Evosep Webinar
Targeted Workflows for confident quantification
Available on demand
Push the boundaries of targeted proteomic LC-MS workflows designed for unmatched sensitivity, reproducibility, and throughput. See how streamlined methods enable confident protein quantification and accelerate validation across large cohorts with ease.
Tof MRM for the quantification of peptide biomarkers in human glioblastoma with the Xevo™ MRT Mass Spectrometer
Talk by Matthew Daly, phd, Senior Applications Scientist at Xevo MRT Science Team, Waters Corporation
Glioblastoma is an aggressive form of brain cancer with little therapeutic options available and of particular interest in disease progression is the activation of specific proteins via phosphorylation by protein kinases. Trialling of new therapies therefore may wish to profile these pathways. The Xevo™ MRT MS with <1ppm mass accuracy coupled with the selectivity of multiple reaction monitoring (ToF-MRM) and the standardised and reproducible chromatography provided by the Evosep system, allows for accurate and quantitative characterization of PTMs surrounding the identified peptide markers.
Plasma proteomics at scale with Evosep Eno – from discovery to target verification
Talk by Iulia Macavei, Scientist, Proteomics research at evosep
The Evosep Eno is designed for robustness, standardization, and ease-of-use, offering significant enhancements in chromatographic performance. In this presentation, we highlight the advantages of incorporating the system into both shotgun and targeted proteomics workflows. When combined with fully automated sample preparation, the Evosep Eno enables deep proteome profiling at high throughput – up to 500 samples per day – without compromising quantitative precision or biological information. In targeted applications, the Evosep Eno demonstrates high sensitivity, detecting analytes at low amol levels with a linear dynamic range spanning 4 to 5 orders of magnitude. Furthermore, when paired with fully automated plasma sample processing, it enables accurate and precise, large-scale quantification of plasma targets.
