The development of the imaginal disc of Drosophila is organized into discrete units referred to as compartments (developmental compartments). Each compartment is founded by a group fo cells (polyclone) whose developmental fates become specified by the compartmentalization process. Very little is known about how the compartments are formed but the fact that their formation is dependent on a group of cells would seem to indicate that cell-cell interactions must play an important role in this process. From previous tudies inthe ouse embryo, we have observed the presence of communication compartments-that is a group of cells that communicate well with one another but not with cells outside of the compartment boundary. It would be interesting to consider the possibility that perhaps gap junctional communication compartments may mediate the formation of developmental compartments in imaginal discs.
The aim of this proposal is to characterize the gap junctional communication propertiesof the wing disc and determine if gap junctional communication compartments are present. If gap junctional communication compartments are involved in the formation of developmental compartments, then the boundaries of both sets of compartments should be coincident. The communication properties of the wing imaginal disc will be characterized with microelectrode impalements to measure the extent of ionic and dye coupling. These measurements will reveal the presence of any communication compartments. In conjunction with the ionic and dye coupling measurements, electron microscopic morphometric measurements will be made to determine the number and size of gap junctions present in the wing disc. This analysis should reveal if a reduction in the number of junctonal channels at a compartment boundary could explain the basis for the formation of communication compartments. It is hoped that this study may lead to a better understanding of the mechanisms which regulate cell differentiation and development.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
3R01GM030461-03S1
Application #
3278236
Study Section
Genetics Study Section (GEN)
Project Start
1985-09-24
Project End
1985-12-31
Budget Start
1985-09-24
Budget End
1985-12-31
Support Year
3
Fiscal Year
1985
Total Cost
Indirect Cost
Name
University of Pennsylvania
Department
Type
Schools of Arts and Sciences
DUNS #
042250712
City
Philadelphia
State
PA
Country
United States
Zip Code
19104
Ruangvoravat, C P; Lo, C W (1992) Restrictions in gap junctional communication in the Drosophila larval epidermis. Dev Dyn 193:70-82
Ruangvoravat, C P; Lo, C W (1992) Connexin 43 expression in the mouse embryo: localization of transcripts within developmentally significant domains. Dev Dyn 194:261-81
Kalimi, G H; Lo, C W (1989) Gap junctional communication in the extraembryonic tissues of the gastrulating mouse embryo. J Cell Biol 109:3015-26
Kalimi, G H; Lo, C W (1988) Communication compartments in the gastrulating mouse embryo. J Cell Biol 107:241-55
Katsumata, M; Lo, C W (1988) Organization of chromosomes in the mouse nucleus: analysis by in situ hybridization. J Cell Sci 90 ( Pt 2):193-9
Lo, C W; Coulling, M; Kirby, C (1987) Tracking of mouse cell lineage using microinjected DNA sequences: analyses using genomic Southern blotting and tissue-section in situ hybridizations. Differentiation 35:37-44
Butner, K A; Lo, C W (1986) High frequency DNA rearrangements associated with mouse centromeric satellite DNA. J Mol Biol 187:547-56
Weir, M P; Lo, C W (1985) An anterior/posterior communication compartment border in engrailed wing discs: possible implications for Drosophila pattern formation. Dev Biol 110:84-90
Lo, C W (1985) Novel approach for restriction mapping repetitive DNA elements using DNA transformation. Somat Cell Mol Genet 11:455-65
Lo, C W; Fang, D; Hooper, M L (1985) Gap-junctional communication in a communication-defective and in a communication-competent teratocarcinoma cell line. J Cell Sci 76:85-95