Janet E. Mertz

Affiliations: 
University of Wisconsin, Madison, Madison, WI 
Area:
Transcriptional regulation in DNA tumor viruses and breast cancer
Website:
https://cancerbiology.wisc.edu/bio/mertz_j.html
Google:
"Janet E. Mertz"
Bio:

https://mcardle.wisc.edu/who-we-are/faculty/janet-e-mertz-phd

Cross-listing: Chemistry Tree

Parents

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Paul Berg grad student 1975 Stanford (Chemistry Tree)
 (Deletion mutants of simian virus 40)
John B. Gurdon post-doc 1975-1976 MRC-LMB

Children

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Gayle H. O'Reilly grad student 2000 UW Madison (Chemistry Tree)
Shouhong Guang grad student 2004 UW Madison (Chemistry Tree)
Elizabeth H. Vu grad student 2007 UW Madison (Chemistry Tree)
Shreyasi Das grad student 2010 UW Madison (Chemistry Tree)
Amy L. Ellis grad student 2010 UW Madison (Chemistry Tree)
Jennifer A. Lamberski grad student 2010 UW Madison (Chemistry Tree)
Amanda M. Esch grad student 2011 UW Madison (Chemistry Tree)
Tawin Iempridee grad student 2014 UW Madison (Chemistry Tree)
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Publications

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Kraus RJ, Cordes BA, Sathiamoorthi S, et al. (2020) Reactivation of Epstein-Barr Virus By HIF-1α Requires p53. Journal of Virology
Kraus RJ, Yu X, Cordes BA, et al. (2017) Hypoxia-inducible factor-1α plays roles in Epstein-Barr virus's natural life cycle and tumorigenesis by inducing lytic infection through direct binding to the immediate-early BZLF1 gene promoter. Plos Pathogens. 13: e1006404
Zou J, Jones RJ, Mertz JE, et al. (2017) Protein Homeostatic Modulators, a Novel Class of Cereblon-Targeting Small Molecules As Potential Clinical Candidates in Multiple Myeloma Blood. 130: 4418-4418
Jones RJ, Iempridee T, Wang X, et al. (2016) Lenalidomide, Thalidomide, and Pomalidomide Reactivate the Epstein-Barr Virus Lytic Cycle Through Phosphoinositide 3-kinase Signaling and Ikaros Expression. Clinical Cancer Research : An Official Journal of the American Association For Cancer Research
Nawandar DM, Wang A, Makielski K, et al. (2015) Differentiation-Dependent KLF4 Expression Promotes Lytic Epstein-Barr Virus Infection in Epithelial Cells. Plos Pathogens. 11: e1005195
Reusch JA, Nawandar DM, Wright KL, et al. (2015) Cellular differentiation regulator BLIMP1 induces Epstein-Barr virus lytic reactivation in epithelial and B cells by activating transcription from both the R and Z promoters. Journal of Virology. 89: 1731-43
Iempridee T, Reusch JA, Riching A, et al. (2014) Epstein-Barr virus utilizes Ikaros in regulating its latent-lytic switch in B cells. Journal of Virology. 88: 4811-27
Kenney SC, Mertz JE. (2014) Regulation of the latent-lytic switch in Epstein-Barr virus. Seminars in Cancer Biology. 26: 60-8
Das S, Becker BN, Hoffmann FM, et al. (2012) Reversal of transforming growth factor-β induced epithelial-to-mesenchymal transition and the ZEB proteins. Fibrogenesis & Tissue Repair. 5: S28
Ma SD, Yu X, Mertz JE, et al. (2012) An Epstein-Barr Virus (EBV) mutant with enhanced BZLF1 expression causes lymphomas with abortive lytic EBV infection in a humanized mouse model. Journal of Virology. 86: 7976-87
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