Recombinant Rat RUNX2/CBFA1 protein (His tag)

A DNA sequence encoding the Rat RUNX2 protein (Q9Z2J9) (Asp 127-Ile 218) was expressed with a N-His tag.

Introducing the Recombinant Rat RUNX2/CBFA1 Protein (HIS TAG), a meticulously engineered product designed to cater to the diverse needs of the scientific community. This protein, derived from the rat species, showcases an exceptional level of purity and quality, making it an indispensable tool for various research applications.

The Recombinant Rat RUNX2/CBFA1 Protein (HIS TAG) is meticulously produced using advanced recombinant DNA technology, ensuring the utmost precision and accuracy in its composition. With the inclusion of a histidine (HIS) tag, this protein offers enhanced versatility and ease of purification, facilitating seamless integration into experimental protocols.

This product boasts an impressive level of purity, with minimal impurities and contaminants, guaranteeing reliable and reproducible results. The Recombinant Rat RUNX2/CBFA1 Protein (HIS TAG) is meticulously characterized through rigorous quality control measures, ensuring its conformity to the highest industry standards.

The Recombinant Rat RUNX2/CBFA1 Protein (HIS TAG) exhibits exceptional stability, allowing for prolonged storage without compromising its integrity. This feature enables researchers to conveniently plan and execute experiments without concerns of protein degradation or loss of functionality.

With its wide range of applications, the Recombinant Rat RUNX2/CBFA1 Protein (HIS TAG) serves as an invaluable asset in various fields of study, including molecular biology, genetics, and developmental biology. Its ability to interact with specific DNA sequences and regulate gene expression makes it an indispensable tool for investigating bone development, osteoblast differentiation, and skeletal disorders.

In conclusion, the Recombinant Rat RUNX2/CBFA1 Protein (HIS TAG) stands as a premier product, meticulously crafted to meet the rigorous demands of the scientific community. Its exceptional purity, stability, and versatility make it an indispensable tool for researchers seeking to unravel the complexities of bone development and related fields.