Stephen A. Liebhaber
Affiliations: | Cell and Molecular Biology | University of Pennsylvania, Philadelphia, PA, United States |
Area:
Genetics, Molecular Biology, Endocrinology BiologyGoogle:
"Stephen Liebhaber"Children
Sign in to add traineeDawn L. Eastmond | grad student | 2004 | Penn |
Melanie R. Vishnu | grad student | 2010 | Penn |
Margaret R. Fleetwood | grad student | 2012 | Penn |
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Publications
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Shan M, Ji X, Janssen K, et al. (2021) Dynamic changes in RNA-protein interactions and RNA secondary structure in mammalian erythropoiesis. Life Science Alliance. 4 |
Ji X, Jha A, Humenik J, et al. (2021) RNA-binding proteins PCBP1 and PCBP2 are critical determinants of murine erythropoiesis. Molecular and Cellular Biology. MCB0066820 |
Ho Y, Hu P, Peel MT, et al. (2020) Single-cell transcriptomic analysis of adult mouse pituitary reveals sexual dimorphism and physiologic demand-induced cellular plasticity. Protein & Cell |
Peel MT, Ho Y, Liebhaber SA. (2020) The Transcription Factor NR4A2 Plays an Essential Role in Driving Prolactin Expression in Female Pituitary Lactotropes. Endocrinology |
Ji X, Humenik J, Liebhaber SA. (2019) A cytosine-rich splice-regulatory determinant enforces functional processing of the human gene transcript. Blood |
Peel MT, Ho Y, Liebhaber SA. (2018) Transcriptome analyses of female somatotropes and lactotropes reveal novel regulators of cell identity in the pituitary. Endocrinology |
Grevet JD, Lan X, Hamagami N, et al. (2018) Domain-focused CRISPR screen identifies HRI as a fetal hemoglobin regulator in human erythroid cells. Science (New York, N.Y.). 361: 285-290 |
Ghanem LR, Kromer A, Silverman IM, et al. (2018) The Poly(C)-binding protein, Pcbp2, enables differentiation of definitive erythropoiesis by directing functional splicing of the Runx1 transcript. Molecular and Cellular Biology |
Ji X, Humenik J, Yang D, et al. (2017) PolyC-binding proteins enhance expression of the CDK2 cell cycle regulatory protein via alternative splicing. Nucleic Acids Research |
Ji X, Park JW, Bahrami-Samani E, et al. (2016) αCP binding to a cytosine-rich subset of polypyrimidine tracts drives a novel pathway of cassette exon splicing in the mammalian transcriptome. Nucleic Acids Research |