Thymidine Kinase(Phospho Ser13) Polyclonal Antibody

Catalytic activity:ATP + thymidine = ADP + thymidine 5'-phosphate.,miscellaneous:Two forms have been identified in animal cells, one in cytosol and one in mitochondria. Activity of the cytosolic enzyme is high in proliferating cells and peaks during the S-phase of the cell cycle; it is very low in resting cells.,PTM:Phosphorylated on Ser-13 in mitosis.,Belongs to the thymidine kinase family.,

The THYMIDINE KINASE(PHOSPHO SER13) POLYCLONAL ANTIBODY is a highly specialized and meticulously developed product designed to cater to the needs of researchers and scientists in the field of molecular biology. This polyclonal antibody is specifically designed to target and detect the phosphorylated serine 13 residue of the thymidine kinase protein.

With its exceptional specificity and sensitivity, this antibody offers an invaluable tool for the investigation of thymidine kinase and its phosphorylation at serine 13. It enables researchers to gain deeper insights into the intricate mechanisms and functions of this crucial protein in various biological processes.

The THYMIDINE KINASE(PHOSPHO SER13) POLYCLONAL ANTIBODY is meticulously produced using state-of-the-art techniques and quality-controlled processes. It undergoes rigorous testing to ensure its reliability and consistency, guaranteeing accurate and reproducible results in every experiment.

This antibody is supplied in a convenient and user-friendly format, allowing for easy integration into existing laboratory protocols. Its versatility enables it to be utilized in a wide range of applications, including Western blotting, immunohistochemistry, and immunofluorescence.

By choosing the THYMIDINE KINASE(PHOSPHO SER13) POLYCLONAL ANTIBODY, researchers can confidently embark on their scientific endeavors, knowing they have a reliable and effective tool at their disposal. This product represents a significant advancement in the field of molecular biology and promises to contribute to groundbreaking discoveries and advancements in the understanding of thymidine kinase and its phosphorylation at serine 13.