Ass. A2: Split formation and cell detachment as key drivers of persistent transcriptomic and proteomic changes in pemphigus vulgaris
The project focus on the pemphigus vulgaris, combing the Fluid Force Microscopy, omics data (transcriptomic, epigenomic and proteomic), and integrative data analysis and modeling to reveal the mechanism that driving the tissue remodeling during injury. This will help develop the novel treatment approaches, which will benefit not only PV, but also other severe human inflammatory and neoplastic diseases.
- Projects
- 1st Generation
- A: Defining Autoimmune Pre-Disease
- B: Targeting of Autoimmune Pre-Disease
- Associated projects
- Medical doctoral researcher projects
- Concluded projects
- Doctoral researchers
- Medical doctoral researchers
- Ass. doctoral researchers
- Ass. A1: Unravel principles of the biomolecular network in pemphigus vulgaris
- Ass. A2: Split formation and cell detachment as key drivers of persistent transcriptomic and proteomic changes in pemphigus vulgaris
- Ass. A4: Autoantibody clonotype tracking and pathogenicity testing in a murine model of autoimmune skin disease
- Ass. A5: Crosstalk between T cells and B cells in the differentiation of pathogenic plasma cells in pemphigoid diseases
- Ass. medical doctoral researchers
- 2nd Generation
- 1st Generation
Doctoral researcher
Participating Researchers
Mentor
