Thermo Fisher Scientific
High-throughput LC-MS workflows are essential in translational and clinical research proteomics. While LC-MS methods have been sufficiently standardized today in terms of throughput, depth and coverage, sample preparation is still somewhat manual involving multiple steps to extract, purify, and digest proteins with clean-up before LC-MS analysis. This bottleneck can be resolved with automation in combination with verified kits that eliminate the risk of error and variability, while enabling longitudinal standardization irrespective of the number of samples.
Collectively, automated Thermo Scientific EasyPep 96 MS Sample Prep Kit provides a generic, scalable, and cost-effective pipeline for routine and standardized proteomic sample processing, enabling reproducible proteomics in a broad range of clinical research and non-clinical applications.
In this webinar we describe (1) a consistent, reproducible, and high throughput sample preparation methodology for omics analysis of clinical samples and (2) the robustness and speed of clinical sample processing on an automated platform with proven chemistry.
Combined, these advances in sample processing, and LC-MS workflows make it possible to routinely analyze and quantify hundreds of samples, transforming translational clinical research and the understanding of human diseases to a new level.
Emily Chen, Thermo Fisher Precision Medicine Science Center, Sr. Director
Emily Chen has over 10 years of experience on mass spectrometry-based shotgun proteomics, oncology, and translational research. She led the proteomics biomarker discovery efforts as the director of Herbert Irving Comprehensive Cancer Center Proteomics Shared Resource at Columbia University Medical Center and interacted directly with physicians to support Precision Medicine projects prior to joining Thermo Fisher Scientific.
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