1
/
of
1
Elabscience
SKU:PKSH033318
Recombinant Human SERPINB9/PI-9 Protein (Human Cells, His Tag)
Recombinant Human SERPINB9/PI-9 Protein (Human Cells, His Tag)
Regular price
$200.00 USD
Regular price
Sale price
$200.00 USD
Unit price
/
per
Shipping calculated at checkout.
Couldn't load pickup availability
Introducing the Recombinant Human SerpinB9/PI-9 Protein, a cutting-edge product derived from human cells and equipped with a His tag. This protein is meticulously engineered to exhibit exceptional functionality and reliability, making it an invaluable asset in various scientific and medical applications.
Crafted with utmost precision, the Recombinant Human SerpinB9/PI-9 Protein showcases remarkable purity and stability, ensuring consistent and reproducible results. Its composition, derived from human cells, guarantees a high degree of compatibility and authenticity, enabling seamless integration into diverse research endeavors.
The incorporation of a His tag further enhances the versatility of this protein, facilitating efficient purification and detection processes. This feature streamlines experimental workflows, saving valuable time and resources while maintaining the utmost accuracy and precision.
The Recombinant Human SerpinB9/PI-9 Protein boasts an array of remarkable attributes, including its potent inhibitory activity against serine proteases. This unique characteristic positions it as an indispensable tool in studying protease-mediated processes, such as inflammation, immune response, and cell signaling pathways.
Furthermore, this protein's exceptional stability and solubility enable its utilization in a wide range of experimental conditions, ensuring optimal performance across various research settings. Its consistent and reliable performance guarantees the generation of robust and reproducible data, empowering researchers to make significant strides in their respective fields.
In summary, the Recombinant Human SerpinB9/PI-9 Protein, derived from human cells and equipped with a His tag, represents a pinnacle of scientific innovation. Its exceptional purity, stability, and inhibitory activity against serine proteases make it an indispensable asset in numerous scientific and medical applications. With its seamless integration into experimental workflows and its ability to generate reliable and reproducible results, this protein is poised to revolutionize research endeavors across diverse disciplines.
Crafted with utmost precision, the Recombinant Human SerpinB9/PI-9 Protein showcases remarkable purity and stability, ensuring consistent and reproducible results. Its composition, derived from human cells, guarantees a high degree of compatibility and authenticity, enabling seamless integration into diverse research endeavors.
The incorporation of a His tag further enhances the versatility of this protein, facilitating efficient purification and detection processes. This feature streamlines experimental workflows, saving valuable time and resources while maintaining the utmost accuracy and precision.
The Recombinant Human SerpinB9/PI-9 Protein boasts an array of remarkable attributes, including its potent inhibitory activity against serine proteases. This unique characteristic positions it as an indispensable tool in studying protease-mediated processes, such as inflammation, immune response, and cell signaling pathways.
Furthermore, this protein's exceptional stability and solubility enable its utilization in a wide range of experimental conditions, ensuring optimal performance across various research settings. Its consistent and reliable performance guarantees the generation of robust and reproducible data, empowering researchers to make significant strides in their respective fields.
In summary, the Recombinant Human SerpinB9/PI-9 Protein, derived from human cells and equipped with a His tag, represents a pinnacle of scientific innovation. Its exceptional purity, stability, and inhibitory activity against serine proteases make it an indispensable asset in numerous scientific and medical applications. With its seamless integration into experimental workflows and its ability to generate reliable and reproducible results, this protein is poised to revolutionize research endeavors across diverse disciplines.
Share
