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We offer options for producing phosphospecific antibodies and antibodies specific to other post-translational modifications or activation states of particular proteins as part of our custom antibody production service.
Our custom antibody services include powerful capabilities for production and delivery of antibodies that are specific to any protein expression state that can be incorporated into the design and synthesis of the peptide antigen(s) for the protein. These states of protein expression and activation include phosphorylation, acetylation, glycosylation, prenylation, myristoylation, ubiquitination, sumoylation, protein cleavage (neo-epitopes), splice variants, and isoforms. By the same methods of antigen design and screening-purification, monospecific antibodies can be made to differentiate between particular ligand-binding domains, drug-binding sites, polymorphisms, mutations, species cross-reactivities, and highly-conserved proteins.
Each step in this process is critically important for achieving the desired result. Proper peptide design (and accurate, modification-capable peptide synthesis) ensures that the antigen is effective for antibody production and likely to yield clones with the needed monospecificity. The manner in which carrier protein conjugation is performed determines how well the immunogen elicits an immune response and how effectively the key portion of the peptide is presented as an antigen for production of antibodies that function in the intended assay method(s). Finally, screening and/or purification provides the necessary final identification, isolation, and validation of the specific antibodies.
Phosphospecific antibodies (i.e., antibodies for detection and quantitation of phosphorylated proteins of interest) are the most common needs of researchers requesting custom monospecific antibody production. No doubt this popularity is the result of the essential role of protein phosphorylation in cell signaling, which continues to be the focus of investigation in many areas related to cell biology. The ability to distinguish between different phosphorylation sites within a protein can be quite difficult and complex, but is important to understanding cascades and overall protein activity. We specialize in making site-specific antibodies to discrete phosphorylation sites by taking advantage of proprietary antigen design tools (the Antigen Profiler System) and conjugation methods (Targeted Antigen Display Technology). These strategies enhance antigen presentation of phosphopeptides to increase antibody titer and generate more adaptive populations of polyclonal antibodies (i.e., ones that are able to recognize epitopes in different conformations, as found in different assays).