EP-CAM Monoclonal Antibody

This gene encodes a carcinoma-associated antigen and is a member of a family that includes at least two type I membrane proteins. This antigen is expressed on most normal epithelial cells and gastrointestinal carcinomas and functions as a homotypic calcium-independent cell adhesion molecule. The antigen is being used as a target for immunotherapy treatment of human carcinomas. Mutations in this gene result in congenital tufting enteropathy.

The EP-CAM Monoclonal Antibody is a highly specialized and advanced product designed to target and bind to the Epithelial Cell Adhesion Molecule (EP-CAM). This monoclonal antibody is meticulously developed using cutting-edge technology and rigorous quality control measures to ensure its efficacy and reliability.

With its exceptional specificity, the EP-CAM Monoclonal Antibody offers a valuable tool for various research applications, including immunohistochemistry, flow cytometry, and western blotting. Its ability to selectively recognize and bind to EP-CAM enables researchers to study the expression and localization of this important cell adhesion molecule in different tissues and cell types.

The EP-CAM Monoclonal Antibody exhibits outstanding sensitivity, allowing for precise detection and quantification of EP-CAM expression levels. Its high affinity ensures reliable and reproducible results, making it an indispensable asset for researchers in the fields of cancer biology, stem cell research, and developmental biology.

Furthermore, this monoclonal antibody is manufactured in compliance with strict quality standards, ensuring batch-to-batch consistency and minimizing any potential variability. Its formulation is optimized for long-term stability, allowing for convenient storage and ease of use.

In summary, the EP-CAM Monoclonal Antibody is a state-of-the-art product that offers exceptional specificity, sensitivity, and reliability. Its application in various research techniques makes it an invaluable tool for scientists and researchers seeking to unravel the complexities of EP-CAM biology and its implications in various physiological and pathological processes.