Leonard Freedman
Affiliations: | Weill Cornell Medical College, New York, NY, United States |
Area:
Cell BiologyGoogle:
"Leonard Freedman"Children
Sign in to add trainee| Virginia C. Bromleigh | grad student | 2001 | Weill Cornell Medical College |
| Darya Burakov | grad student | 2002 | Weill Cornell Medical College |
| Teodora P. Staeva-Vieira | grad student | 2002 | Weill Cornell Medical College |
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Publications
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| Freedman LP. (2019) Multimeric Coactivator Complexes for Steroid/Nuclear Receptors. Trends in Endocrinology and Metabolism: Tem. 10: 403-407 |
| Shen Q, Bai Y, Chang KC, et al. (2011) Liver X receptor-retinoid X receptor (LXR-RXR) heterodimer cistrome reveals coordination of LXR and AP1 signaling in keratinocytes. The Journal of Biological Chemistry. 286: 14554-63 |
| Berrodin TJ, Shen Q, Quinet EM, et al. (2010) Identification of 5α, 6α-epoxycholesterol as a novel modulator of liver X receptor activity. Molecular Pharmacology. 78: 1046-58 |
| Schmidt A, Kimmel DB, Bai C, et al. (2010) Discovery of the selective androgen receptor modulator MK-0773 using a rational development strategy based on differential transcriptional requirements for androgenic anabolism versus reproductive physiology. The Journal of Biological Chemistry. 285: 17054-64 |
| Cheskis BJ, Greger J, Cooch N, et al. (2008) MNAR plays an important role in ERa activation of Src/MAPK and PI3K/Akt signaling pathways. Steroids. 73: 901-5 |
| Cheskis BJ, Greger JG, Nagpal S, et al. (2007) Signaling by estrogens. Journal of Cellular Physiology. 213: 610-7 |
| Greger JG, Fursov N, Cooch N, et al. (2007) Phosphorylation of MNAR promotes estrogen activation of phosphatidylinositol 3-kinase. Molecular and Cellular Biology. 27: 1904-13 |
| Lipfert L, Fisher JE, Wei N, et al. (2006) Antagonist-induced, activation function-2-independent estrogen receptor alpha phosphorylation. Molecular Endocrinology (Baltimore, Md.). 20: 516-33 |
| Gamble MJ, Erdjument-Bromage H, Tempst P, et al. (2005) The histone chaperone TAF-I/SET/INHAT is required for transcription in vitro of chromatin templates. Molecular and Cellular Biology. 25: 797-807 |
| Nantermet PV, Masarachia P, Gentile MA, et al. (2005) Androgenic induction of growth and differentiation in the rodent uterus involves the modulation of estrogen-regulated genetic pathways. Endocrinology. 146: 564-78 |