Nc Membrane And Protein Transfer Membrane
- Innovative Product Series
- In vitro diagnostic reagents and consumables
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Sample pretreatment
- Column Plate For Nucleic Acid Extraction
- Solid Phase Extraction Spe
- Tip SPE
- Pre Treatment Columns For Ion Chromatography
- Blank Flash Columns
- Liquid Liquid Extraction Sle
- Affinity Chromatography Ac
- Medium Pressure Chromatography Columns High Pressure Chromatography Columns
- Dispersive Solid Phase Extraction Quechers
- Serum Pipette
- Cell Culture
- Filtering Apparatus
- Laboratory filters
- Automated intelligent devices
- Maintenance Of Technics
0102030405
NC Protein Transfer Film
Product Description
Impression Analysis in Biopharmaceuticals, Treatment and Other Areas
The 14th Five-Year Plan for the Development of the Bioeconomy proposes that the bioeconomy should be conditioned by progress in the development of life sciences and biotechnologies, based on the protection, development and use of biological resources, as well as on the basis of broad and deep integration of the pharmaceutical, medical, agricultural and forestry, energy, environmental and raw materials industries; It also clearly states that the development of the bioeconomy is an important direction in order to meet the trend of accelerated development of world biotechnology and achieve a high level of scientific and technological autonomy. It is obvious that the development of the bioeconomy is an important direction for meeting the trend of accelerated development of global biotechnology and achieving a high level of scientific and technological autonomy; it is an important measure for the cultivation and growth of the bio-industry and the promotion of high-quality economic development; it is an important guarantee to meet the rapidly growing needs of life and health and people's desire for a better life; It is also an important guarantee to strengthen the prevention and control of national biosafety risks and to contribute to the modernization of the national management system and management capacity.
In response to the national call, BM is committed to developing high-end membrane production technology and gradually realizing import substitution of expensive consumables in the life sciences field. In May 2023, BM successfully realized the mass production of immunochromatographic NC membranes, which are used in various types of reagents for rapid detection. At present, NC membrane has been applied in domestic in vitro diagnostics, food safety, pharmaceutical rapid detection and other fields, and achieve reverse export, and international giants in the market with competition! After completing the NC membrane market negotiations, after months of technical research by our technical team, in response to the urgent need of users in the field of global life sciences, in order to reduce the cost of major high-value consumables, we have successfully launched blot analysis for biopharmaceuticals, pharmaceuticals and other fields (Western blot, WB).
Characteristics of BM blot membrane: Pore size and applicable protein types 0.1 μm for proteins with a molecular weight less than 7 kDa 0.22 μm for proteins with a molecular weight less than 20 kDa 0.45 μm for proteins with a molecular weight greater than 20 kDa Basic principles of protein binding Electrostatic and hydrophobicity Applicable transfer conditions and detection methods Chemiluminescence Fluorescence Detection Radiolabile probes Direct staining Enzyme-linked antibodies Advantages:
1. Low background, high sensitivity.
2. No pre-wetting with alcohol reagents
3. Unique structure and surface properties to create excellent signal-to-noise ratio, natural fiber material, environmentally friendly, can keep the binding protein activity for a long time.
Introduction to WB Analysis Technology The WB analysis technology is widely used in molecular biology, biochemistry, immunology, and other fields. The method uses specific binding of antibodies to specific proteins in tissue or cell samples to identify proteins and analyze expression, i.e., qualitative and semi-quantitative analysis based on the position and intensity of chromogenic bands. This method was first proposed by Harry Taubin from the Friedrich Miescher Institute in Switzerland in 1979, and for more than 40 years it has been used as a classic and effective method for studying proteins.