Amanda L. Patterson, Ph.D.
Affiliations: | 2013 | Animal Sciences | Washington State University, Pullman, WA, United States |
Area:
General Biology, Cell BiologyGoogle:
"Amanda Patterson"Parents
Sign in to add mentorJames K. Pru | grad student | 2013 | WSU | |
(Mechanisms of endometrial regeneration.) |
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Publications
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Ramos IS, Caldeira MO, Patterson AL, et al. (2023) Uterine glands originate from islands of FOXA2 positive luminal epithelium cells that differentiate de novo and invade uterine stroma. Biology of Reproduction |
Davenport KM, O'Neil EV, Ortega MS, et al. (2023) Single cell insights into development of the bovine placenta†. Biology of Reproduction |
Kitchen-Goosen SM, Schumacher H, Good J, et al. (2022) Endometrial hyperplasia with loss of APC in a novel population of Lyz2-expressing mouse endometrial epithelial cells. Carcinogenesis |
Lenis YY, George JW, Lind S, et al. (2022) The Effects of Periostin Expression on Fibroid-Like Transition of Myometrial Cells. Reproductive Sciences (Thousand Oaks, Calif.) |
Spooner-Harris M, Kerns K, Zigo M, et al. (2022) A re-appraisal of mesenchymal-epithelial transition (MET) in endometrial epithelial remodeling. Cell and Tissue Research |
Spooner MK, Lenis YY, Watson R, et al. (2021) The role of stem cells in uterine involution. Reproduction (Cambridge, England) |
Patterson AL, George JW, Chatterjee A, et al. (2020) Putative human myometrial and fibroid stem-like cells have mesenchymal stem cell and endometrial stromal cell properties. Human Reproduction (Oxford, England) |
George JW, Fan H, Johnson B, et al. (2019) Integrated Epigenome, Exome, and Transcriptome Analyses Reveal Molecular Subtypes and Homeotic Transformation in Uterine Fibroids. Cell Reports. 29: 4069-4085.e6 |
Wilson MR, Reske JJ, Holladay J, et al. (2019) ARID1A and PI3-kinase pathway mutations in the endometrium drive epithelial transdifferentiation and collective invasion. Nature Communications. 10: 3554 |
Patterson AL, George J, Chatterjee A, et al. (2018) Label-retaining, putative mesenchymal stem cells contribute to repair of the myometrium during uterine involution. Stem Cells and Development |