H. Robert Horvitz

Massachusetts Institute of Technology, Cambridge, MA, United States 
"H. Robert Horvitz"

The Nobel Prize in Physiology or Medicine 2002 was awarded jointly to Sydney Brenner, H. Robert Horvitz and John E. Sulston "for their discoveries concerning genetic regulation of organ development and programmed cell death'".

Cross-listing: Neurotree - Chemistry Tree


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Walter Gilbert grad student 1974 Harvard (Chemistry Tree)
James D. Watson grad student 1974 Harvard
 (Modifications of the host RNA polymerase induced by coliphage T4)
Sydney Brenner post-doc MRC-LMB (Neurotree)


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Yin Li research assistant 2004-2008 MIT (Neurotree)
Joshua Levin grad student (Chemistry Tree)
Michael J. Stern grad student (Cell Biology Tree)
Iva Susan Greenwald grad student 1982 MIT
Paul W. Sternberg grad student 1979-1984 MIT (Neurotree)
Edwin Chip L. Ferguson grad student 1985 MIT (FlyTree)
Ronald E Ellis grad student 1989 MIT
Michael Andrew Herman grad student 1991 MIT
Junying Yuan grad student 1983-1991 Harvard & MIT (Neurotree)
Scott G Clark grad student 1992 MIT
Steven L. McIntire grad student 1983-1992 Harvard & MIT (Neurotree)
Gregory Beitel grad student 1988-1994 MIT (Cell Biology Tree)
Shai Shaham grad student 1990-1996 MIT (Neurotree)
Yi-Chun Wu grad student 1998 MIT
Tory G. Herman grad student 1991-1998 MIT (Chemistry Tree)
Xiaowei Lu grad student 1999 MIT
Gillian Stanfield grad student 1992-1999 MIT
Bradley Michael Hersh grad student 2002 MIT
Peter W. Reddien grad student 1997-2002 MIT (Neurotree)
Craig Joseph Ceol grad student 2003 MIT
Melissa M Harrison grad student 2006 MIT
Erik C. Andersen grad student 2000-2008 MIT (Neurotree)
Shunji Nakano grad student 2011 MIT
Victor Ambros post-doc MIT (Neurotree)
Andrew D. Chisholm post-doc MIT (Neurotree)
Barbara Conradt post-doc (Cell Biology Tree)
Yishi Jin post-doc MIT (Neurotree)
Erik Jorgensen post-doc MIT (Neurotree)
Joshua M. Kaplan post-doc MIT (Neurotree)
Michael R. Koelle post-doc MIT (Neurotree)
Niels Ringstad post-doc Skirball Institute, NYU School of Medicine (Neurotree)
Gary Ruvkun post-doc MIT (Neurotree)
Gian Garriga post-doc 1986-1991 MIT (Neurotree)
Cori Bargmann post-doc 1987-1991 MIT (Neurotree)
Dengke K. Ma post-doc 2009-2015 MIT (Neurotree)
Matthias C Truttmann post-doc 2013-2018 MIT (Chemistry Tree)
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Dwivedi VK, Pardo-Pastor C, Droste R, et al. (2021) Replication stress promotes cell elimination by extrusion. Nature
Cohn J, Dwivedi V, Valperga G, et al. (2019) Activity-Dependent Regulation of the Proapoptotic BH3-Only Gene in a Living Neuron Pair in . G3 (Bethesda, Md.)
Van Bael S, Watteyne J, Boonen K, et al. (2018) Mass Spectrometric Evidence for Neuropeptide-Amidating Enzymes in. The Journal of Biological Chemistry
Driscoll K, Stanfield GM, Droste R, et al. (2017) Presumptive TRP channel CED-11 promotes cell volume decrease and facilitates degradation of apoptotic cells in Caenorhabditis elegans. Proceedings of the National Academy of Sciences of the United States of America
Luo S, Horvitz HR. (2017) The CDK8 Complex and Proneural Proteins Together Drive Neurogenesis from a Mesodermal Lineage. Current Biology : Cb. 27: 661-672
Zinovyeva AY, Veksler-Lublinsky I, Vashisht AA, et al. (2015) Caenorhabditis elegans ALG-1 antimorphic mutations uncover functions for Argonaute in microRNA guide strand selection and passenger strand disposal. Proceedings of the National Academy of Sciences of the United States of America. 112: E5271-80
Bhatla N, Droste R, Sando SR, et al. (2015) Distinct neural circuits control rhythm inhibition and spitting by the myogenic pharynx of C. elegans Current Biology. 25: 2075-2089
Hirose T, Horvitz HR. (2014) The translational regulators GCN-1 and ABCF-3 act together to promote apoptosis in C. elegans. Plos Genetics. 10: e1004512
de la Cruz IP, Ma L, Horvitz HR. (2014) The Caenorhabditis elegans iodotyrosine deiodinase ortholog SUP-18 functions through a conserved channel SC-box to regulate the muscle two-pore domain potassium channel SUP-9. Plos Genetics. 10: e1004175
Hirose T, Horvitz HR. (2013) An Sp1 transcription factor coordinates caspase-dependent and -independent apoptotic pathways. Nature. 500: 354-8
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