Poly-Histidine-Alkaline Phosphatase Monoclonal Antibody – Mouse
Poly-Histidine-Alkaline Phosphatase Monoclonal Antibody - Mouse
The Poly-Histidine-Alkaline Phosphatase monoclonal antibody, produced in mouse, is a highly specific and sensitive antibody designed for use in various applications including western blot, ELISA, immunoblotting, and dot blotting assays. The antibody, with the catalog number MonoclA5588, provides reliable and reproducible results, making it a valuable tool for researchers in the field.
The Monoclonal Anti-polyHistidine is purified immunoglobulin that is supplied in a buffered aqueous glycerol solution. Its excellent quality and high purity ensure optimal performance and consistency in experiments, leading to accurate and dependable data.
One of the key features of this monoclonal antibody is its specificity towards polyHistidine-Alkaline Phosphatase. The antibody recognizes the polyHistidine tag, also known as the 6 His epitope tag, 6xHis-tag, HHHHHH epitope tag, Hexa His tag, His-tag, His6 tag, Histidine tagged, or Poly-His tag. This makes it a versatile tool that can be used with a wide range of polyHistidine-tagged proteins.
By using this specific monoclonal antibody, researchers can easily detect and quantify the presence of polyHistidine-Alkaline Phosphatase in their experiments. It allows for the reliable identification and analysis of polyHistidine-tagged proteins in a variety of biological samples.
The monoclonal antibody is produced in mouse using advanced hybridoma cell culture techniques. This ensures the production of a consistent and high-quality antibody with exceptional performance characteristics.
Some of the key features and benefits of the Poly-Histidine-Alkaline Phosphatase monoclonal antibody include:
The Poly-Histidine-Alkaline Phosphatase monoclonal antibody is an essential tool for researchers working with polyHistidine-tagged proteins. Its high specificity, wide application range, and consistent performance make it an ideal choice for a variety of experiments.
By using this antibody, researchers can advance their understanding of protein function and interaction, contributing to the progress of various scientific fields including molecular biology, biochemistry, and biotechnology.