Sort by
Refine Your Search
-
of RIMLS-Science include epigenetics, stem-cell and developmental biology, and computational biology. The central research theme is regulation of gene expression during development, in health and in disease
-
. The overarching aim of RIMLS-Science is to decipher molecular mechanisms of disease. Research areas of RIMLS-Science include epigenetics, stem-cell and developmental biology, and computational biology. The central
-
organoid systems, such as kidney and intestinal organoids as well as stem cell-derived embryo models. Stem cells, including induced pluripotent stem cells, demonstrate an impressive self-organizing capacity
-
embryonic stem cells and embryo models. Responsibilities We are looking for a candidate that will develop an independent research line to elucidate the role of cohesin in gene regulation. In this context
-
human induced pluripotent stem cells (hiPSCs) and cultured under dynamic flow in vascularized microfluidics bioreactors. Using this multi-organ-on-chip platform (Body Barriers), cultured in a single
-
or our collaborators, you can elucidate long-standing issues such as this chicken and egg problem: how can individual stem cells receive spatial cues from the organoid architecture they reside in – yet
-
early and one mid-career group leader and 2 postdocs for our gene therapy programs. In addition we have vacancies for one mid-career PI and 2 PhD candidates for our platelet biology and rare bleeding
-
approaches will involve manipulation of epigenetic marks in embryonic stem cells, investigating changes in epigenetic landscapes and transcription upon controlled manipulation, and/or engineering of synthetic