Catalog |
name |
Description |
price |
R-R-0165 |
Fitc-leucine |
Fluorescein-L-leucine/Fluorescein-leucine refers to a conjugate of the fluorescent dye FITC (Fluorescein Isothiocyanate) with the amino acid leucine.The conjugation of FITC with leucine retains the basic properties of leucine while providing a fluorescent label for visualization purposes. This conjugate can be used in various research applications, including cell imaging, protein localization studies, and monitoring leucine uptake and utilization in different experimental systems. It provides a means to study the distribution, transport, and functions of leucine in the context of cell biology and metabolism. |
price> |
R-R-0169 |
FITC-polyallylamine hydrochloride |
FITC-polyallylamine hydrochloride/Fluorescein-polyallylamine hydrochloride is a compound where Fluorescein Isothiocyanate (FITC), a green fluorescent dye, is covalently attached to polyallylamine hydrochloride.This conjugation allows the functionalization of polyallylamine hydrochloride with FITC, enabling its use in various applications in cell and molecular biology research. As a fluorescent dye, FITC-polyallylamine hydrochloride can be used for cell labeling, protein analysis, flow cytometry, immunohistochemistry, and other fluorescence-based techniques. |
price> |
R-R-0172 |
Arginine FITC |
Arginine FITC/Arginine-Fluorescein refers to the fluorescent labeling of the amino acid arginine with Fluorescein Isothiocyanate (FITC), a green fluorescent dye. Arginine FITC can be used in various applications, including fluorescence microscopy, flow cytometry, immunohistochemistry, and fluorescence-based assays. It enables the investigation of arginine-containing molecules and their roles in cellular processes, protein-protein interactions, and molecular interactions in biological systems. |
price> |
R-R-0175 |
FITC-chloramphenicol |
FITC-chloramphenicol refers to the fluorescent labeling of the antibiotic chloramphenicol with the green fluorescent dye Fluorescein Isothiocyanate (FITC). Chloramphenicol is a broad-spectrum antibiotic commonly used in medicine and research.FITC-chloramphenicol can be used for various applications, including fluorescence microscopy, flow cytometry, and fluorescence-based assays. It enables the investigation of the distribution, uptake, and localization of chloramphenicol in biological systems. |
price> |
R-R-0177 |
TK-Curcumin-TK |
Thioketal Curcumin Thioketal refers to a modified form of curcumin where a thioketal group is introduced into the structure. Curcumin is a naturally occurring compound found in turmeric that has been widely studied for its potential health benefits.Thioketal Curcumin Thioketal retains the characteristic yellow color of curcumin, and the specific modification can influence its properties and biological activities. |
price> |
R-R-0186 |
FITC-palmitic acid |
FITC-palmitic acid/Fluorescein-palmitic acid refers to the conjugate of the fluorescent dye FITC (fluorescein isothiocyanate) with palmitic acid, a long-chain saturated fatty acid.FITC-palmitic acid can be used in a variety of experiments to study lipid metabolism, membrane dynamics, lipid-protein interactions, and other related processes. Its fluorescent properties allow for visualization and detection, providing insights into the behavior and role of palmitic acid within biological systems. |
price> |
R-R-0188 |
FITC-T7 peptide |
FITC-T7 peptide/Fluorescein-T7 peptide refers to a conjugate of the fluorescent dye FITC (fluorescein isothiocyanate) with the T7 peptide sequence. FITC-T7 peptide has various applications in biomedical research, particularly in studying T7 RNA polymerase interactions, protein-protein interactions mediated by the T7 peptide sequence, and investigating the expression and localization of T7-tagged proteins within cells or tissues. Its fluorescent properties allow for easy detection and visualization, aiding in the understanding of biological processes and molecular interactions involving the T7 peptide. |
price> |
R-R-0199 |
FITC Whey Protein |
FITC Whey Protein/Fluorescein Whey Protein is a conjugate formed by attaching fluorescein isothiocyanate (FITC), a fluorescent dye, to whey protein.FITC Whey Protein is commonly used as a fluorescent probe in various biological applications. It can be used to study protein uptake, localization, and trafficking in cells or tissues. FITC-labeled proteins are widely utilized tools in biological research and diagnostics for their ability to provide visual and quantitative information about the distribution, dynamics, and interaction of proteins within biological systems. |
price> |
R-R-0202 |
FITC-yeast mannan oligosaccharide |
FITC-yeast mannan oligosaccharide/Fluorescein-yeast mannan oligosaccharide is a conjugate formed by attaching the fluorescent dye FITC to yeast mannan oligosaccharides. FITC-yeast mannan oligosaccharide is commonly used as a fluorescent probe in various biological applications. The attachment of FITC to yeast mannan oligosaccharides allows for the labeling and visualization of these molecules in samples. It can be used to study the binding, uptake, and distribution of yeast mannan oligosaccharides in cells or tissues. |
price> |
R-R-0205 |
Sema3A-FITC |
Sema3A-FITC refers to the conjugation of the protein Sema3A with the fluorescent dye FITC (Fluorescein isothiocyanate).The conjugation of Sema3A with FITC enables the labeling and visualization of Sema3A in biological samples. This can be utilized in various research applications, particularly in studies involving neuronal development, cell migration, and angiogenesis. By conjugating Sema3A with FITC, it becomes possible to track the distribution, binding, and movement of Sema3A in cells or tissues using fluorescence microscopy or flow cytometry. |
price> |