NUDC(Phospho Ser326) Polyclonal Antibody

This gene encodes a nuclear distribution protein that plays an essential role in mitosis and cytokinesis. The encoded protein is involved in spindle formation during mitosis and in microtubule organization during cytokinesis. Pseudogenes of this gene are found on chromosome 2.

The NUDC(Phospho Ser326) Polyclonal Antibody is a highly specific and sensitive tool designed for the detection and quantification of NUDC protein phosphorylated at Serine 326. This antibody is produced using advanced techniques and rigorous quality control measures to ensure optimal performance and reliability.

The NUDC protein plays a crucial role in various cellular processes, including cell division, microtubule organization, and intracellular transport. Phosphorylation of NUDC at Serine 326 has been implicated in the regulation of its function and cellular localization.

This polyclonal antibody is raised in rabbits using a synthetic phospho-peptide corresponding to the phosphorylated Serine 326 of the NUDC protein. It has been extensively validated for specificity and sensitivity through various experimental approaches, including Western blotting, immunohistochemistry, and immunofluorescence.

The NUDC(Phospho Ser326) Polyclonal Antibody exhibits high affinity and selectivity towards the phosphorylated form of NUDC, enabling accurate detection and quantification of this modified protein. It offers researchers a valuable tool for studying the role of NUDC phosphorylation in cellular processes and disease mechanisms.

With its superior performance and reliability, the NUDC(Phospho Ser326) Polyclonal Antibody is an essential reagent for scientists and researchers working in the fields of cell biology, molecular biology, and biochemistry. Its application extends to a wide range of research areas, including cancer biology, neurobiology, and developmental biology.

Order your NUDC(Phospho Ser326) Polyclonal Antibody today and unlock new insights into the intricate mechanisms governing cellular processes and disease progression.