Recombinant Human Ataxin-3/ATXN3 protein (His tag)

A DNA sequence encoding the Human ATXN3 protein (P54252-2) (Met 1-Lys 370) was expressed with a C-His and N-His tag.

Introducing the Recombinant Human Ataxin-3/ATXN3 Protein (HIS TAG), a cutting-edge product meticulously engineered to meet the demands of advanced scientific research. This protein, derived from human sources, exhibits exceptional purity and quality, making it an indispensable tool for various applications in the field of molecular biology.

The Recombinant Human Ataxin-3/ATXN3 Protein (HIS TAG) is produced using state-of-the-art recombinant DNA technology, ensuring the utmost precision and reliability. With its strategically incorporated histidine (HIS) tag, this protein offers enhanced affinity for purification and subsequent analysis, facilitating streamlined experimental workflows.

This product boasts an impressive array of features, including its high expression level, stability, and solubility. These attributes enable researchers to confidently explore the intricate mechanisms underlying ataxin-3/ATXN3-associated disorders, such as spinocerebellar ataxia type 3 (SCA3), also known as Machado-Joseph disease.

The Recombinant Human Ataxin-3/ATXN3 Protein (HIS TAG) is meticulously characterized through rigorous quality control measures, ensuring its consistency and reliability across multiple batches. Its exceptional purity, devoid of any contaminants or impurities, guarantees accurate and reproducible results, thereby elevating the scientific rigor of your investigations.

This product is supplied in a convenient lyophilized form, preserving its integrity and extending its shelf life. Its user-friendly reconstitution process allows for seamless integration into various experimental protocols, accommodating the diverse needs of researchers across different scientific disciplines.

In summary, the Recombinant Human Ataxin-3/ATXN3 Protein (HIS TAG) represents a pinnacle of scientific innovation, offering researchers an invaluable tool to unravel the complexities of ataxin-3/ATXN3-related disorders. With its exceptional purity, stability, and solubility, this protein empowers scientists to advance their understanding of these debilitating conditions, ultimately paving the way for novel therapeutic interventions.