Sort by
Refine Your Search
-
Listed
-
Category
-
Field
-
-of-medical-systems-bioengineering ) at the department of Medical Biochemistry and Biophysics. In our group we are interested in shedding light on central molecular processes in human cells, in particular with
-
-level analyses of human immune systems. The aim of the team is to understand human immune system variation in health and disease and the development of immune systems early in life. The group is half
-
to exploring fundamental questions in human adipose tissue biology using innovative techniques such as single cell sequencing, radiocarbon dating, confocal microscopy, and flow cytometry. The lab's emphasis
-
to exploring fundamental questions in human adipose tissue biology using innovative techniques such as single cell sequencing, radiocarbon dating, confocal microscopy, and flow cytometry. The lab's emphasis
-
aging. However, detailed analysis and insight into the extent of somatic variance in the vascular tissue is lacking. You will study the clonality of the vascular wall in human tissue samples and generate
-
a Research Infrastructure? No Offer Description Do you want to contribute to improving human health? We are looking for an ambitious postdoctoral candidate that will work on advancing our
-
Research Infrastructure? No Offer Description Do you want to contribute to improving human health? We are looking for an ambitious postdoctoral candidate that will contribute toadvancing our understanding
-
to improve reproducibility of quantitative research on humans and beyond. Specifically, you will: Test interventions to improve reproducibility using randomized controlled trials in research settings Manage
-
The postdoctoral fellow will perform studies on human induced pluripotent stem cells and their ectodermal and mesodermal derivatives followed by ALS disease modelling. The project also involves live cell imaging
-
Research Infrastructure? No Offer Description Do you want to contribute to improving human health? A postdoc position for understanding the molecular mechanisms underlying the development of chronic pain is