Creative Proteomics Announces New Services on Protein Related Projects
SHIRLEY, NY - Oct 13, 2016 - October 12, 2016 | Mike Copperfield, senior scientist in Creative Proteomics, gave an announcement about update of new services this morning, claiming three new updates services, including protein methylation, protein sequence analysis and protein phosphorylation.
Nearly one-year test and study, scientists in Creative Proteomics finally released this new service as its own iconic service. The main feature of this service---methylation is mediated by methyltransferases. And the SAM is playing a significant role in methyl group donor. The frequent occurrence of methylation lead SAM to be suggested to be the most-used substrate in enzymatic reactions after ATP. Compared with other methylation related services, this service is designed with reasonable quotation and professional skills.
In this field, scientists in Creative Proteomics are mainly working on the de novo protein sequence analysis. This service has a wide application. For example, finding partial amino acid sequences for the design of DNA primers, cloning and DNA/mRNA, sequencing of monoclonal antibody variable regions, full characterization of immunoglobulins and proteomics projects and protein identification in organisms.
The reason why this service appears has something to do with post-translational modification, in which it plays a crucial role in intracellular signal transduction, as well as in regulating cell cycle progression, differentiation, transformation, development, peptide hormone response and adaptation.
as a leading supplier in the proteomics field, Creative Proteomics always holds the commitment to delivering high-quality services and products. Whats more, we are planning to develop more and more practical skills and products. This is just our beginning. said Dr. Copperfield.
In current advanced technological era, it is difficult for scientists to develop new and useful services or products. Although there are already three updates, Creative Proteomics still needs a long time to strengthen itself.