Streptomyces avidin modified polystyrene red fluorescent microspheres

Product Name

Name：Streptomyces avidin modified polystyrene  red fluorescent microspheres

^{Product Overview}

The red fluorescent polystyrene microspheres modified with streptavidin are based on the red fluorescent polystyrene microspheres modified with streptavidin. The high affinity binding between biotin and streptavidin is the basis for the development of this field. Biotin is a small molecule that can be covalently attached to various biomolecules, while streptavidin can specifically recognize and bind to biotin.

^{Technical Parameter}

Customized products, please consult for ordering

^{Product Features}

High biocompatibility: The surface modification of polystyrene microspheres gives them good compatibility in biological systems.

High sensitivity: Due to the high affinity between streptavidin and biotin, these particles exhibit high sensitivity in detection applications.

High specificity: The streptavidin biotin system provides highly specific binding.

Application Fields

Biological detection and diagnosis: Utilizing the high affinity between streptavidin and biotin, polystyrene microspheres can serve as a detection platform for capturing and detecting specific biomolecules, such as proteins, nucleic acids, etc.

Immunoassay: In the development of lateral flow chromatography reagents, polystyrene microspheres modified with streptavidin can be used for immunoassay, providing highly specific and sensitive detection results.

Biosensors: Microspheres can be used as a part of biosensors, utilizing their surface modified properties to detect and analyze specific biomolecules.

Fluorescence microscopy detection: Due to the fluorescent properties of microspheres, they can be used for cell imaging and tissue structure observation under fluorescence microscopy.

Quantitative detection of biomolecules: Streptomycin modified polystyrene microspheres can be used to develop quantitative detection reagents, especially in the detection of biomolecules that require high affinity and specificity.

^{Related Information}

^{Please e-mail for the detailed characterization data.}

^{E-mail:sales@xfnano.com}