Evosep webinar
a beginner’s guide to Evosep 2025
available on demand
Looking to improve your lab’s efficiency and streamline your nLC-MS processes?
Whether you’re new to Evosep or simply curious about how we can simplify your workflows, this session offers valuable insights for labs at all levels.
Our technology combine user-friendly workflows with automated processes. It empowers researchers, even without extensive expertise, to confidently use liquid chromatography mass spectrometry-based proteomics in their work.
What to expect
- Streamline your workflows with increased throughput
- Achieve reliable and reproducible results with minimal effort
- Maximize productivity in your lab with practical tips and strategies
This webinar is your opportunity to gain a comprehensive understanding of the Evosep One’s key features and how it can seamlessly integrate into your current processes. You’ll also have the chance to ask questions during our live Q&A session, hosted by Nicolai Bache, VP, Proteomics Research at Evosep.Â
SPEAKERS
The fundamentals of Evosep One and its applications
Talk by Gabriel Bracamontes, product specialist at evosep
A users guide to the analysis of automated fractionation of complex samples using the Evosep Pure – A case investigating O-linked glycans in human milk
Talk by Martin Nørmark Thesbjerg, Laboratory engineer, Department of Health science and technology, university of aalborg
Many biological samples require comprehensive and reproducible sub fractionation and processing prior to proteomic analysis. We here discuss an automated platform for fractionation of protein modifications, and showcase an example of how we have implemented and optimized liquid-handling robotics to automate the preparation of a TiO2/ZrO2 setup with fractionation and digestion of human milk samples across the first 90 days of lactation. More than 500 fractions were run at an Evosep-timsTOF Pro2 setup at 60SPD enabling high reproducibility and accuracy across all fractions. The dataset was used to explore the longitudinal development of the O-linked glycome in human milk.
