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1.
Kübler, I.C.* ; Kretzschmar, J.* ; Brankatschk, M.* & Sandoval-Guzmán, T.: Local problems need global solutions - the metabolic needs of regenerating organisms. Wound Repair Regen. 30, 652-664 (2022)
2.
Sardogan, A. et al.: Clonal analysis of mesothelium during healthy, developing, and injured conditions. Wound Repair Regen. 30, A25-A25 (2022)
3.
Christ, S. ; Jiang, D. ; Correa-Gallegos, D. ; Ramesh, P. & Rinkevich, Y.: Two succeeding fibroblastic lineages drive dermal development and the transition from regeneration to scarring. Wound Repair Regen. 28, A10-A10 (2020)
4.
Conlon, T.M. et al.: Regeneration of airway epithelial cell regulated by arginine methylation. Wound Repair Regen. 28, A13-A13 (2020)
5.
Correa-Gallegos, D. ; Jiang, D. & Rinkevich, Y.: Subcutaneous fascia is a cell repository for scars. Wound Repair Regen. 28, A6-A6 (2020)
6.
Cranz, S. et al.: Rebuilding new lungs: Studying homing of progenitor lung cell types into their native niche of decellularized ex vivo human lung slices by 4D live-cell light-sheet microscopy. Wound Repair Regen. 28, A6-A6 (2020)
7.
Jiang, D. et al.: Local and transient inhibition of p21 expression ameliorates age-related delayed wound healing. Wound Repair Regen. 28, 49-60 (2020)
8.
Jiang, D. et al.: Scar formation is driven by N-cadherin dependent collective fibroblast migration. Wound Repair Regen. 28, A16-A16 (2020)
9.
Jiang, D. et al.: Local and transient inhibition of p21 expression ameliorates age-related delayed wound healing. Wound Repair Regen. 28, A15-A15 (2020)
10.
Kastlmeier, M.T. ; Stöger, T. ; Hilgendorff, A. & Voss, C.: HIPSC in vitro model for therapeutic strategies in fibrotic regeneration. Wound Repair Regen. 28, A1-A1 (2020)
11.
Lickert, H.: Beta cell development, heterogeneity and regeneration. Wound Repair Regen. 28, A2-A2 (2020)
12.
Mattner, L. ; Rudolph, J.D.* ; Cox, J.* & Schiller, H. B.: Deciphering the functions of phosphoproteomics signaling networks in human lung fibroblasts upon rigidity sensing. Wound Repair Regen. 28, A8-A8 (2020)
13.
Strunz, M. et al.: Fate trajectory modeling reveals convergence of airway derived progenitors and AT2 cells on transient KRT8+alveolar cell state during lung regeneration. Wound Repair Regen. 28, A7-A7 (2020)