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Trying to accelerate sample throughput in your LC-MS based proteomics analysis? Unfortunately, today’s approaches often introduce trade-offs in sensitivity and proteome depth.
In this webinar experts from Evotec and Bayer will showcase how they implemented the tandem direct injection workflow for their proteomics work to increase throughput while maintaining data quality.
Dr. Nagarjuna Nagaraj will present on how Evotec is using tandem direct injection with nano-LC columns packed in-house to boost sample throughput of their chemoproteomics screening pipeline, while Dr. Alexander Boychenko from Bayer will discuss how his lab is using a micro-flow tandem direct injection approach to analyze plasma samples for translational proteomics.
You’ll learn:
Dr. Nagarjuna Nagaraj, Group Leader High Sensitivity Proteomics, Evotec
Dr. Nagarjuna Nagaraj is a proteomics group leader at Evotec focusing on high sensitivity and high throughput proteomics applications with more than 18 years of experience in proteomics and mass spectrometry. Nagarjuna obtained his PhD from the Matthias Mann lab focusing on sample preparation and MS data acquisition strategies for clinical applications.
Dr. Alexander Boychenko, Head of R&D Laboratory Precision Medicine Markers, Bayer
Alexander Boychenko is leading Omics Research within the Translational Sciences team of the Pharmaceuticals division at Bayer Group. He is focused on implementing innovative analytical technologies and developing novel methodologies for proteomics, metabolomics, and ligand-binding assays (LBA) to comprehensively characterize human and animal model phenotypes, enabling disease understanding and novel biomarker discovery.
Dr. Alec Valenta, Product Marketing Manager, Thermo Fisher Scientific
Alec is the product marketing manager for the Vanquish Neo UHPLC system and low-flow LC columns. Prior to joining Thermo Fisher Scientific he earned his PhD in analytical chemistry from the University of Michigan where he helped advance microdialysis sampling of neurochemicals and developed LC-MS methods to quantify small molecule neurotransmitters, neuropeptides, and metabolites in a variety of complex biological samples.