Dennis E. Discher, Ph.D.

Affiliations: 
Chemical & Biomolecular Engineering University of Pennsylvania, Philadelphia, PA, United States 
Area:
cell biophysics and polymer engineering
Website:
http://www.seas.upenn.edu/~discher/index.html
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"Dennis E. Discher"
Bio:

https://www.researchgate.net/profile/Dennis-Discher

Mean distance: 10.06 (cluster 18)
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Parents

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Mohandas Narla grad student 1993 UC Berkeley
Evan A. Evans post-doc UBC

Children

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James C Lee grad student 1996-2000 Penn
Harry Bermúdez grad student 2003 Penn
Paul M. Dalhaimer grad student 2003 Penn
Maureen A. Griffin grad student 2003 Penn
Kris N. Dahl grad student 2004 Penn
Richard Law grad student 2004 Penn
Peter J. Photos grad student 2004 Penn
Fariyal Ahmed grad student 2005 Penn
Nishant Bhasin grad student 2006 Penn
Adam J. Engler grad student 2006 Penn, MEAM
Shyamsundar Subramanian grad student 2006 Penn
Younghoon Kim grad student 2007 Penn
Vanessa Ortiz Torres grad student 2007 Penn
Shamik Sen grad student 2007 Penn, MEAM
Kandaswamy Vijayan grad student 2007 Penn, Physics
John D. Pajerowski grad student 2008 Penn, Bioeng
David A. Christian grad student 2009 Penn
Richard K. Tsai grad student 2009 Penn, Bioeng
Andre E. Brown grad student 2004-2009 Penn, Physics
Christine Carag Krieger grad student 2011 Penn
Jae-Won Shin grad student 2011 Penn, Pharm
Matthew Raab grad student 2012 Penn, Bioeng
Pia L. Rodriguez Nunez grad student 2012 Penn
Takamasa Harada grad student 2013 Penn
Stephanie F. Majkut grad student 2013 Penn, Physics
P.C. Dave Dingal grad student 2014 Penn
Nisha Sosale grad student 2014 Penn
Kyle R. Spinler grad student 2014 Penn
Cory Alvey grad student 2017 Penn, Pharm
Praful Nair grad student 2017 Penn
Sangkyun Cho grad student 2018 Penn
Yuntao Xia grad student 2019 Penn
Aziz Jalil grad student 2020 Penn, Chem
Charlotte Pfeifer grad student 2020 Penn, Physics
Manasvita Vashisth grad student 2021 Penn
Kuangzheng Zhu grad student 2021 Penn
Alişya A. Anlaş post-doc Penn

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Publications

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Tobin MP, Pfeifer CR, Zhu PK, et al. (2023) Differences in cell shape, motility, and growth reflect chromosomal number variations that can be visualized with live-cell ChReporters. Molecular Biology of the Cell. 34: br19
Hayes BH, Zhu PK, Wang M, et al. (2023) Confinement plus myosin-II suppression maximizes heritable loss of chromosomes, as revealed by live-cell ChReporters. Journal of Cell Science. 136
Hayes BH, Zhu PK, Wang M, et al. (2023) Confinement plus Myosin-II suppression maximizes heritable loss of chromosomes, as revealed by live-cell ChReporters. Journal of Cell Science
Dooling LJ, Andrechak JC, Hayes BH, et al. (2023) Cooperative phagocytosis of solid tumours by macrophages triggers durable anti-tumour responses. Nature Biomedical Engineering
Cho S, Discher DE, Leong KW, et al. (2022) Challenges and opportunities for the next generation of cardiovascular tissue engineering. Nature Methods. 19: 1064-1071
Dooling LJ, Saini K, Anlaş AA, et al. (2022) Tissue mechanics coevolves with fibrillar matrisomes in healthy and fibrotic tissues. Matrix Biology : Journal of the International Society For Matrix Biology
Wang M, Ivanovska I, Vashisth M, et al. (2022) Nuclear mechanoprotection: From tissue atlases as blueprints to distinctive regulation of nuclear lamins. Apl Bioengineering. 6: 021504
Pfeifer CR, Tobin MP, Cho S, et al. (2022) Gaussian curvature dilutes the nuclear lamina, favoring nuclear rupture, especially at high strain rate. Nucleus (Austin, Tex.). 13: 129-143
Vashisth M, Cho S, Irianto J, et al. (2021) Scaling concepts in 'omics: Nuclear lamin-B scales with tumor growth and often predicts poor prognosis, unlike fibrosis. Proceedings of the National Academy of Sciences of the United States of America. 118
Jalil AR, Hayes BH, Andrechak JC, et al. (2020) Multivalent, Soluble Nano-Self Peptides Increase Phagocytosis of Antibody-Opsonized Targets while Suppressing "Self" Signaling. Acs Nano. 14: 15083-15093
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