Catalog |
name |
Description |
price |
R-R-0020 |
AF488-NHS |
Alexa Fluor 488 NHS/AF488 NHS ester. AF488 is a bright and photostable dye, equivalent of Alexa Fluor® 488. Due to its high hydrophilicity, this is a dye of choice for the labeling of sensitive proteins and antibodies. The dye is useful for many demanding applications, including microscopy. This NHS ester is an amine reactive dye, it can label amine groups in proteins, peptides, amino-modified oligos, and other target molecules. |
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R-R-0055 |
CY5-Temozolomide |
The CY5-Temozolomide conjugate can be used for several purposes. It can be employed in fluorescence imaging techniques to study the distribution and localization of temozolomide in cells or tissues. Additionally, it can be utilized to investigate drug uptake and release kinetics, assess intracellular drug trafficking, or analyze drug-target interactions.By conjugating temozolomide with CY5, researchers can gain insights into the pharmacokinetics, biodistribution, and efficacy of the drug, as well as monitor its cellular localization and potential resistance mechanisms. |
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R-R-0059 |
ATTO-425 |
Atto 425 dye presents a strong absorption capability, along with high photo-stability and moderate hydrophilicity. This dye is also characterized by a high fluorescence quantum yield, which is referred as the ratio between absorbed photons and emitted fluorescence photons. lt presents a coumarin structure, and it is usually coupled to DNA and RNA oligonucleotides. |
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R-R-0108 |
disulfo-ICG NHS ester |
Disulfo-ICG NHS refers to a compound that is derived from indocyanine green (ICG) through the addition of disulfonic acid groups and the N-hydroxysuccinimide (NHS) functional group.The compound can be employed in various research areas, including molecular imaging, fluorescence-guided surgery, targeted drug delivery, and biosensing. Its ability to selectively bind to specific targets through bioconjugation enables the detection and characterization of cellular processes, disease markers, or specific biomolecules in a noninvasive manner. |
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R-R-0118 |
TRITC-Hippeastrum hybrid (amaryllis) (HHA) |
TRITC-Hippeastrum hybrid (amaryllis) (HHA) is a specific biomolecule used in biological research to label and visualize certain glycan structures. TRITC-Hippeastrum hybrid (amaryllis) (HHA) is an important tool for investigating the structure and function of glycans in biological systems, allowing researchers to better understand the role of these molecules in health and disease. |
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R-R-0171 |
C-Phycocyanin CAS 11016-15-2 |
C-Phycocyanin (C-PC) is a blue-green, water-soluble pigment present in photosynthetic bacteria and cyanobacteria. Composed of alpha and beta subunits connected by a covalent bond, it functions as a biliprotein.The scientific research applications of C-Phycocyanin are wide-ranging. It is employed in the investigation of photosynthesis and light-harvesting processes. Furthermore, it finds utility in biotechnology endeavors such as biofuel and bioplastic production. The biochemistry of cyanobacteria, alongside the development of novel antibiotics and drugs, is also an area where C-Phycocyanin contributes. The biochemical and physiological effects of C-Phycocyanin are multifaceted. It exhibits antioxidant and anti-inflammatory properties, while also possessing immunostimulatory and anti-cancer effects. |
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R-R-0257 |
Fitc-Corn Starch |
FITC (fluorescein isothiocyanate) corn starch refers to corn starch labeled with fluorescent group FITC. FITC is a widely used green fluorescent dye that can bind to various molecules. The FITC labeling process typically involves a reaction between the isothiocyanate group of FITC and the nucleophilic group (such as amine or hydroxyl) on corn starch molecules. After successful conjugation, FITC labeled corn starch can be studied under a fluorescence microscope or used for other fluorescence assays. |
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R-R-0274 |
FITC-hyaluronidase |
FITC-hyaluronidase refers to a conjugate in which the enzyme hyaluronidase is labeled with the fluorescent dye FITC (fluorescein isothiocyanate). FITC-hyaluronidase can be used in various experimental applications. For example, it can be utilized to investigate the penetration and degradation of hyaluronic acid in tissues or in vitro models. This can provide valuable insights into the role of hyaluronidase in tissue remodeling, wound healing, cancer metastasis, and other physiological processes. |
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R-R-0342 |
ICG-NOTA |
ICG-NOTA is a near-infrared fluorescent dye, and the synthesis method of ICG-NOTA includes coupling isoindigo blue (ICG) with NOTA (hexaaminoazacyclopentane). ICG is a near-infrared fluorescent dye with high molar extinction coefficient and long wavelength emission, which can penetrate deep tissues. NOTA is a commonly used chelating agent that can combine with various metal ions to form stable and biocompatible complexes. ICG-NOTA fluorescence imaging technology has good sensitivity and specificity. |
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RZ-153 |
HA-SS-FITC |
HA-SS-FITC,Hyaluronate-S-S-fluorescein from ruixi.Hyaluronate-s-s-fluorescein is a fluorescent labeled bisulfide hyaluronic acid.Hyaluronate is a kind of natural macromolecular acidic mucopolysaccharide with linear molecular structure, which can realize active targeted drug delivery.We can also provide a variety of other high-quality products,such as phospholipids,PEG derivatives,block copolymers, nanoparticles,microspheres and so on. |
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