Recombinant Human Kallikrein 6/KLK6 Protein (His tag)

A DNA sequence encoding the Human KLK6 protein (Q92876) (Glu 81-Lys 244) was expressed with N-His tag.

The Recombinant Human Kallikrein 6/KLK6 Protein (His Tag) is a highly purified and bioactive protein that has been produced using advanced recombinant DNA technology. This protein is expressed in a mammalian cell expression system, ensuring its authenticity and functionality.

Kallikrein 6 (KLK6) is a serine protease that plays a crucial role in various physiological and pathological processes. It is primarily expressed in the central nervous system, but can also be found in other tissues such as the skin, breast, and prostate. KLK6 has been implicated in the regulation of neuroinflammation, neuronal survival, and tissue remodeling.

The Recombinant Human Kallikrein 6/KLK6 Protein (His Tag) is designed to provide researchers with a reliable and consistent source of this important protein for their studies. It is produced with a histidine (His) tag, which allows for easy purification and detection using affinity chromatography and Western blotting techniques.

This protein is supplied as a lyophilized powder, ensuring its stability and long shelf life. It can be reconstituted in a suitable buffer solution for immediate use or stored at -20°C for future experiments. Each vial contains a specific amount of protein, accurately quantified using a validated assay method.

The Recombinant Human Kallikrein 6/KLK6 Protein (His Tag) is intended for research purposes only and should not be used for diagnostic or therapeutic applications. It is provided with a detailed product manual, including information on handling, storage, and reconstitution procedures.

In summary, the Recombinant Human Kallikrein 6/KLK6 Protein (His Tag) is a high-quality and reliable tool for researchers studying the role of KLK6 in various biological processes. Its purity, authenticity, and functionality make it an essential component in understanding the mechanisms underlying neuroinflammation, neuronal survival, and tissue remodeling.