Randall Widelitz
Affiliations: | Pathobiology: Doctor of Philosophy | University of Southern California, Los Angeles, CA, United States |
Area:
PathologyGoogle:
"Randall Widelitz"
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Publications
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| Lei M, Jiang J, Wang M, et al. (2023) Epidermal-dermal coupled spheroids are important for tissue pattern regeneration in reconstituted skin explant cultures. Npj Regenerative Medicine. 8: 65 |
| Lei M, Harn HI, Li Q, et al. (2023) The mechano-chemical circuit drives skin organoid self-organization. Proceedings of the National Academy of Sciences of the United States of America. 120: e2221982120 |
| Wu P, Jiang TX, Lei M, et al. (2021) Cyclic growth of dermal papilla and regeneration of follicular mesenchymal components during feather cycling. Development (Cambridge, England). 148 |
| Wu P, Jiang TX, Lei M, et al. (2021) Cyclic growth of dermal papilla and regeneration of follicular mesenchymal components during feather cycling. Development (Cambridge, England) |
| Chang WL, Wu H, Chiu YK, et al. (2019) The Making of a Flight Feather: Bio-architectural Principles and Adaptation. Cell. 179: 1409-1423.e17 |
| Lee YS, Liang YC, Wu P, et al. (2019) STAT3 Signaling Pathway is Implicated in Keloid Pathogenesis by Preliminary Transcriptome and Open Chromatin Analyses. Experimental Dermatology |
| Inaba M, Jiang TX, Liang YC, et al. (2019) Instructive role of melanocytes during pigment pattern formation of the avian skin. Proceedings of the National Academy of Sciences of the United States of America |
| Li A, Cho J, Jiang T, et al. (2019) 918 Skin morphogenesis by coupling biochemical-bioelectric signals: Calcium oscillations coordinate dermal cell movement by epidermis-derived SHH signaling during feather bud orientation Journal of Investigative Dermatology. 139: S158 |
| Widelitz RB, Lin GW, Lai YC, et al. (2018) Morpho-regulation in diverse chicken feather formation: Integrating branching modules and sex hormone-dependent morpho-regulatory modules. Development, Growth & Differentiation |
| Wu P, Lai YC, Widelitz R, et al. (2018) Comprehensive molecular and cellular studies suggest avian scutate scales are secondarily derived from feathers, and more distant from reptilian scales. Scientific Reports. 8: 16766 |