Call for application to the

doctoral program of the Berlin-Brandenburg School for Regenerative Therapies

The Berlin-Brandenburg School for Regenerative Therapies (BSRT) offers outstanding interdisciplinary training and research opportunities for national and international doctoral researchers from the natural, material and engineering sciences who want to pursue a career in the field of Regenerative Medicine and aim at translating their scientific discoveries into clinical applications.

The Berlin-Brandenburg School for Regenerative Therapies (BSRT) has currently 17 doctoral projects available. Successful candidates who will study for their doctoral degree at the BSRT will be funded by the BSRT. Click here for further details about this call for application including the instruction on how to apply and the project descriptions.

The doctoral program will start in March 2017
Application deadline is the 20^th November 2016

Available Projects in the Biology Track

·         Bone metabolism and vascular calcification: understanding of immunological regulatory network of the bi-directional interplay [click here]

·         Inflammation triggers plasticity and functional recovery long-term after stroke [click here]

·         Targeting serotonergic signaling to afford post-stroke regeneration [click here]

·         HDAC as versatile regulators of intestinal barrier integrity and epithelial regeneration in IBD [click here]

·         Multidimensional stratification of inflammatory circuits – Induction of inflammation, regeneration and degeneration in human disease and aging [click here]

·         Understanding and modulating reprogrammed cardiomyocyte precursor immunogenicity: prerequisite for regeneration of the heart [click here]

·         Bone growth in cell-type-specific ATP6AP2 deficient mice [click here]

·         Role of BMP receptors in mechanotransduction of the vasculature [click here]

·         Reshaping compromised niches by engineering human iPSC – derived cells for regeneration of the kidney [click here]

·         Molecular basis of an imitated stem cell niche of the human bone marrow [click here]

·         Mechanical adaptation of muscle-resident stem cells [click here]

·         Exploring clonal composition of transplant infiltrating and circulating T-cells can provide new insights into the pathogenesis of transplant rejection and allow new targets for regenerative therapies [click here]

·         CRISPR-mediated modification of myeloid lineage cells [click here]

·         Identification of microRNAs promoting proliferation and inhibiting apoptosis in iPSC-derived cardiomyocytes using a functional high-throughput screening [click here]

Available Projects in the Engineerting Track

·         Mechanically driven cellular self-organization and soft tissue patterning in bone healing [click here]

·         Bioprinted Functional Vasculature [click here]

·         pH-Cleavable Heparan Sulfate analogues dendritic Polyglycerol Sulfate (dPGS) based Microgels for Biorthogonal Encapsulation and Release of BMP-2 and Bone Forming Cells [click here]

Regards

Sabine Bartosch

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Dr. Sabine Bartosch

Charité - Universitätsmedizin Berlin

Berlin-Brandenburg School for Regenerative Therapies

Augustenburger Platz 1

13353 Berlin

Phone: +49 30 450539418

Fax: + 49 30 4507539918

E-Mail: coordination_office@bsrt.de

Web: www.bsrt.de