Sp2 Polyclonal Antibody

SP2 (Sp2 transcription factor) encodes a member of the Sp subfamily of Sp/XKLF transcription factors. Sp family proteins are sequence-specific DNA-binding proteins characterized by an amino-terminal trans-activation domain and three carboxy-terminal zinc finger motifs. This protein contains the least conserved DNA-binding domain within the Sp subfamily of proteins, and its DNA sequence specificity differs from the other Sp proteins. It localizes primarily within subnuclear foci associated with the nuclear matrix, and can activate or in some cases repress expression from different promoters.

The Sp2 Polyclonal Antibody is a highly specific and reliable tool for the detection and analysis of Sp2 protein expression in various biological samples. This antibody has been extensively validated and exhibits exceptional sensitivity and specificity, ensuring accurate and reproducible results.

The Sp2 Polyclonal Antibody is produced using state-of-the-art techniques, guaranteeing high purity and batch-to-batch consistency. It has been rigorously tested for cross-reactivity with other proteins to ensure its specificity towards Sp2. This antibody is suitable for a wide range of applications, including Western blotting, immunohistochemistry, and immunofluorescence.

With its superior performance, the Sp2 Polyclonal Antibody enables researchers to investigate the role of Sp2 in various cellular processes and disease states. Its robust and reliable performance makes it an invaluable tool for both basic research and clinical applications.

The Sp2 Polyclonal Antibody is available in various sizes to meet the specific needs of different experiments. It is supplied in a convenient and user-friendly format, ensuring ease of use and storage. Each batch is accompanied by a detailed datasheet, providing comprehensive information on the antibody's characteristics and recommended protocols.

Choose the Sp2 Polyclonal Antibody for accurate and reproducible detection of Sp2 protein expression, and unlock new insights into the molecular mechanisms underlying cellular processes and diseases.