Recombinant Rat FGF2 Protein (His Tag)

A DNA sequence encoding the Rat Fgf2 alpha2 (P13109-1) (Pro10-Ala144) was expressed with a polyhistidine tag at the N-terminus.

Introducing the Recombinant Rat FGF2 Protein (HIS TAG), a cutting-edge product meticulously engineered to meet the demands of advanced scientific research. This protein, derived from recombinant rat sources, boasts a high level of purity and is equipped with a histidine (HIS) tag for enhanced detection and purification capabilities.

The Recombinant Rat FGF2 Protein (HIS TAG) is a vital tool for investigating the intricate mechanisms underlying cellular processes, particularly in the field of developmental biology and tissue regeneration. Its potent biological activity, coupled with its exceptional stability, ensures reliable and reproducible results in a wide range of experimental settings.

This protein is manufactured with utmost precision, employing state-of-the-art techniques to ensure the highest quality and consistency. Rigorous quality control measures are implemented throughout the production process, guaranteeing a product of unparalleled purity and integrity.

The inclusion of the histidine (HIS) tag in this recombinant protein facilitates its facile detection and purification, enabling researchers to streamline their experimental workflows. This tag allows for efficient affinity chromatography purification, ensuring the isolation of the protein of interest with minimal interference from contaminants.

The Recombinant Rat FGF2 Protein (HIS TAG) is supplied in a lyophilized form, preserving its stability and extending its shelf life. This convenient presentation allows for easy storage and reconstitution, ensuring the protein's long-term viability and usability.

In summary, the Recombinant Rat FGF2 Protein (HIS TAG) is an indispensable asset for scientists seeking to unravel the complexities of cellular processes. With its exceptional purity, stability, and detection capabilities, this protein empowers researchers to delve deeper into the realms of developmental biology and tissue regeneration, ultimately advancing scientific knowledge and innovation.