Feng Wu

New York University (NYU) - Department of Environmental Medicine

United States

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Scholarly Papers (1)

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Polyadenylation of Histone H3.1 mRNA Promotes Cell Transformation by Displacing H3.3 from Gene Regulatory Elements

Number of pages: 60 Posted: 21 Nov 2019
New York University (NYU) - Department of Environmental Medicine, New York University (NYU) - Department of Environmental Medicine, University of Virginia - Center for Public Health Genomics, New York University (NYU) - Department of Environmental Medicine, New York University (NYU) - Department of Environmental Medicine, University of Virginia - Center for Public Health Genomics, New York University (NYU) - Department of Environmental Medicine, New York University (NYU) - Department of Environmental Medicine, New York University (NYU) - Department of Environmental Medicine, New York University (NYU) - Department of Environmental Medicine, University of Virginia - Center for Public Health Genomics, New York University (NYU) - Department of Environmental Medicine, New York University (NYU) - Department of Environmental Medicine, University of Virginia - Center for Public Health Genomics, New York University (NYU) - Department of Environmental Medicine and New York University (NYU) - Department of Environmental Medicine
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Abstract:

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Canonical histones, Histone variants, H3.1, H3.3, polyadenylation, arsenic, transcription, carcinogenesis