Catalog No.
Product Name
Application
Product Information
Citations
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Fluorochrome Dye
TAMRA-PEG2-NH2 is a fluorochrome dye derivative of TAMRA featuring a PEG linker composed of two ethylene glycol units. The presence of amino groups allows for condensation reactions with carboxyl groups, facilitating the formation of stable covalent bonds. This reagent is ideal for applications in bioconjugation, enabling effective labeling of biomolecules for fluorescence studies and other biological research. -
Fluorochrome Dye
Coumarin 343 X NHS ester is a fluorochrome dye that acts as a hydrophilic fluorescent probe. It is particularly useful in microfluidic applications, enabling the visualization of biological processes through its fluorescent properties. This reagent can be employed in various research fields, including cell imaging and fluorescence-based assays. The NHS ester functional group facilitates covalent labeling of amino groups in biomolecules, enhancing its utility in chemical biology and bioconjugation studies. -
Fluorochrome Dye
Coumarin-PEG3-TCO is a fluorochrome dye that incorporates three PEG units to enhance solubility and stability. Its TCO group facilitates an inverse electron demand Diels-Alder reaction (iEDDA) with tetrazine-bearing molecules, making it ideal for bioorthogonal labeling applications. This reagent is particularly useful in fluorescence microscopy and tracking cellular processes in live cells. -
Fluorochrome Dye
Coumarin-PEG2-TCO is a fluorescent dye that features a coumarin backbone modified with two PEG units. It utilizes a trans-cyclooctene (TCO) group to engage in an inverse electron demand Diels-Alder (iEDDA) reaction with tetrazine-containing compounds. This compound is valuable in biological imaging applications and has potential uses in the development of targeted fluorescent probes for live-cell imaging and other bioconjugation strategies. -
Fluorescent Alendronate
Cy5-ALN is a fluorescently labeled alendronate derivative that targets bone mineralization and resorption processes. This compound serves as a powerful probe for imaging studies, allowing for the examination of bisphosphonate distribution and action within bone tissues. Its application includes facilitating research in bone-related diseases, such as osteoporosis, as well as studies assessing the efficacy of therapeutic agents. -
Fluorescent Probe
NBDT is a selective fluorescent probe for the detection of gallium and chromium ions. This reagent demonstrates a significant light-up response, enabling sensitive monitoring of metal ions in both in vitro and in vivo experiments. With a detection wavelength of 574 nm, NBDT is ideal for applications in metallomics and environmental monitoring. -
Fluorescent Dye
AF647-NHS ester tripotassium is a fluorescent dye that employs the NHS ester mechanism for covalent attachment to amine-containing biomolecules, including proteins and antibodies. This compound exhibits bright far-red fluorescence with an excitation wavelength of 635 nm, making it suitable for various fluorescence detection applications. Its robust properties make it an excellent choice for labeling and tracking biological molecules in imaging and diagnostic research. Store protected from light to maintain stability and performance. -
Fluorescent Dye
C.I. Vat Yellow 2 is a fluorescent dye that exhibits significant chromatic properties. It is primarily utilized in various applications, including paper dyeing and materials science, due to its ability to impart vibrant yellow coloration. This compound is valuable in research settings focused on the development of dyes and pigments with fluorescent capabilities. -
Fluorochrome Dye
Cyanine7.5 carboxylic acid chloride is a near-infrared fluorochrome dye that serves as a versatile tool for biological imaging applications. It features carboxylic acid functional groups, allowing for covalent attachment to various biomolecules, such as proteins and antibodies. This enables researchers to monitor the localization and dynamic behavior of these molecules in biological samples, facilitating studies in cell biology, diagnostics, and therapeutic development. -
Fluorochrome Dye
Cy3 azide plus is a Cyanine 3 (Cy3) dye derivative featuring an azide functional group, primarily utilized as a fluorochrome. It exhibits fluorescence within the green to orange wavelength range, making it suitable for various imaging applications. The azide group can react with molecules possessing alkyne functionalities, facilitating the formation of covalent bonds with biomolecules, such as proteins and antibodies. This enables tracking and visualization of biomolecular localization and dynamic changes in biological samples, supporting a wide range of research endeavors in cellular biology and biochemistry. -
Fluorochrome Dye
Sulfo-Cy7.5 carboxylic acid is a near-infrared fluorochrome dye that features both carboxylic acid and sulfonate functional groups, enhancing its solubility in aqueous solutions. This compound is widely utilized in biomedical research for its applications in biomarker visualization and cell imaging. Sulfo-Cy7.5 carboxylic acid can be covalently conjugated to various biomolecules, including antibodies and proteins, allowing for the tracking of their localization and dynamic behavior in biological assays. -
Fluorochrome Dye
Sulfo-Cy3 hydrazide is a cyanine 3 (Cy3) dye derivative featuring hydrazine functionality, designed for use as a fluorescent label in biological research. The sulfonate group enhances solubility in aqueous solutions, making it ideal for various biochemical applications. This fluorescent dye emits in the green to orange wavelength range and can covalently bond through hydrazinone coupling with aldehyde or ketone-containing molecules. Sulfo-Cy3 hydrazide is particularly useful for tracking the location and dynamic behavior of biomolecules such as proteins and antibodies in various biological samples. -
Fluorochrome Dye
Cyanine7.5 azide chloride is a near-infrared fluorescent dye derivative of Cyanine 7.5, featuring an azide functional group. This compound is primarily utilized as a biolabeling agent for cell imaging, facilitating the covalent bonding with molecules that possess alkyne functionality through click chemistry. Cyanine7.5 azide chloride enables the tracking of biomolecules, including proteins and antibodies, to study their localization and dynamic changes within biological samples. -
Fluorochrome Dye
Cyanine7.5 carboxylic is a derivative of the near-infrared fluorescent dye, Cyanine 7.5, featuring carboxylic acid functional groups. This fluorochrome dye is primarily utilized in biomedical research for applications such as cell imaging and biomarker detection. Cyanine7.5 carboxylic can be covalently conjugated to various biological molecules, including proteins and antibodies, enabling researchers to track their location and dynamic behavior in biological samples effectively. -
Azo Dye
Acid Red 4 is an azo dye known for its vibrant coloration properties. It has a maximum absorbance at 508 nm, making it suitable for various analytical applications. This compound is commonly utilized in biochemical assays and staining procedures, particularly in the study of cellular structures and processes. -
Fluorescent Dye
HEX azide, 6-isomer, is a derivative of the fluorescent dye hexachlorofluorescein (HEX) and serves as a versatile fluorescent labeling agent for oligonucleotides. This compound exhibits strong fluorescence properties, making it suitable for various applications in nucleic acid labeling and detection. Its ability to selectively tag oligonucleotides enables enhanced visualization in molecular biology research and diagnostic applications. -
Fluorescent Probe
6-Hexachloro-fluorescein phosphoramidite is a fluorescent probe designed for the efficient labeling of oligonucleotides. Its unique hexachlorofluorescein structure allows for enhanced fluorescence, making it suitable for various applications in molecular biology, including nucleic acid detection and visualization. This reagent is ideal for research involving gene expression, hybridization assays, and other studies requiring fluorescent tagging of nucleic acids. -
Fluorescent Probe
6-TET Azide is a fluorescent probe that serves as a versatile tool for the development of fluorescent contrast agents and nucleic acid sequencing applications. Its unique chemical properties allow for effective labeling and detection of biomolecules, enhancing visualization in various biological assays. 6-TET Azide is particularly valuable in studies requiring sensitive fluorescence-based methodologies. -
Fluorescent Dye
6-TET phosphoramidite (5′-Tetrachlorofluorescein phosphoramidite) is a fluorescent dye designed for the efficient labeling of oligonucleotides with fluorescein. This compound exhibits strong fluorescent properties, making it ideal for various applications in molecular biology, including the tracking of nucleic acids and studying hybridization events. Its unique characteristics facilitate high sensitivity and accuracy in fluorescent assays, enhancing experimental outcomes in nucleic acid research. -
Fluorescent Dye
ATTO 680 maleimide is a fluorescent dye designed for efficient labeling of proteins and antibodies through maleimide conjugation. This dye exhibits strong absorption characteristics, a high fluorescence quantum yield, and remarkable thermal and photochemical stability. Its robust performance makes it ideal for applications such as single molecule detection and high-resolution microscopy, enabling precise imaging and analysis in biological research. -
Fluorescent Dye
ATTO 680 NHS ester is a fluorescent dye targeting protein labeling through its reactive NHS ester functionality. Exhibiting strong absorption and a high fluorescence quantum yield, this compound provides exceptional thermal and photochemical stability. It is ideal for applications in single molecule detection and high-resolution microscopy, facilitating advanced research in biologically relevant systems. -
Fluorescent Dye
ATTO 740 NHS ester is a fluorescent dye that functions as an NHS ester derivative of ATTO 740. This compound exhibits strong absorption and a high fluorescence quantum yield, along with exceptional thermal and photochemical stability. It is primarily used for labeling proteins and antibodies, making it suitable for applications in single molecule detection and high-resolution microscopy. -
Fluorescent Dye
ATTO 532 maleimide is a fluorescent dye designed for protein and antibody labeling, featuring a maleimide reactive group for specific conjugation. This compound exhibits strong absorption properties along with a high fluorescence quantum yield, ensuring optimal signal detection in various applications. With excellent thermal and photochemical stability, ATTO 532 maleimide is ideal for single molecule detection and high-resolution microscopy, making it a valuable tool for advanced biological imaging and research. -
Fluorescent Dye
ATTO 532 NHS ester is a fluorescent dye that utilizes the Rhodamine structure for effective labeling applications. It exhibits strong absorption and a high fluorescence quantum yield, along with enhanced thermal and photochemical stability. This compound is ideal for single molecule detection and high-resolution microscopy. The NHS ester functional group allows for efficient conjugation to proteins or antibodies, facilitating versatile applications in biochemical research and imaging studies. -
Fluorescent Dye
ATTO 550 maleimide is a fluorescent dye derived from the Rhodamine structure, exhibiting strong absorption and high fluorescence quantum yield. Its exceptional thermal and photochemical stability makes it ideal for applications such as single molecule detection and high-resolution microscopy. This maleimide derivative allows for effective labeling of proteins or antibodies, facilitating advanced research in cellular imaging and biomolecular studies. -
Fluorescent Dye
ATTO 550 NHS ester is a fluorescent dye that targets proteins for labeling applications. This NHS ester derivative exhibits strong absorption and high fluorescence quantum yield, making it ideal for single-molecule detection and high-resolution microscopy. With excellent thermal and photochemical stability, ATTO 550 NHS ester is suitable for a variety of research applications in the fields of cell imaging and biomolecular studies. -
Fluorescent Dye
ATTO 425 NHS ester is a fluorescent dye that operates through the Rhodamine structure, providing strong absorption and high fluorescence quantum yield. This compound exhibits excellent thermal and photochemical stability, making it ideal for applications in single molecule detection and high-resolution microscopy. As an NHS ester derivative, ATTO 425 NHS ester is particularly useful for labeling proteins or antibodies in various biological assays. -
Fluorescent Dye
ATTO 488 maleimide is a fluorescent dye that primarily targets proteins for labeling applications. This maleimide derivative of ATTO 488 exhibits strong absorption and high fluorescence quantum yield, making it ideal for single molecule detection and high-resolution microscopy. Its exceptional thermal and photochemical stability enhances its utility in various biological research applications, including the study of protein interactions and dynamics. -
Fluorescent Dye
ATTO 565 NHS ester is a fluorescent dye that primarily targets proteins and antibodies through covalent labeling. As a derivative of Rhodamine, it exhibits strong absorption characteristics, a high fluorescence quantum yield, and exceptional thermal and photochemical stability. This makes ATTO 565 NHS ester especially suitable for applications in single molecule detection and high-resolution microscopy, enabling precise visualization in various biological research contexts. -
Fluorescent Dye
ATTO 633 NHS ester is a fluorescent dye that serves as a versatile marker for biological applications. With its Rhodamine-based structure, it exhibits strong absorption and high fluorescence quantum yield, making it suitable for single molecule detection and high-resolution microscopy. This NHS ester derivative enables efficient labeling of proteins and antibodies, enhancing visualization in fluorescence microscopy experiments. -
Fluorescent Dye
ATTO 465 NHS ester is a fluorescent dye that serves as a powerful tool for labeling proteins and antibodies through its NHS ester functional group. With robust absorption and a high fluorescence quantum yield, this compound exhibits excellent thermal and photochemical stability, making it suitable for applications in single molecule detection and high-resolution microscopy. Its unique properties enable precise visualization in various biological research settings. -
Fluorescent Dye
ATTO 590 NHS ester is a fluorescent dye derived from the Rhodamine structure, featuring strong absorption and high fluorescence quantum yield. This compound offers excellent thermal and photochemical stability, making it ideal for applications such as single molecule detection and high-resolution microscopy. The NHS ester functionality enables effective labeling of proteins or antibodies, facilitating advanced studies in molecular biology and biochemistry. -
Fluorescent Dye
ATTO 390 NHS ester is a fluorescent dye targeting protein labeling through NHS ester chemistry. It displays strong absorption and high fluorescence quantum yield, making it suitable for applications in single molecule detection and high-resolution microscopy. This compound exhibits excellent thermal and photochemical stability, facilitating reliable performance in biological assays and imaging studies. -
Fluorescent Dye
ATTO 390 is a fluorescent dye based on the Rhodamine structure, exhibiting strong absorption and a high fluorescence quantum yield. This dye demonstrates excellent thermal and photochemical stability, making it highly suitable for applications in single molecule detection and high-resolution microscopy. Researchers can utilize ATTO 390 for various fluorescence imaging techniques, enhancing sensitivity and resolution in biological studies. -
Indoline dye
D 131 is an indoline dye that exhibits prominent orange coloration, characterized by an absorption maximum at λ=425 nm. This reagent is primarily utilized in dye sensitized solar cells and various photonic applications due to its excellent light absorption properties. Its distinctive spectral profile makes it suitable for research in photochemistry and material science. -
Fluorescent Dye
ATTO 425 is an uncharged fluorescent dye that exhibits strong fluorescence and high photostability. It is primarily used for labeling biomolecules, enabling high-resolution imaging in various biological research applications. ATTO 425 is appropriate for fluorescence microscopy, flow cytometry, and other techniques requiring reliable visual detection of labeled targets. -
Fluorochrome Dye
ATTO 532 is a fluorochrome dye with high fluorescence yield, optimized for a wide range of labeling applications. It exhibits maximum excitation and emission wavelengths of 532 nm and 552 nm, respectively, making it ideal for various fluorescence-based assays. This dye is suitable for use in microscopy, flow cytometry, and other applications requiring precise fluorescence detection. -
Fluorochrome Dye
ATTO 740 is a fluorescent dye that exhibits high fluorescence yield, making it suitable for a variety of labeling applications. Its optimal excitation and emission wavelengths are 743 nm and 763 nm, respectively. This dye is ideal for use in fluorescence microscopy, flow cytometry, and other applications requiring bright and stable fluorescent signals. -
Fluorochrome Dye
ATTO 680 is a fluorescent dye characterized by its high fluorescence yield, making it suitable for a wide range of labeling applications in biochemical research. With maximum excitation and emission wavelengths of 681 nm and 698 nm, respectively, it provides enhanced detection sensitivity in various imaging techniques. This dye is ideal for applications including microscopy and flow cytometry, where precise visualization and quantification of biomolecules are critical. -
Fluorochrome Dye
ATTO 488 streptavidin is a biotin-binding protein conjugated with the ATTO 488 fluorochrome, designed for sensitive fluorescence labeling of proteins or antibodies. With a maximum excitation wavelength of 500 nm and an emission wavelength of 520 nm, it exhibits high fluorescence intensity, making it suitable for various imaging applications, including fluorescence microscopy and flow cytometry. This reagent is ideal for studies involving biotinylated probes in biological research and diagnostics. -
Fluorochrome Dye
ATTO 665 is a fluorescent dye that exhibits high fluorescence yield, making it suitable for a wide range of labeling applications. It has a maximum excitation wavelength of 663 nm and an emission wavelength of 680 nm, facilitating effective visualization in various biological assays. This versatile fluorochrome can be utilized in techniques such as fluorescence microscopy and flow cytometry, enhancing the sensitivity and clarity of detection in research settings. -
Fluorochrome Dye
ATTO 565 is a fluorescent dye that exhibits high fluorescence yield, making it suitable for a wide range of labeling applications. With a maximum excitation wavelength of 564 nm and an emission wavelength of 590 nm, ATTO 565 provides excellent sensitivity and brightness for imaging techniques. Its robust performance in various biological assays supports its use in fluorescence microscopy and other advanced analytical methods. -
Fluorochrome Dye
ATTO 633 is a fluorochrome dye characterized by a high fluorescence yield, making it suitable for diverse labeling applications in biological research. It exhibits maximum excitation and emission wavelengths of 630 nm and 651 nm, respectively, facilitating precise imaging and detection of biomolecules. This dye is ideal for use in fluorescence microscopy, flow cytometry, and other techniques requiring efficient fluorescent labeling. -
Fluorochrome Dye
ATTO 465 Maleimid is a maleimide ester derivative of the fluorochrome dye ATTO 465, designed for the selective labeling of proteins or antibodies. This compound exhibits a maximum excitation wavelength of 453 nm and an emission wavelength of 506 nm, making it suitable for a variety of fluorescence-based applications. Its high quantum yield and photostability enhance its utility in advanced imaging techniques and biochemical assays. -
Fluorochrome Dye
ATTO 465 is a fluorescent dye characterized by its excellent photostability and optimal excitation and emission wavelengths of 453 nm and 506 nm, respectively. This dye is particularly useful for imaging applications in fluorescence microscopy and flow cytometry. Due to its favorable properties, ATTO 465 is ideal for labeling biomolecules and enhancing signal detection in various biochemical assays. -
Fluorochrome Dye
ATTO 590 is a fluorescent dye characterized by its high fluorescence yield, making it suitable for a wide range of labeling applications. It features a maximum excitation wavelength of 594 nm and an emission wavelength of 622 nm, facilitating effective visualization in various biological assays. This compound is particularly valuable in fluorescence microscopy and flow cytometry, enhancing the detection sensitivity of target molecules. -
Fluorochrome Dye
ATTO 425 Azide is a fluorochrome dye designed for use in click chemistry applications, featuring a maximum excitation and emission wavelength of 439/489 nm. This compound contains an azide functional group that enables it to participate in copper-catalyzed azide-alkyne cycloaddition (CuAAc) with alkyne-containing molecules. Additionally, ATTO 425 Azide can engage in strain-promoted alkyne-azide cycloaddition (SPAAC) reactions with DBCO or BCN-functionalized compounds, making it valuable for labeling and imaging applications in biochemical research. -
Fluorochrome Dye
ATTO 425 Maleimide is a maleimide ester derivative utilized as a fluorochrome dye for protein and antibody labeling. It exhibits maximum excitation and emission wavelengths of 439 nm and 489 nm, respectively. This compound is applicable in fluorescence microscopy and flow cytometry, facilitating the study of protein interactions and localization in various biological contexts. -
Fluorochrome Dye
ATTO 390 azide is a fluorochrome dye characterized by its excitation and emission maxima at 390 nm and 476 nm, respectively. This compound serves as a versatile click chemistry reagent, featuring an azide group that engages in copper-catalyzed azide-alkyne cycloaddition (CuAAc) with alkyne-containing molecules. Additionally, ATTO 390 azide is capable of participating in strain-promoted alkyne-azide cycloaddition (SPAAC) reactions with DBCO or BCN-functionalized compounds. Its applications include labeling and visualization in various biological research settings, enhancing molecular imaging and bioconjugation studies. -
Fluorochrome Dye
ATTO 390 maleimide is a fluorochrome dye that acts as a maleimide ester derivative of ATTO 390, allowing for selective labeling of proteins or antibodies. This compound exhibits maximum excitation and emission wavelengths of 390 nm and 476 nm, respectively. It is primarily utilized in fluorescence microscopy and flow cytometry applications to enhance visualization and quantification of biomolecules in various research settings.
