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Gail Martin

Affiliations:

University of California, San Francisco, San Francisco, CA

Area:

FGF signaling and mouse hindbrain development

Website:

http://stemcell.ucsf.edu/about/faculty/martin

Google:

"Gail Martin"

Bio:

http://martinlab.ucsf.edu/
http://senate.ucsf.edu/2007-2008/frl-2007-08-invitation.pdf
Gail Martin was born and raised in New York City. She received her undergraduate degree from the
University of Wisconsin, Madison in 1964. As a graduate student in Harry Rubin’s laboratory at UC
Berkeley, she studied the behavior of chicken cells transformed by Rous sarcoma virus. After receiving
her Ph.D. in 1971, Gail did postdoctoral work in Martin Evans’ laboratory at University College, London,
where she defined conditions for isolating and maintaining pluripotent mouse teratocarcinoma stem
cells in the undifferentiated state and for triggering their differentiation in vitro. This work established
teratocarcinoma stem cells as a model system for studying the early steps in mouse embryogenesis.
After returning to the Bay Area in 1975, she continued postdoctoral work in Charles Epstein’s laboratory
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Mean distance: 15.34 (cluster 11)

Cross-listing: Cell Biology Tree - Chemistry Tree

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Parents

Harry Rubin	grad student	1971	UC Berkeley (Cell Biology Tree)
(Effects of cell adhesion to the substratum on the rate of multiplication of chick embryo fibroblasts)
Martin J. Evans	post-doc	1975	UCL
Charles J. Epstein	post-doc	1976	UCSF

Children

Jean Hébert	grad student		UCSF
Howard S Fox	grad student	1987	UCSF
Kevin Vogeli	grad student	2006	UCSF (Chemistry Tree)
Laura B. Grabel	post-doc		UCSF
Alexandra Joyner	post-doc		UCSF
Mark Bruce Lewandoski	post-doc		UCSF (Microtree)
Francesca V. Mariani	post-doc		UCSF
Lee Niswander	post-doc		University of Colorado, Denver
Karen M. Wassarman	post-doc		UCSF (Chemistry Tree)
George M. Church	post-doc	1985-1986	UCSF (Chemistry Tree)
Xin Sun	post-doc	1997-2002	UCSD

Collaborators

BETA: Related publications

Publications

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Shojaee S, Buchner M, Swaminathan S, et al. (2012) Negative Feedback Signaling Enables Leukemic Transformation by Oncogenic Tyrosine Kinases Blood. 120: 1352-1352
Shojaee S, Buchner M, Swaminathan S, et al. (2012) Abstract 2944: Targeting negative feedback signaling in tyrosine kinase-driven malignancies Cancer Research. 72: 2944-2944
Seidel K, Ahn CP, Lyons D, et al. (2010) Hedgehog signaling regulates the generation of ameloblast progenitors in the continuously growing mouse incisor. Development (Cambridge, England). 137: 3753-61
Hosako H, Martin GS, Barrier M, et al. (2009) Gene and microRNA expression in p53-deficient day 8.5 mouse embryos. Birth Defects Research. Part a, Clinical and Molecular Teratology. 85: 546-55
Lu P, Ewald AJ, Martin GR, et al. (2008) Genetic mosaic analysis reveals FGF receptor 2 function in terminal end buds during mammary gland branching morphogenesis. Developmental Biology. 321: 77-87
Mariani FV, Ahn CP, Martin GR. (2008) Genetic evidence that FGFs have an instructive role in limb proximal-distal patterning. Nature. 453: 401-5
Basson MA, Echevarria D, Ahn CP, et al. (2008) Specific regions within the embryonic midbrain and cerebellum require different levels of FGF signaling during development. Development (Cambridge, England). 135: 889-98
Klein OD, Lyons DB, Balooch G, et al. (2008) An FGF signaling loop sustains the generation of differentiated progeny from stem cells in mouse incisors. Development (Cambridge, England). 135: 377-85
Mariani F, Ahn C, Ornitz D, et al. (2007) Genetic analysis of Fgf gene function in the limb Developmental Biology. 306: 403-404
Ahn C, Ornitz D, Mariani F, et al. (2007) WITHDRAWN: Genetic analysis of Fgf gene function in the limb Developmental Biology