Single-Cell Decoding of Cellular Lineages and the Evolution of Plant Exceptional TraitsWatch on demandJoin Dr. Matias Kirst, as he presents pioneering research on using single cell analysis to decode plant development, with promising implications for agricultural innovation and sustainability. About the speaker About the speakerDr. Matias Kirst is a Distinguished Professor at UF/IFAS, specializing in plant genetics and genomics to boost agricultural resilience and bioenergy, and an accomplished entrepreneur in NGS and single-cell plant genomics.Join Dr. Kirst, as he presents pioneering research on using single cell analysis to decode plant development, with promising implications for agricultural innovation and sustainability. Register now to learn about:The critical role of single cell analysis in unraveling plant trait development. Pioneering techniques in plant transcriptomics and bioinformatics. Exploration of plant development processes, such as nodule formation and CAM photosynthesis. Applications in bioengineering for enhanced carbon storage and high-value mineral capture.Date: Wednesday, October 23rd Time: 7 AM Pacific Daylight Time (PDT) | 10 AM Eastern Time (ET) | 4 PM Central European Time (CET) | 10 PM Singapore Time (SGT)Watch on DemandOther webinars in the "Single Cell Innovators" seriesStay tuned as we add exciting events to the list!"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 Demand"Single Cell Multi-Omics to Dissect the Mechanisms of Cancer Immunotherapy" by Prof. Rong Fan Wed. 11th 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 In Vitro Modeling of Parkinson’s Disease with Patient Specific Midbrain Organoids Read more Single Cell Multi-Omics to Dissect the Mechanisms of Cancer Immunotherapy | Single Cell Innovators series Read more
Single Cell Multi-Omics to Dissect the Mechanisms of Cancer Immunotherapy | Single Cell Innovators series Read more