Integrating top-down mass spectrometry and single-molecule sequencing for proteoform analysis
Given the numerous sources of protein variation, ranging from biological factors to sample preparation and instrument settings, there is a pressing need for next-generation analytical platforms capable of driving proteoform analysis with complete molecular precision.
In this webinar, Dr. Michael Caldwell, Scientific Officer at Northwestern Proteomics Center of Excellence, will explore top-down mass spectrometry (TD-MS) and Platinum®. Platinum is a benchtop platform that provides single amino acid resolution of single protein molecules to characterize IL-6, including pyroglutamate (pE), a post-translational modification (PTM) produced via enzymatic and spontaneous cyclization of N-terminal glutamine (Q)/glutamate (E) residues.
Find out how TD-MS enables intact protein analysis, limiting formation of N-terminal Q/E (MS1). During MS2, analysis of daughter ions reveals modifications and artifactual formation. Platinum employs dye-labeled N-terminal amino acid recognizers that reveal primary structure and variants, and aminopeptidases that expose the next amino acid for recognition until the peptide is sequenced. TD-MS and Platinum detect not only functionally relevant regions of IL-6 primary structure, but also sites prone to pE formation.
Key learning objectives
Learn how TD-MS and Next-Generation Protein Sequencing can be used as complementary platforms for protein analysis
Find out more about bridging discovery and targeted protein analysis with different instruments and detection methods
Discover how TD-MS distinguishes native and artifactual proteoforms
Who should attend?
- Protein specialists, mass spectrometrists, synthetic biologists, protein engineers, and technology innovators.
Presenter: Michael Caldwell, PhD (Scientific Officer, Northwestern Proteomics Center of Excellence)
Dr. Michael Caldwell is the Scientific Officer at the Proteomics Center of Excellence (PCE) at Northwestern University, a leading laboratory for proteoform characterization and top-down mass spectrometry. In this role, he oversees development and applications of top-down, bottom-up, and ‘next-generation’ technologies for proteoform characterization with the goal of unlocking the role of proteoforms in human health and disease and bringing about a ‘Human Genome Project for Proteins’ with proteoform precision.
Presenter: Carrie Haslam (Associate Editor, SelectScience)