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!"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 Learn more and register"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 Learn more and register"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 Learn more and registerCheck 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