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Explore cutting-edge solutions for multiplex imaging challenges in spatial proteomics through this 37-minute panel webinar featuring Dr. Adyary Fallarero and Dr. Chris Langsdorf. Discover how spatial proteomics, recognized as Nature Methods' 2024 Method of the Year, revolutionizes protein analysis by studying proteins within their native spatial contexts to provide comprehensive insights into cell types and interactions within tissue microenvironments. Learn about the critical role of protein tissue mapping in understanding complex biological processes including metastasis, immune evasion, malignant cell growth, angiogenesis, and therapeutic drug resistance in immunology and oncology research. Examine spectral imaging technology and its ability to capture light from multiple fluorophores simultaneously, enabling visualization of multiple protein targets while preserving tissue integrity. Address current challenges in spectral imaging, particularly the cumbersome unmixing process required to resolve overlapping fluorescent signals when detecting more than six protein targets, including issues with transparency and limitations to proprietary dyes. Investigate the Invitrogen EVOS S1000 Spatial Imaging System as a solution that simplifies workflows with support for up to 9-plex imaging in a single round, featuring fast, integrated, automated unmixing capabilities. Understand the system's compatibility with commonly available labeling methods and dyes, user-configurable acquisition protocols, and unmixing quality metric reports that enable pre-assessment of image quality for 9-plex samples. Participate in live Q&A sessions to deepen understanding of how these technological advances position new tools as attractive solutions for advancing spatial proteomics research.
