Recombinant Human MAP4K5 protein (His tag)

A DNA sequence encoding the Human MAP4K5 protein (Q9Y4K4) (Phe 601-Tyr 846) was expressed with a N-His&C-His.

Introducing the Recombinant Human MAP4K5 Protein (HIS TAG), a meticulously engineered product designed to cater to the diverse needs of the scientific community. This protein, derived from human sources, has been subjected to a rigorous recombinant process to ensure its utmost purity and functionality.

The Recombinant Human MAP4K5 Protein (HIS TAG) boasts a high level of specificity and reliability, making it an invaluable tool for various research applications. Its unique histidine (HIS) tag allows for facile purification and subsequent detection, simplifying experimental procedures and enhancing overall efficiency.

This protein exhibits exceptional stability and solubility, enabling seamless integration into a wide range of experimental setups. Its versatility extends to its compatibility with various expression systems, including but not limited to bacteria, yeast, and mammalian cells, thereby accommodating diverse research requirements.

The Recombinant Human MAP4K5 Protein (HIS TAG) is meticulously characterized through stringent quality control measures, ensuring its consistent performance and reproducibility. Its purity is guaranteed, with minimal impurities and endotoxin levels, thereby minimizing any potential interference in downstream applications.

Researchers can confidently rely on the Recombinant Human MAP4K5 Protein (HIS TAG) to facilitate their investigations into cellular signaling pathways, protein-protein interactions, and kinase activity modulation. Its exceptional quality and reliability make it an indispensable asset in elucidating the intricate mechanisms underlying various biological processes.

In summary, the Recombinant Human MAP4K5 Protein (HIS TAG) stands as a pinnacle of scientific innovation, offering researchers an unparalleled tool to advance their understanding of cellular biology. With its exceptional purity, stability, and compatibility, this protein is poised to revolutionize the field of molecular research.