Abstract

Our major research aim is to clarify how interactons between embryonic tissues lead to cell determination, and to understand how changes in gene expression result from these tissue interactions. This proposal is concerned with the latter issue, which is addressed by examining how the genes encoding the major lens-specific protein in the chick, delta-crystallin, are regulated during lens development. First, precise time course studies will be performed to analyze the activation of data-crystallin genes in the lens lineage. This system is particularly advantageous for such a developmental study since lens or presumptive lens cells can be isolated before and during commitment to the lens cell type, and subsequently, when delta-crystallin is first synthesized, as well as at all later stages. Experiments are planned to determine when the delta-crystallin genes are first transcribed during lens development and whether alteration in chromatin structure or DNA methylation occur before, during or after this gene activation. Our second goal is to begin an analysis of how inductive signals lead to the regulation of gene expression in this system. This question will be examined in ventral or lateral head ectoderm which is some distance from the normal lens. This ectoderm itself has the potential to form a lens if cultured alone, though it is normally prevented from doing so by an inhibitory signal from the mesoderm underlying it. Experiments will ask whether this inhibitory interaction has any direct effect on the delta-crystallin genes, by preventing methylation changes, inhibiting the appearance of DNase I hypersensitive sites, or perhaps preventing processing of delta-crystallin transcripts. Finally, the lens system will be used to investigate how hypomethylation and DNase I hypersensitivity occur, particularly whether DNA replication is integral for either process. Experiments will distinguish two possible models for how hypomethylation might occur, either by demethylation or by simply not methylating newly replicated DNA. It is important to establish whether DNase I hypersensitive sites in chromatin appear only on newly synthesized DNA, since this would imply that chromatin remodeling is associated with DNA replication.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY005542-03
Application #
3260680
Study Section
Molecular Cytology Study Section (CTY)
Project Start
1984-04-01
Project End
1987-08-31
Budget Start
1986-04-01
Budget End
1987-08-31
Support Year
3
Fiscal Year
1986
Total Cost
Indirect Cost

  Institution

Name
University of Virginia
Department
Type
Schools of Arts and Sciences
DUNS #
001910777
City
Charlottesville
State
VA
Country
United States
Zip Code
22904

  Publications

Plautz, Carol Zygar; Zirkle, Brett E; Deshotel, Malia J et al. (2014) Early stages of induction of anterior head ectodermal properties in Xenopus embryos are mediated by transcriptional cofactor ldb1. Dev Dyn 243:1606-18
Smolich, B D; Tarkington, S K; Saha, M S et al. (1994) Xenopus gamma-crystallin gene expression: evidence that the gamma-crystallin gene family is transcribed in lens and nonlens tissues. Mol Cell Biol 14:1355-63
Smolich, B D; Tarkington, S K; Saha, M S et al. (1993) Characterization of Xenopus laevis gamma-crystallin-encoding genes. Gene 128:189-95
Grainger, R M; Henry, J J; Saha, M S et al. (1992) Recent progress on the mechanisms of embryonic lens formation. Eye (Lond) 6 ( Pt 2):117-22
Saha, M S; Grainger, R M (1992) A labile period in the determination of the anterior-posterior axis during early neural development in Xenopus. Neuron 8:1003-14
Sullivan, C H; O'Farrell, S; Grainger, R M (1991) Delta-crystallin gene expression and patterns of hypomethylation demonstrate two levels of regulation for the delta-crystallin genes in embryonic chick tissues. Dev Biol 145:40-50
Servetnick, M; Grainger, R M (1991) Homeogenetic neural induction in Xenopus. Dev Biol 147:73-82
Charlebois, T S; Henry, J J; Grainger, R M (1990) Differential cytokeratin gene expression reveals early dorsal-ventral regionalization in chick mesoderm. Development 110:417-25
Henry, J J; Grainger, R M (1990) Early tissue interactions leading to embryonic lens formation in Xenopus laevis. Dev Biol 141:149-63
Charlebois, T S; Spencer, D H; Tarkington, S K et al. (1990) Isolation of a chick cytokeratin cDNA clone indicative of regional specialization in early embryonic ectoderm. Development 108:33-45

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