Single Cell Multi-Omics to Dissect the Mechanisms of Cancer Immunotherapy | Single Cell Innovators seriesWatch on DemandJoin us for an insightful webinar with Prof. Rong Fan, who will present findings from a large-scale clinical study on long-term patient responses to cancer immunotherapy using single cell multi-omics.About the speaker About the speakerDr. Rong Fan is the Harold Hodgkinson Professor of Biomedical Engineering at Yale University and Professor of Pathology at Yale School of Medicine. A pioneer in single cell secretomics, multi-omics, and spatial technologies, Prof. Fan has a wealth of knowledge and expertise to share. Register now to learn about:The early history of single-cell omics analysisThe history and breakthroughs in cancer immunotherapyEngineered T-cell therapy – Single cell profiling of immune effector functionSingle cell multi-omics to dissect CAR T cell activationLarge-scale single cell multi-omics to identify correlates with long-term responses in patientsDate: Wednesday, September 11th Time: 7 AM Pacific Daylight Time (PDT) | 10 AM Eastern Time (ET) | 4 PM Central European Time (CET) | 10 PM Singapore Time (SGT) Other webinars in this seriesStay tuned as we add exciting events to the list!"Single-Cell Decoding of Cellular Lineages and the Evolution of Plant Exceptional Traits" by Prof. Matias Kirst Wed. 23rd Oct. 2024 7 AM PDT | 10 AM ET | 4 PM CET | 10 PM SGT Watch on Demand"From Epigenome Atlases to Gene Regulatory Codes" by Prof. Bing Ren Wed. 9th Oct. 2024 8 AM PDT | 11 AM ET | 5 PM CET | 11 PM SGT Watch on Demand"In Vitro Modeling of Parkinson’s Disease with Patient Specific Midbrain Organoids" by Prof. Dr. Jens Schwamborn Wed. 25th Sep. 2024 7 AM PDT | 10 AM ET | 4 PM CET | 10 PM SGT Watch on DemandCheck out our latest webinars Learn more From Epigenome Atlases to Gene Regulatory Codes - by Prof. Bing Ren (UCSD) Read more Single-Cell Decoding of Cellular Lineages and the Evolution of Plant Exceptional Traits Read more In Vitro Modeling of Parkinson’s Disease with Patient Specific Midbrain Organoids Read more