Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
-
Field
-
offer an innovative academic education to more than 20000 students, conduct pioneering scientific research and play an important service-providing role in society. We are one of the largest, most
-
postdoctoral researcher - molecular mechanisms T-cell leukemia - Diagnostische Wetenschappen (28449)
on the identifying genetic or epigenetic aberrations in blood cancer patients and to evaluate the functions of identified putative oncogenes and tumor suppressors in lymphoma/leukemia progression. The labs have ample
-
single-cell and spatial multi-omics datasets. The primary focus of this role is to delve deeper into the molecular mechanisms driving intra-tumor heterogeneity, plasticity, and therapy resistance
-
recapitulating neural-microglia interactions, as well as establishing fluorescence lifetime imaging microscopy (FLIM) approaches and analysis pipelines to perform non-destructive monitoring of neuronal function
-
diseases. The researcher will integrate macrophage functional profiling with spatial and molecular approaches to uncover disease-relevant mechanisms. The candidate should be highly motivated to lead the
-
FWO-UGent funded bioinformatics postdocs: Unveiling the significance of gene loss in plant evolution
, and Fagales. Research Focus While the two positions will work closely together and share many responsibilities, they have slightly different initial focus areas: Position 1: Computational Genomics and
-
combining it with enzyme assays, and will get plenty of hands-on time with new mass spectrometers. This is a starting lab, and we are searching for a postdoc to play a prominent leadership role in shaping
-
are seeking creative postdoctoral scientists to study the human-specific mechanisms of gene regulation and function of neurons of the cerebral cortex. Join us to undertake a highly timely interdisciplinary
-
subteam, working closely with an experienced lab technician, two dedicated PhD students, and two postdoctoral researchers on a project focused on in vitro screening methods, including the use of organoids
-
single-cell and spatial multi-omics datasets. The primary focus of this role is to delve deeper into the molecular mechanisms driving intra-tumor heterogeneity, plasticity, and therapy resistance