Research Lab Members:
Cho, Yong Suk
Zhang, Yang
Research Summary:
Most of the research in our lab is focused on the question of how a complex multicellular organism develops from a seemingly simple single cell, the fertilized Drosophila egg. In one set of investigations, we are studying how embryonic dorsal-ventral polarity is established. The polarity of the embryonic dorsal-ventral axis is defined by a ventrally-produced extracellular ligand which binds to and activates Toll, a receptor protein present in the membrane of the embryo. This mechanism is very similar to one which controls the formation of the anterior and posterior termini of the Drosophila embryo. In that process, an extracellular ligand formed specifically at the two ends of the embryo activates Torso, another receptor protein localized to the embryonic membrane. Experiments in our lab are aimed at understanding at the molecular level how the localized production of these receptor ligands is accomplished and defines embryonic pattern along the dorsal-ventral axis and at the embryonic termini.
Research Images:
VML-RFP localizes to the Drosophila Eggshell - The Drosophila Vitelline Membrane-Like (VML) protein participates in the formation of the embryonic dorsal-ventral axis. A Red Fluorescent Protein (RFP) - tagged version of the protein shows that VML is localized to the vitelline membrane layer of the the eggshell.
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Publications:
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2012
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Cho YS, Stevens LM, Sievermann KJ, Nguyen J, and Stein D ,
A ventrally localized protease in the Drosophila egg controls embryo dorsoventral polarity,
Current Biology
22:
1013-1018
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2010
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Stein D, Charatsi I, Cho YS, Zhang Z, Nguyen J, DeLotto R, Luschnig S, and Moussian B,
Localization and activation of the Drosophila protease Easter required the ER-resident saposin-like protein seele,
Current Biology
20:
1953-1958
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2010
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Cho YS, Stevens LM, and Stein D ,
Pipe-dependent ventral processing of Easter by Snake is the defining step in Drosophila embryo DV axis formation,
Current Biology
20:
1133-1137
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2009
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Zhang Z, Zhu X, Stevens LM, and Stein D ,
Distinct functional specificities are associated with protein isoforms encoded by the Drosophila Dorsal-Ventral patterning gene pipe,
Development
136:
2779-2789
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2009
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Zhang Z, Stevens LM, and Stein D,
Sulfation of Eggshell Components by Pipe Defines Dorsal-Ventral Polarity in the Drosophila Embryo,
Current Biology
19:
1200-1205
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2008
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Zhu X, Stevens LM, and Stein D,
No requirement for localized Nudel protein expression in Drosophila embryonic axis determination,
Fly
2:
220-228
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2007
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Zhu X, Stevens LM, and Stein D,
Synthesis of the sulfate donor PAPS in either the Drosophila germline or somatic follicle cells can support embryonic dorsal-ventral axis formation,
Development
134:
1465-1469
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2006
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Biswas R, Stein D, and Stanley ER,
Drosophila Dok is required for embryonic dorsal closure,
Development
133:
217-227
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2005
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Werz C, Lee TV, Lee PL, Lackey M, Bolduc C, Stein DS, and Bergmann A,
Mis-specified cells die by an active gene-directed process, and inhibition of this death results in cell fate transformation in Drosophila ,
Development
132:
5343-5352
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2005
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Zhu X, Sen J, Stevens L, Goltz JS, and Stein D,
Drosophila Pipe protein activity in the ovary and the embryonic salivary gland do not require heparan sulfate glycosaminoglycans,
Development
132:
3813-3822
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2004
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Maines JZ, Stevens LM, Tong X, and Stein D,
Drosophila dMyc is required for ovary cell growth and endoreplication,
Development
131:
775-786
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2004
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Zhu X, and Stein D,
RNAi-mediated inhibition of gene function in the follicle cell layer of the Drosophila ovary,
Genesis
40:
101-108
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2003
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Stevens LM, Beuchle D, Jurcsak J, Tong X, and Stein D,
The Drosophila embryonic patterning determinant torsolike is a component of the eggshell,
Current Biology
13:
1058-1063
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