HSP90  Alpha Monoclonal Antibody(7D6)

The protein encoded by this gene is an inducible molecular chaperone that functions as a homodimer. The encoded protein aids in the proper folding of specific target proteins by use of an ATPase activity that is modulated by co-chaperones. Two transcript variants encoding different isoforms have been found for this gene.

Introducing the HSP90 Alpha Monoclonal Antibody (7D6), a cutting-edge product designed to revolutionize the field of molecular biology. This meticulously crafted antibody is specifically engineered to target and bind to the HSP90 alpha protein, a crucial component in cellular processes and protein folding.

The HSP90 Alpha Monoclonal Antibody (7D6) boasts exceptional specificity and affinity, ensuring accurate and reliable results in various applications, including immunohistochemistry, western blotting, and flow cytometry. Its superior performance is attributed to the advanced hybridoma technology employed during its development, resulting in a highly purified and concentrated antibody solution.

With its remarkable sensitivity, the HSP90 Alpha Monoclonal Antibody (7D6) enables researchers to detect even the slightest expression of HSP90 alpha protein in biological samples. This invaluable tool facilitates the investigation of protein-protein interactions, cellular signaling pathways, and the identification of potential therapeutic targets.

Furthermore, the HSP90 Alpha Monoclonal Antibody (7D6) exhibits exceptional stability and reproducibility, ensuring consistent and reproducible results across experiments. Its long shelf life and robust formulation make it an ideal choice for laboratories and research institutions seeking a reliable and durable antibody solution.

In summary, the HSP90 Alpha Monoclonal Antibody (7D6) represents a breakthrough in molecular biology research, offering unparalleled specificity, sensitivity, and reliability. Empower your scientific endeavors with this exceptional antibody and unlock new insights into the intricate world of cellular processes and protein folding.