Barbara Panning, Ph.D.

Pew.Feature.Scholar.Bio.Title
Associate Professor
Pew.Feature.Scholar.Bio.Department
Department of Biochemistry & Biophysics
Pew.Feature.Scholar.Bio.Institution
University of California, San Francisco
Pew.Feature.Scholar.Bio.Address
Genentech Hall, S372B
600 16th Street
Pew.Feature.Scholar.Bio.City, Pew.Feature.Scholar.Bio.State, Pew.Feature.Scholar.Bio.Zip
San Francisco, CA 94158
Pew.Feature.Scholar.Bio.Phone
(415) 672-1304
Pew.Feature.Scholar.Bio.Email
[email protected]
Pew.Feature.Scholar.Bio.Website
http://profiles.ucsf.edu/barbara.panning
Pew.Feature.Scholar.Bio.ResearchField
Biochemistry
Pew.Feature.Scholar.Bio.AwardYear
2002

Research

X chromosome inactivation is among the most fascinating examples of epigenetic regulation of gene expression. The transcriptional repression of one X chromosome in female somatic cells equalizes X-linked gene dosage between females and males. The Xist gene is crucial to initiate the X chromosome-wide alteration in chromatin structure that is restricted to one of two otherwise equivalent X chromosomes. The work in my lab is aimed at understanding three fundamentally important aspects of X-inactivation. How does Xist RNA function to alter chromatin structure? How is Xist developmentally regulated? And, how is a two-fold (or more) difference in X chromosome number sensed by the cell to restrict X-inactivation to cells with multiple X chromosomes?

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