Recombinant Human MAPK15 protein (His tag)

A DNA sequence encoding the Human MAPK15 protein (Q8TD08-3) (Met 1-Arg 277) was expressed with a N-His&C-His tag.

Introducing the Recombinant Human MAPK15 Protein (HIS TAG), a cutting-edge product meticulously engineered to cater to the diverse needs of the scientific community. This protein, derived from human sources, has been skillfully modified to include a Histidine (HIS) tag, enhancing its versatility and facilitating efficient purification processes.

The Recombinant Human MAPK15 Protein (HIS TAG) boasts exceptional purity and stability, ensuring optimal performance in a wide range of applications. With its superior quality, this protein serves as an invaluable tool for researchers and scientists alike, enabling them to delve into the intricate mechanisms of MAPK15 signaling pathways.

This product's HIS tag feature enables facile purification, simplifying downstream applications and expediting experimental workflows. The meticulously designed HIS tag ensures minimal interference with the protein's native structure and function, guaranteeing accurate and reliable results.

The Recombinant Human MAPK15 Protein (HIS TAG) is meticulously manufactured using state-of-the-art techniques, adhering to stringent quality control measures. Each batch undergoes rigorous testing to ensure consistency, purity, and functionality, providing researchers with the utmost confidence in their experimental outcomes.

This protein's versatility extends to a multitude of applications, including but not limited to protein-protein interaction studies, enzymatic assays, and drug discovery endeavors. Its broad compatibility with various experimental setups and techniques makes it an indispensable asset in the pursuit of scientific advancements.

In summary, the Recombinant Human MAPK15 Protein (HIS TAG) stands as a pinnacle of scientific innovation, offering researchers an unparalleled tool to unravel the complexities of MAPK15 signaling pathways. With its exceptional purity, stability, and versatility, this protein is poised to revolutionize the field of molecular biology and drive groundbreaking discoveries.