Catalog |
name |
Description |
price |
R-M1-8886 |
Cy3-cadaverine |
Cy3-cadaverine can be used in biological research as a fluorescent marker for various applications. For example, it could be used to label and track specific molecules or proteins in cellular and molecular studies.The use of Cy3-cadaverine may also extend to techniques such as fluorescence microscopy, flow cytometry, and fluorescence resonance energy transfer (FRET) assays, where the presence and movement of specific molecules need to be visualized and studied. |
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R-M1-8892 |
Cy5-Prednisolone Sodium Phosphate |
Cy5-Prednisolone Sodium Phosphate likely refers to a conjugate of the fluorescent dye Cy5 and Prednisolone Sodium Phosphate, a synthetic glucocorticoid medication with anti-inflammatory and immunosuppressive effects.By conjugating Cy5 to Prednisolone Sodium Phosphate, the resulting complex can be used as a tool for pharmacological and biological studies, such as investigation of drug transport mechanisms, drug distribution in tissues, and drug-target interactions. |
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R-M1-8917 |
Cy3 Inulin |
Cy3-Inulin is a red fluorescent Inulin conjugate with excitation/emission wavelength around 546 nm/575 nm. Cy3-Inulin can be utilized as a fluorescent tracer to track the movement, distribution, and uptake of inulin in biological systems, including cellular imaging, in vivo imaging, or fluorescence-based detection methods. |
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R-M1-8918 |
Cy3.5 Inulin |
Cy3.5-Inulin is a purple fluorescent Inulin conjugate with excitation/emission wavelength around 595 nm/605 nm.Cy3.5-Inulin can be utilized as a fluorescent tracer to track the movement, distribution, and uptake of inulin in biological systems, including cellular imaging, in vivo imaging, or fluorescence-based detection methods. |
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R-M1-8919 |
Cy5 Inulin |
Cy5-Inulin is a cyanine dye labeled conjugate that has excitation/emission wavelength around 650 nm/670 nm.Cy5-Inulin can be utilized as a fluorescent tracer to track the movement, distribution, and uptake of inulin in biological systems, including cellular imaging, in vivo imaging, or fluorescence-based detection methods. |
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R-M1-8920 |
Cy5.5 Inulin |
Cy5.5-Inulin is a near infrared (Near IR) fluorescent Inulin conjugate with excitation/emission wavelength around 680 nm/700 nm.Cy5.5-Inulin can be utilized as a fluorescent tracer to track the movement, distribution, and uptake of inulin in biological systems, including cellular imaging, in vivo imaging, or fluorescence-based detection methods. |
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R-M1-8921 |
Cy7 Inulin |
Cy7-Inulin is a near-infrared fluorescent Inulin conjugate with excitation/emission wavelength around 743 nm/767 nm. Cy7-Inulin can be utilized as a fluorescent tracer to track the movement, distribution, and uptake of inulin in biological systems, including cellular imaging, in vivo imaging, or fluorescence-based detection methods. |
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R-M1-8922 |
Cy7.5 Inulin |
Cy7.5-Inulin is a near infrared (Near IR) fluorescent Inulin conjugate with excitation/emission wavelength around 780 nm/800 nm.Cy7.5-Inulin can be utilized as a fluorescent tracer to track the movement, distribution, and uptake of inulin in biological systems, including cellular imaging, in vivo imaging, or fluorescence-based detection methods. |
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R-M1-8925 |
Heparin,Cy3 labeled |
Cy3 labeled heparin refers to heparin that has been chemically modified with Cy3, a fluorescent dye, for use in research and diagnostic applications. This modification allows researchers to track the location and behavior of heparin in biological systems, such as cells or tissues, using fluorescence microscopy or other imaging techniques. This can be useful for studying the interactions of heparin with other molecules or for developing new diagnostic tools. |
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R-M1-8926 |
Heparin, Cy5.5 labeled |
Heparin, Cy5.5 labeled, refers to heparin that has been chemically modified with Cy5.5, a fluorescent dye. The modification allows researchers to track the movement, distribution, and behavior of heparin in biological systems using imaging techniques, such as fluorescence microscopy. This labeled heparin can be useful for studying the interactions of heparin with other molecules, cells, or tissues in research and diagnostic applications. Additionally, it can aid in drug development and the creation of new diagnostic tools. |
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