Rudolf Jaenisch

Affiliations: 
Massachusetts Institute of Technology, Cambridge, MA, United States 
Area:
Mouse development
Website:
http://www.wi.mit.edu/research/faculty/jaenisch.html
Google:
"Rudolf Jaenisch"
Bio:

http://www.pnas.org/content/101/39/13982.full

Cross-listing: Neurotree - DevTree

Children

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Chuanyun Xu research assistant 2016-2017 MIT (Neurotree)
Alexander Marson grad student (Chemistry Tree)
Anne Vassalli grad student MIT (Neurotree)
Kevin C. Eggan grad student 1998-2002 MIT (Neurotree)
Michael A Lodato grad student 2007-2013 MIT (Neurotree)
Laurie A. Boyer post-doc Whitehead Institute (MIT) (Chemistry Tree)
Guoping Fan post-doc MIT (Neurotree)
Dirk Hockemeyer post-doc
Laurie Jackson-Grusby post-doc Whitehead Institute (Neurotree)
Vikram Khurana post-doc Whitehead Institute (Neurotree)
Jordan Kreidberg post-doc Whitehead Institute (MIT) (DevTree)
Kathrin Plath post-doc MIT
Marius Wernig post-doc MIT
Antonius J.M. Berns post-doc 1976 Salk Institute (Chemistry Tree)
Philippe Soriano post-doc 1984-1987 University of Hamburg; Whitehead Institute (MIT)
Jerold Chun post-doc 1988-1991 MIT (Neurotree)
Reinhard Fässler post-doc 1988-1992 Whitehead Institute (MIT)
Paul Soloway post-doc 1990-1994 (Neurotree)
Jeannie T. Lee post-doc 1995 Whitehead Institute (MIT) (Chemistry Tree)
Volker H. Haase post-doc 1996-2001 MIT
Yun Li post-doc 2009-2017 MIT (Neurotree)
Julien Muffat post-doc 2009-2017 Whitehead Institute for Biomedical Research (Neurotree)
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Publications

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Huang X, Park KM, Gontarz P, et al. (2021) OCT4 cooperates with distinct ATP-dependent chromatin remodelers in naïve and primed pluripotent states in human. Nature Communications. 12: 5123
Zhang L, Richards A, Barrasa MI, et al. (2021) Response to Parry et al.: Strong evidence for genomic integration of SARS-CoV-2 sequences and expression in patient tissues. Proceedings of the National Academy of Sciences of the United States of America. 118
Khan SA, Park KM, Fischer LA, et al. (2021) Probing the signaling requirements for naive human pluripotency by high-throughput chemical screening. Cell Reports. 35: 109233
Zhang L, Richards A, Barrasa MI, et al. (2021) Reverse-transcribed SARS-CoV-2 RNA can integrate into the genome of cultured human cells and can be expressed in patient-derived tissues. Proceedings of the National Academy of Sciences of the United States of America. 118
Yang H, Wang H, Jaenisch R. (2021) Response to "Reproducibility of CRISPR-Cas9 methods for generation of conditional mouse alleles: a multi-center evaluation". Genome Biology. 22: 98
Tang X, Jaenisch R, Sur M. (2021) The role of GABAergic signalling in neurodevelopmental disorders. Nature Reviews. Neuroscience
Trapecar M, Wogram E, Svoboda D, et al. (2021) Human physiomimetic model integrating microphysiological systems of the gut, liver, and brain for studies of neurodegenerative diseases. Science Advances. 7
Carlone DL, Riba-Wolman RD, Deary LT, et al. (2021) Telomerase expression marks transitional growth-associated skeletal progenitor/stem cells. Stem Cells (Dayton, Ohio)
Payne AC, Chiang ZD, Reginato PL, et al. (2020) In situ genome sequencing resolves DNA sequence and structure in intact biological samples. Science (New York, N.Y.)
Zhang L, Richards A, Khalil A, et al. (2020) SARS-CoV-2 RNA reverse-transcribed and integrated into the human genome. Biorxiv : the Preprint Server For Biology
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