Maximizing Biological Insights With Integrated Platforms

Proteomics research demands both depth and reproducibility, yet achieving high-throughput experiments without sacrificing data quality remains a challenge. Advances in ion mobility separation and novel acquisition strategies now make it possible to push proteome coverage further while maintaining precision.

This webinar will explore how integrated workflows – spanning sample preparation solutions through to robust data analysis tools – can streamline processes, increase throughput and unlock new biological insights from limited sample input.

Attend this webinar to:

• Explore the versatility of parallel accumulation-serial fragmentation modes using multiple approaches
• Discover proteomic workflows that improve coverage and precision using advanced sample preparation solutions and Bruker’s trapped ion mobility spectrometry time-of-flight system
• Uncover experimental approaches and complementary data analysis tools to interpret results, analyzing how they provide novel biological insights and improved throughput

Presenter: Stanley M. Stevens, PhD (Professor at University of South Florida)

Dr. Stevens specializes in mass spectrometry (MS)-based proteomics to investigate the molecular mechanisms underlying fundamental biological and disease-related processes. His lab particularly focuses on alcohol-induced proteomics and epi-proteomic changes. They explore how alcohol exposure alters histone modifications and protein expression in both brain and liver tissues, using a combination of MS and bioinformatics analyses.