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FWO-UGent funded bioinformatics postdocs: Unveiling the significance of gene loss in plant evolution
adaptation, speciation, and biological innovations. This project aims to redefine our understanding of gene loss alongside gene gain in plant evolution, focusing on developing novel genomic approaches
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development. We offer A state-of-the-art laboratory environment. A versatile and challenging academic position with very diverse contacts in a world-class research environment operating at an international
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identity and establish proper connectivity with brain targets during development. To this end, Esther and her team use advanced technologies like single-cell and spatial transcriptomics and connectomics
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Postdoctoral position to study species-specific mechanisms of gene regulation in human neurons. The Vanderhaeghen Lab (https://pvdhlab.org ) and the Aerts Lab (www.aertslab.org ) at VIB KULeuven are seeking creative postdoctoral scientists to study the human-specific mechanisms of gene...
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researcher to study the complexity and heterogeneity of both mouse and human microglia in neurodevelopment and neurodegeneration. By using state of the art spectral flow cytometry you will develop advanced
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in A. thaliana and wheat, which we started to functionally characterize. The Vascular Development group (https://www.derybellab.be), studies plant vascular development at the interface between
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researcher to study the complexity and heterogeneity of both mouse and human microglia in neurodevelopment and neurodegeneration. By using state of the art spectral flow cytometry you will develop advanced
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lab focuses on the characterization of plant signaling networks that steer plant specialized metabolism within tightly regulated fitness programs, in particular those modulated by stress hormones
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, industrial and medical applications and new innovative biotech companies. The Laboratory for Genome Editing and System Genetics at CfM combines development of high-throughput genome editing tools with large
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. The Verstreken lab is developing advanced multielectrode array systems to mimic human brain circuits relevant to Parkinson’s disease, and has been supported by the ERC for the past 15 years. The Gonçalves lab is