Biochemistry
R. Bentley
J. Brodsky
J. Franzen
P. Grabowski
J. Hempel
L. Jen-Jacobson
K. Kiselyov
C. Peebles
J. Rosenberg
A. Schwacha

Cell Biology
J. Brodsky
A. Chung
J. Hildebrand
L. Jacobson
N. Kaufmann
K. Kiselyov
J. Pipas
M.-T. Sáens-Robles
W. Saunders
C. Walsh

Computational Biology
M. Grabe
J. Lawrence
J. Rosenberg

Developmental Biology
G. Campbell
D. Chapman
J. Hildebrand
B. Roman
S. Shostak
B. Stronach
V. Twombly

Ecology
T.-L. Ashman
W. Carson
W. Coffman
S. Kalisz
T. Katzner
R. Relyea
S. Tonsor
B. Traw

Evolution
T.-L. Ashman
A. Bledsoe
S. Kalisz
J. Lawrence
Z.-X. Luo
R. Relyea
S. Shostak
S. Tonsor
B. Traw

Genetics
K. Arndt
T.-L. Ashman
G. Campbell
D. Chapman
G. Hatfull
J. Hildebrand
L. Jacobson
S. Kalisz
J. Martens
W. Saunders
B. Stronach
S. Tonsor
R. Wood

Microbiology
J. Boyle
G. Hatfull
R. Hendrix
J. Lawrence
J. Pipas
M. Popa
I. Campbell
R.L. Duda
S. Godfrey
V. Oke

Molecular Biology
K. Arndt
J. Boyle
J. Franzen
P. Grabowski
G. Hatfull
R. Hendrix
L. Jen-Jacobson
J. Martens
C. Peebles
J. Pipas
J. Rosenberg
A. Schwacha
C. Walsh

Plant Biology
T.-L. Ashman
W. Carson
S. Kalisz
V. Oke
C. Partanen
S. Tonsor
B. Traw

Science Education
A. Bledsoe
K. Curto
S. Donovan
L. Daniels
S. Godfrey
N. Kaufmann
C. LaFave
J. Newman
V. Oke
E. Polinko
M. Popa
L. Roberts
T. Seiflein
R. Sherwin
A. Slinskey Legg

Structural Biology
M. Grabe
J. Hempel
R. Hendrix
L. Jen-Jacobson
J. Rosenberg
A. VanDemark

Former Faculty

The development of a multicellular organism from a single fertilized egg cell is a brilliant triumph of evolution. The Developmental Biology Group in the Department of Biological Sciences are investigating a variety of questions about development: how cells arising from division of the fertilized egg become different from each other; how they become organized into structures such as limbs and brains (see Figure below); how the organizing principles of development are embedded within the egg and in its genetic material. Members of this group use model organisms including fruit flies and mice. The sophisticated genetics available in these organisms provides a means to finding the molecules that control development and to understanding how they function.

The central nervous system of this fruit fly embryo is stained with a dye to show its brain (left) and ventral nerve cord (bottom).

	Dr. Gerard Campbell Associate Professor Molecular Genetics of Development in Drosophila Dr. Campbell is currently accepting graduate students Dr. Deborah Chapman Associate Professor Mouse Developmental Biology Dr. Chapman is currently accepting graduate students
	Dr. Jeffrey Hildebrand Associate Professor Cell Biology and Genetics of Mouse Development Dr. Hildebrand is currently accepting graduate students Dr. Beth Roman Assistant Professor Vascular development in zebrafish Dr. Roman is currently accepting graduate students
	Dr. Stanley Shostak Associate Professor Emeritus Embryology and Histology Dr. Beth Stronach Assistant Professor Signal Transduction and Morphogenesis Dr. Stronach is currently accepting graduate students
	Dr. Vernon Twombly Lecturer Developmental signaling in Drosophila

 
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