as a valuable tool for visualizing proteins in living cells, enabling real-time monitoring of protein dynamics and interactions. Its distinct fluorescent properties aid in various applications including cellular imaging and tracking of protein localization in biological research. -
Fluorescent Dye
SiR-CLIP is a SiR-carboxyl derivative that serves as a fluorescent dye for the covalent labeling of CLIP tags. This reagent enables precise visualization of proteins and other biomolecules tagged with CLIP tags in live cell imaging and protein tracking studies. SiR-CLIP is valuable for applications in cellular biology and biochemistry, contributing to the understanding of protein interactions and dynamics. -
Fluorescent Labeling Reagent
5(6)-CR6G,SE (5(6)-Carboxyrhodamine 6G) is a fluorescent labeling reagent designed for fluorescence imaging applications, particularly in protein crystallization studies. This compound effectively binds to proteins, resulting in distinct fluorescence under defined excitation conditions. It has a peak absorption wavelength of approximately 525 nm and emits fluorescence with a peak wavelength around 550 nm when excited by a 530 nm green LED, making it an essential tool for visualizing protein interactions and dynamics in various research contexts. -
Labeling Dye
BP Fluor 488 acid triTEA is a labeling dye that targets amine groups in antibodies, proteins, peptides, amino-modified oligonucleotides, and other biomolecules. It features an excitation peak at 499 nm and an emission peak at 520 nm, making it suitable for a variety of fluorescent applications. The resulting conjugates are extensively utilized in microscopy and flow cytometry, facilitating the visualization and analysis of cellular components. -
Fluorescent Dye
5-TAMRA-NHS is a fluorescent dye utilizing a hydroxysuccinimide (NHS) group, which enables the covalent labeling of amine-containing biomolecules. This reagent exhibits strong fluorescent properties, with excitation and emission wavelengths of 541 nm and 567 nm, respectively. It is widely used in fluorescent imaging applications and assays, allowing for effective visualization and tracking of cellular processes in research settings. -
Fluorescent Dye
5-TAMRA-Terazine is a fluorescent dye characterized by its combination of 5-TAMRA and a Terazine group. This compound serves as a click chemistry reagent, featuring a Tetrazine moiety capable of undergoing an inverse electron demand Diels-Alder (iEDDA) reaction with TCO-containing compounds. With excitation and emission wavelengths of 541 nm and 567 nm, respectively, 5-TAMRA-Terazine is suitable for various biological applications, including target labeling and imaging in chemical biology research. -
Fluorescent Dye
5-TAMRA-DBCO is a fluorescent dye featuring a 5-TAMRA core conjugated to a dibenzocyclooctyne (DBCO) moiety. This compound enables efficient copper-free click chemistry reactions with azide-functionalized biomolecules, facilitating precise bioconjugation. With emission and excitation wavelengths of 541 nm and 567 nm, respectively, 5-TAMRA-DBCO is ideal for labeling proteins, peptides, and nucleic acids, making it a valuable tool for various biological imaging and analysis applications. -
Fluorescent Dye
5-FITC-Tetrazine is a fluorescent dye that integrates fluorescein isothiocyanate (FITC) with tetrazine chemistry, enabling targeted labeling and imaging applications. This reagent offers enhanced fluorescent properties, making it suitable for a variety of biological assays, including live-cell imaging and fluorescence microscopy. Its stability and compatibility with diverse biomolecules make it a valuable tool for researchers in the field of cellular biology and biochemistry. -
Reactive dye
MeCY5-NHS ester is a reactive dye that facilitates the covalent labeling of proteins and nucleic acids. This compound is particularly useful in fluorescence-based applications, enabling the visualization and tracking of biomolecules in complex biological systems. Its strong fluorescence properties make it an essential tool for various research applications, including imaging and analysis in cellular and molecular biology. -
Fluorescent Dye
SiRA 2 is a near-infrared (NIR) fluorescent dye that targets SiRA illumination aptamers, enabling the visualization of single RNA molecules within living cells. With an optimal excitation and emission wavelength of 649/662 nm, SiRA 2 is particularly useful for studies involving RNA dynamics and localization. This reagent is valuable for researchers exploring RNA biology and the development of RNA-targeting technologies. -
Hydroxymethyl Rhodamine Green Fluorescent Scaffold
HMRG, a hydroxymethyl rhodamine green fluorescent scaffold, exhibits an open non-cyclic structure that enables it to undergo significant dynamic fluorescence changes via a single enzymatic reaction at physiological pH. This characteristic makes HMRG ideal for the development of a range of fluorescent probes. Applications include fluorescence-based detection of diseases such as tumors and diabetic nephropathy, offering valuable tools for biomedical research and diagnostics. -
Fluorescent Dye
Closed-HMRG is a fluorescent dye characterized by a closed spirocyclic structure. In aqueous solution at physiological pH, closed-HMRG manifests increased fluorescence compared to its open nonspirocyclic counterpart, HMRG. This compound is highly effective for biological research applications, including cell imaging and tracking, due to its strong fluorescent properties. Its unique structural design enhances its utility in various fluorescence-based assays, providing researchers with valuable insights into cellular processes. -
Fluorescent Probe
6FC-GABA-Taxol is a fluorescent probe designed for imaging microtubules in living cells. This compound is formed by conjugating 6-fluorescein carboxylic acid (6FC) to the anticancer agent Taxol through γ-aminobutyric acid (GABA), allowing effective binding to microtubules. 6FC-GABA-Taxol facilitates high-resolution imaging via confocal microscopy and allows for microtubule quantification using flow cytometry without requiring efflux inhibitors, making it a valuable tool for cancer research and cellular dynamics studies. -
Fluorescent Dye
Alexa Fluor 680 NHS ester is a near-infrared (NIR) fluorescent dye that targets primary amines through its NHS ester functionality. It effectively labels proteins, amine-modified oligonucleotides, and other amine-containing molecules, emitting fluorescence with an excitation wavelength of 679 nm and an emission wavelength of 702 nm. This reagent is ideal for applications in imaging, diagnostics, and various studies requiring sensitive detection methods in the near-infrared spectrum. -
Fluorescent Dye
Cyanine 7-amine chloride hydrochloride is a fluorescent dye that targets cationic nanoparticles (NPs) and nanoparticle conjugates (NPCs). This compound enables the tracking of residence time and clearance of nanoparticles within biological systems, making it a valuable tool for in vivo imaging and biodistribution studies. Its fluorescent properties facilitate visualization and monitoring of cellular interactions and nanoparticle dynamics in research applications. -
Dye
Yellow Brown XF is a multifunctional dye that serves as a critical tool in biological research. It aids in the observation and analysis of cell structures, tracking of biomolecules, evaluation of cellular functions, and differentiation of cell types. Additionally, this dye is applicable in studying tissue pathology and monitoring microorganisms. Beyond biological applications, Yellow Brown XF is utilized in traditional textile dyeing, as well as in innovative fields such as functional textile processing, food pigmentation, and dye-sensitized solar cells. -
Dye
Cationic Golden Yellow 2K is a multifunctional dye that targets various biological structures and functions. This dye is essential for observing and analyzing cellular components, tracking biomolecules, evaluating cell functions, discriminating between cell types, detecting biomolecules, and studying tissue pathology. Its versatile applications extend from fundamental scientific research to clinical diagnostics, as well as traditional uses in textile dyeing and innovative fields such as functional textiles, food pigments, and dye-sensitized solar cells. -
Dye
Olive GB is a multifunctional dye known for its ability to stain and visualize biological specimens. This dye facilitates the observation and analysis of cellular structures, enabling researchers to track biomolecules, assess cellular functions, differentiate cell types, and investigate tissue pathology. Its applications extend beyond basic scientific research to include clinical diagnostics, as well as traditional and emerging fields such as textile dyeing, food pigmentation, and dye-sensitized solar cells. Olive GB serves as a versatile tool in various biological and industrial research settings. -
Dye
γ-[(6-Aminohexyl)-imido]-ATP-biotin is a multifunctional dye that primarily targets biological structures for visualization. This reagent plays a crucial role in biological experiments, enabling researchers to observe cell morphology, track biomolecules, and evaluate cellular functions. Its diverse applications extend from fundamental scientific research to clinical diagnostics, facilitating the detection of biomolecules, studying tissue pathology, and monitoring microorganisms. Moreover, this dye is also applicable in functional textile processing and other innovative fields like dye-sensitized solar cells. -
Dye
Biotin-tagged KR-33493 is a multifunctional dye utilized for various biological applications. This compound serves as a vital tool in observing and analyzing cellular structures, tracking biomolecules, and evaluating cell functions. Its versatility extends to distinguishing cell types, detecting biomolecules, studying tissue pathology, and monitoring microorganisms. Biotin-tagged KR-33493 is applicable in both fundamental scientific research and clinical diagnostics, as well as in traditional dyeing processes and emerging applications in functional textiles and dye-sensitized solar cells. -
Dye
Dye 40 is a multifunctional dye designed to enhance visibility and analysis in biological research. It serves as a vital tool for visualizing cell structures, tracking biomolecules, assessing cellular functions, distinguishing cell types, detecting target molecules, and investigating tissue pathology. Its applications extend from fundamental scientific research to clinical diagnostics, and it is also utilized in textile dyeing, functional textile processing, food coloring, and dye-sensitized solar cells. -
Dye
Alexa 532 is a multifunctional fluorescent dye designed for biological research applications. It enables researchers to visualize and analyze cellular structures, track biomolecules, and evaluate cellular functions. This dye is essential for distinguishing cell types, detecting biomolecules, studying tissue pathology, and monitoring microorganisms. In addition to its applications in scientific research and clinical diagnostics, Alexa 532 is also utilized in emerging fields such as functional textiles and dye-sensitized solar cells.
