Josh Tycko

Systematic discovery of protein functions in human cells to understand gene regulation and enable gene therapy

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Josh Tycko

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Department of Neurobiology

Harvard Medical School

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Josh Tycko

Systematic discovery of protein functions in human cells to understand gene regulation and enable gene therapy

Department of Neurobiology

Harvard Medical School

Google Scholar

Enhancer connectome in primary human cells identifies target genes of disease-associated DNA elements

Journal article

Maxwell R. Mumbach, Ansuman T. Satpathy, E. Boyle, Chao Dai, Benjamin G. Gowen, S. Cho, M. Nguyen, Adam J. Rubin, Jeffrey M Granja, Katelynn R. Kazane, Yuning Wei, Trieu Nguyen, P. Greenside, M. Corces, Josh Tycko, Dimitre R. Simeonov, Nabeela Suliman, Rui Li, Jin Xu, Ryan A. Flynn, A. Kundaje, P. Khavari, A. Marson, J. Corn, T. Quertermous, W. Greenleaf, Howard Y. Chang
Nature Genetics, 2017
Semantic Scholar DOI PubMed
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APA
Mumbach, M. R., Satpathy, A. T., Boyle, E., Dai, C., Gowen, B. G., Cho, S., … Chang, H. Y. (2017). Enhancer connectome in primary human cells identifies target genes of disease-associated DNA elements. Nature Genetics.

Chicago/Turabian
Mumbach, Maxwell R., Ansuman T. Satpathy, E. Boyle, Chao Dai, Benjamin G. Gowen, S. Cho, M. Nguyen, et al. “Enhancer Connectome in Primary Human Cells Identifies Target Genes of Disease-Associated DNA Elements.” Nature Genetics (2017).

MLA
Mumbach, Maxwell R., et al. “Enhancer Connectome in Primary Human Cells Identifies Target Genes of Disease-Associated DNA Elements.” Nature Genetics, 2017.

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