The long-term goal of these experiments is to define the cellular and molecular mechanisms responsible for morphological transitions that occur during cycle 14 of the Drosophila embryogenesis. Over the next five years we will focus on a subset of those phenomena that provide a bridge between cellularization and the cell shape changes of gastrulation. The first set of experiments addresses the formation of the basal and apical junctions during cellularization and the role played by the nullo gene in that process. Junction formation will be studied in living embryos and fixed material and genetic screens will be carried out to identify new components in the process. The second set of experiments examines the link between certain cellularization phenomena and the cell shape changes that occur in the ventral furrow at gastrulation. Our analysis will focus on apical flattening and constriction, processes that involve a re-distribution of myosin from the cellularization front to the apical surface. We will utilize controlled expression of the folded gastrulation gene and disruption of the basal and apical junction components to investigate the importance of the linkage between the contractile cortex and the incipient zonula adherens. The third set of experiments focuses on the initiator cells of cephalic furrow formation and the relationship between their behavior and a newly discovered spatial pattern in the diameters of stalk constrictions during cellularization. We will investigate the mechanism that widens the cleavage furrow canal and will characterize the defects associated with s locus in 64BC that affects both gastrulation and cellularization. We will clone the gene responsible for those effects and test for interactions with other genes involved in furrow widening and the control of stalk diameter.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
5R01HD015587-20
Application #
6520765
Study Section
Genetics Study Section (GEN)
Program Officer
Moody, Sally Ann
Project Start
1981-08-01
Project End
2006-06-30
Budget Start
2002-07-01
Budget End
2003-06-30
Support Year
20
Fiscal Year
2002
Total Cost
$173,574
Indirect Cost
Name
Princeton University
Department
Biochemistry
Type
Schools of Arts and Sciences
DUNS #
002484665
City
Princeton
State
NJ
Country
United States
Zip Code
08544
Momen-Roknabadi, Amir; Di Talia, Stefano; Wieschaus, Eric (2016) Transcriptional Timers Regulating Mitosis in Early Drosophila Embryos. Cell Rep 16:2793-2801
Falahati, Hanieh; Pelham-Webb, Bobbie; Blythe, Shelby et al. (2016) Nucleation by rRNA Dictates the Precision of Nucleolus Assembly. Curr Biol 26:277-85
Polyakov, Oleg; He, Bing; Swan, Michael et al. (2014) Passive mechanical forces control cell-shape change during Drosophila ventral furrow formation. Biophys J 107:998-1010
He, Bing; Doubrovinski, Konstantin; Polyakov, Oleg et al. (2014) Apical constriction drives tissue-scale hydrodynamic flow to mediate cell elongation. Nature 508:392-6
Khan, Zia; Wang, Yu-Chiun; Wieschaus, Eric F et al. (2014) Quantitative 4D analyses of epithelial folding during Drosophila gastrulation. Development 141:2895-900
Bejsovec, A; Wieschaus, E (1995) Signaling activities of the Drosophila wingless gene are separately mutable and appear to be transduced at the cell surface. Genetics 139:309-20
Postner, M A; Wieschaus, E F (1994) The nullo protein is a component of the actin-myosin network that mediates cellularization in Drosophila melanogaster embryos. J Cell Sci 107 ( Pt 7):1863-73
Schejter, E D; Wieschaus, E (1993) bottleneck acts as a regulator of the microfilament network governing cellularization of the Drosophila embryo. Cell 75:373-85
Bejsovec, A; Wieschaus, E (1993) Segment polarity gene interactions modulate epidermal patterning in Drosophila embryos. Development 119:501-17
Schejter, E D; Wieschaus, E (1993) Functional elements of the cytoskeleton in the early Drosophila embryo. Annu Rev Cell Biol 9:67-99

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