Multiplex targeted metabolite panel development for the gut microbiome
Streamline method workflow for developing and implementing a highly multiplexed targeted metabolite panel covering the gut microbiome
Join our webinar to learn how leveraging empirical databases can streamline the creation of highly-multiplexed LC-MSn acquisition methods, drastically reducing costly standards and lengthy optimization routines, and boosting your laboratory productivity by over 10X.
Developing highly-multiplexed LC-MSn acquisition methods to perform analytical quantitation is extremely important. The large scale of targets enables researchers to better determine the biological "big picture" that can be used to assess many different biological conditions. Creating and refining instrument methods to succeed at robust and reproducible quantitation across a wide dynamic range of expression levels is difficult as metabolites cover a range of molecular classes. Each molecular class may require different instrument settings often requiring costly standards and lengthy optimization methods. The focus of this webinar is to demonstrate a new approach to leverage empirical databases to streamline method creation that can reduce the need of standards and lengthy method optimization routines. The demonstrated workflow can truncate previous method optimization steps over 10X boosting laboratory productivity.
Presenter: Wes Rogers (Product Management Specialist, Thermo Fisher Scientific)
Wes is a Product Management Specialist at Thermo Fisher Scientific for the Thermo Scientific Stellar MS. Before this role, Wes spent the last 3 years as a LC-MS Field Application Scientist at Thermo Fisher Scientific, supporting customers on small and large molecules applications. Prior to joining Thermo Fisher Scientific, Wes spent the majority of his career in sports anti-doping at LGC.
Presenter: Marynka Ulaszewska (Product Manager, Thermo Fisher Scientific)
Marynka is an analytical chemist with over twelve years of experience in the application of mass spectrometry for both quantitative and qualitative methods in food safety, clinical sciences, and environmental areas. She has dedicated her scientific career to biomarker discovery in human metabolomics, focusing on human nutrition, cardiovascular diseases, and the fascinating interplay between microbiome structure/function and the regulation of host physiology. Currently, she serves as the Product Manager for mzCloud and spectral libraries solutions
