Tatjana Piotrowski
Affiliations: | Neurobiology and Anatomy | University of Utah, Salt Lake City, UT |
Area:
Human DevelopmentGoogle:
"Tatjana Piotrowski"Children
Sign in to add trainee| Andrew Aman | grad student | 2010 | University of Utah |
| Andres Romero-Carvajal | grad student | 2010-2015 | University of Utah and School of Medicine |
| Marina Venero-Galanternik | grad student | 2009-2016 | University of Utah |
| Agnė Kozlovskaja-Gumbrienė | grad student | 2013-2017 | Stowers Instistute for Medical Research |
| Joaquin Navajas Acedo | grad student | 2014-2019 | Stowers Instistute for Medical Research (Neurotree) |
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Publications
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| Peloggia J, Lush ME, Tsai YY, et al. (2024) Environmental and molecular control of tissue-specific ionocyte differentiation in zebrafish. Biorxiv : the Preprint Server For Biology |
| Baek S, Tran NTT, Diaz DC, et al. (2022) Single-cell transcriptome analysis reveals three sequential phases of gene expression during zebrafish sensory hair cell regeneration. Developmental Cell. 57: 799-819.e6 |
| Peloggia J, Münch D, Meneses-Giles P, et al. (2021) Adaptive cell invasion maintains lateral line organ homeostasis in response to environmental changes. Developmental Cell. 56: 1296-1312.e7 |
| Denans N, Baek S, Piotrowski T. (2019) Comparing Sensory Organs to Define the Path for Hair Cell Regeneration. Annual Review of Cell and Developmental Biology |
| Navajas Acedo J, Voas MG, Alexander R, et al. (2019) PCP and Wnt pathway components act in parallel during zebrafish mechanosensory hair cell orientation. Nature Communications. 10: 3993 |
| Postlethwait JH, Navajas Acedo J, Piotrowski T. (2019) Evolutionary Origin and Nomenclature of Vertebrate -Family Genes. Zebrafish |
| Lush ME, Diaz DC, Koenecke N, et al. (2019) scRNA-Seq reveals distinct stem cell populations that drive hair cell regeneration after loss of Fgf and Notch signaling. Elife. 8 |
| Lush ME, Diaz DC, Koenecke N, et al. (2019) Author response: scRNA-Seq reveals distinct stem cell populations that drive hair cell regeneration after loss of Fgf and Notch signaling Elife |
| Nikaido M, Acedo JN, Hatta K, et al. (2017) Retinoic acid is required and Fgf, Wnt, and Bmp signaling inhibit posterior lateral line placode induction in zebrafish. Developmental Biology |
| Kozlovskaja-Gumbrienė A, Yi R, Alexander R, et al. (2017) Proliferation-independent regulation of organ size by Fgf/Notch signaling. Elife. 6 |