Abstract

The long range goal of this project is to understand the molecular and cellular mechanisms by which the C. elegans embryo is patterned and the body plan is elaborated under the control of embryonically expressed (zygotic) genes, after maternal gene products have specified early blastomere fates. During the past project period, we have identified and begun to analyze the functions of several genes encoding transcription factors that appear to be important high-level regulators of zygotic posterior patterning control, including the caudal homolog pal-i, two newly discovered Hox posterior-group (AbdB/Hox9-13) homologs, nob-] and php-3, at least one of which we have shown to be essential for embryonic viability, and the homothorax/Meis homolog, unc-62, which we have also shown to be essential. We are now in a position to approach two major unanswered questions of C. elegans embryogenesis: First, how do the maternally expressed genes that dictate earlier cleavage-stage blastomere determination regulate the transition, around the time of gastrulation onset, to zygotically controlled elaboration of the body plan under control of genes like those above? Second, to what extent is later patterning controlled by the lineal programming, characteristic of several aspects of C. elegans development, as opposed to the regional specification of cell fates that is seen in more complex embryos with larger numbers of cells? Our work will also shed light on an evolutionary question: the extent to which the basic functions of these patterning genes are conserved between the cellular embryo of C. elegans and the initially syncytial embryo of Drosophila, where their mechanisms are presently better understood. Our five specific aims for the coming project period will focus on 1) understanding the functions of the posterior group Hox genes nob-I and php-3, 2) determining how these two genes and pal-I, the caudal homolog, are regulated by maternal and other zygotic genes, 3) clarifying the function and regulation of unc-62, the homothorax/Meis ortholog and a likely Hox protein cofactor, 4) characterizing the interactions of these gene products with each other and with other proteins, and 5) identifying downstream regulatory targets of these genes.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
5R01HD014958-22
Application #
6476683
Study Section
Cell Development and Function Integrated Review Group (CDF)
Program Officer
Klein, Steven
Project Start
1980-12-01
Project End
2005-11-30
Budget Start
2001-12-01
Budget End
2002-11-30
Support Year
22
Fiscal Year
2002
Total Cost
$329,787
Indirect Cost

  Institution

Name
University of Colorado at Boulder
Department
Biochemistry
Type
Schools of Arts and Sciences
DUNS #
City
Boulder
State
CO
Country
United States
Zip Code
80309

  Publications

Walston, Timothy; Tuskey, Christina; Edgar, Lois et al. (2004) Multiple Wnt signaling pathways converge to orient the mitotic spindle in early C. elegans embryos. Dev Cell 7:831-41
Bergmann, Dominique C; Lee, Monica; Robertson, Barbara et al. (2003) Embryonic handedness choice in C. elegans involves the Galpha protein GPA-16. Development 130:5731-40
Stoyanov, Charles-Nicolas; Fleischmann, Martin; Suzuki, Yo et al. (2003) Expression of the C. elegans labial orthologue ceh-13 during male tail morphogenesis. Dev Biol 259:137-49
Suzuki, Yo; Morris, Gail A; Han, Min et al. (2002) A cuticle collagen encoded by the lon-3 gene may be a target of TGF-beta signaling in determining Caenorhabditis elegans body shape. Genetics 162:1631-9
Van Auken, Kimberly; Weaver, Daniel; Robertson, Barbara et al. (2002) Roles of the Homothorax/Meis/Prep homolog UNC-62 and the Exd/Pbx homologs CEH-20 and CEH-40 in C. elegans embryogenesis. Development 129:5255-68
Van Auken, K; Weaver, D C; Edgar, L G et al. (2000) Caenorhabditis elegans embryonic axial patterning requires two recently discovered posterior-group Hox genes. Proc Natl Acad Sci U S A 97:4499-503
Fay, D S; Stanley, H M; Han, M et al. (1999) A Caenorhabditis elegans homologue of hunchback is required for late stages of development but not early embryonic patterning. Dev Biol 205:240-53
Pettitt, J; Wood, W B; Plasterk, R H (1996) cdh-3, a gene encoding a member of the cadherin superfamily, functions in epithelial cell morphogenesis in Caenorhabditis elegans. Development 122:4149-57
Storfer-Glazer, F A; Wood, W B (1994) Effects of chromosomal deficiencies on early cleavage patterning and terminal phenotype in Caenorhabditis elegans embryos. Genetics 137:499-508
Schedin, P; Jonas, P; Wood, W B (1994) Function of the her-1 gene is required for maintenance of male differentiation in adult tissues of C. elegans. Dev Genet 15:231-9

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