EMBL Courses and Conferences during the Coronavirus pandemic
With the onsite programme paused, many of our events are now being offered in virtual formats.
Registration is open as usual for many events, with back-up plans in place to move further courses and conferences online as necessary. Registration fees for any events affected by the COVID-19 disruption are fully refundable.
More information for participants of events at EMBL Heidelberg can be found here.
Registration is not yet open for this event. If you are interested in receiving more information please register your interest.
The study of population genetic variation and the sequencing of ancient DNA represent promising new avenues for investigating human history and our evolutionary past. Population-scale sequencing projects investigating human diversity have provided us with more than a million genome wide datasets that allowed new insights into patterns of human variation and mobility, while others have obtained genome wide data from thousands of ancient human skeletons, allowing the investigation of human evolution in action and providing direct insights into population genetic dynamics in situ. Large-scale genetic variation data sets can now be integrated with genomics data from ancient remains and history records to provide novel insights into human history, cultural evolution and the genetic history of societies. Ancient DNA was furthermore used to reconstruct genomic variation of historic pathogens as well as oral and gut microbiomes in order to provide molecular fossils to study microbial evolution through time. This meeting will involve scientists from genomics, bioinformatics, microbiology, anthropology, archaeology and historians and may initiate future interactions in this exciting and timely new research area that has the potential to change the way we think about our human past and how we might study genetic variation in the future.
- Genomic analyses of our closest living and extinct relatives
- Detecting patterns of natural selection
- Reconstructing the genetic history of human populations
- Combining genetics and historical evidence
- Genetic history of domestication
- Evolution of human pathogens and our microbiome