The maternal gene skn-1 encodes a protein that is distributed unequally in early C. elegans embryos

The autonomous or cell-intrinsic developmental properties of early embryonic blastomeres in nematodes are thought to result from the action of maternally provided determinants. After the first cleavage of the C. elegans embryo, only the posterior blastomere, P1, has a cell-intrinsic ability to produce pharyngeal cells. The product of the maternal gene skn-1 is required for P1 to produce pharyngeal cells. We show here that the Skn-1 protein is nuclear localized and that P1 appears to accumulate markedly higher levels of Skn-1 protein than its sister, the AB blastomere. We have examined the distribution of Skn-1 protein in embryos from mothers with maternal-effect mutations in the genes mex-1, par-1, and pie-1. These results suggest that mex-1(+) and par-1(+) activities are required for the unequal distribution of the Skn-1 protein and that pie-1(+) activity may function to regulate the activity of Skn-1 protein in the descendants of the posterior blastomere P1.

[1]  Theodor Boveri Die Entwickelung von Ascaris megalocephala mit besonderer Rücksicht auf die Kernverhältnisse , 1899 .

[2]  E. Schierenberg Cell determination during early embryogenesis of the nematode Caenorhabditis elegans. , 1985, Cold Spring Harbor symposia on quantitative biology.

[3]  R. Taggart,et al.  Stable antibody-producing murine hybridomas. , 1983, Science.

[4]  B. Goldstein Induction of gut in Caenorhabditis elegans embryos , 1992, Nature.

[5]  K. Kemphues,et al.  Mutations in the par genes of Caenorhabditis elegans affect cytoplasmic reorganization during the first cell cycle. , 1990, Developmental biology.

[6]  David M. Miller,et al.  Differential localization of two myosins within nematode thick filaments , 1983, Cell.

[7]  J. N. Thomson,et al.  The pharynx of Caenorhabditis elegans. , 1976, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[8]  J. Kimble,et al.  glp-1 Is required in the germ line for regulation of the decision between mitosis and meiosis in C. elegans , 1987, Cell.

[9]  M. Klass,et al.  Development of the reproductive system of Caenorhabditis elegans. , 1976, Developmental biology.

[10]  W. Wood Evidence from reversal of handedness in C. elegans embryos for early cell interactions determining cell fates , 1991, Nature.

[11]  J. Sambrook,et al.  Molecular Cloning: A Laboratory Manual , 2001 .

[12]  E. Schierenberg Reversal of cellular polarity and early cell-cell interaction in the embryos of Caenorhabditis elegans. , 1987, Developmental biology.

[13]  J. Priess,et al.  Cell interactions involved in development of the bilaterally symmetrical intestinal valve cells during embryogenesis in Caenorhabditis elegans. , 1992, Development.

[14]  J. Sulston,et al.  Post-embryonic cell lineages of the nematode, Caenorhabditis elegans. , 1977, Developmental biology.

[15]  E. Harlow,et al.  Antibodies: A Laboratory Manual , 1988 .

[16]  D. Smith,et al.  Single-step purification of polypeptides expressed in Escherichia coli as fusions with glutathione S-transferase. , 1988, Gene.

[17]  R. Schnabel,et al.  Cellular interactions involved in the determination of the early C. elegans embryo , 1991, Mechanisms of Development.

[18]  A. Berk,et al.  Analysis of adenovirus transforming proteins from early regions 1A and 1B with antisera to inducible fusion antigens produced in Escherichia coli , 1984, Journal of virology.

[19]  R. Davis,et al.  Only site-directed antibodies reactive with the highly conserved src-homologous region of the v-abl protein neutralize kinase activity , 1984, Journal of virology.

[20]  J. McGhee,et al.  Embryonic expression of a gut-specific esterase in Caenorhabditis elegans. , 1986, Developmental biology.

[21]  J. Priess,et al.  Cellular interactions in early C. elegans embryos , 1987, Cell.

[22]  William B. Wood,et al.  Segregation of developmental potential in early embryos of caenorhabditis elegans , 1980, Cell.

[23]  J. Sulston,et al.  The embryonic cell lineage of the nematode Caenorhabditis elegans. , 1983, Developmental biology.

[24]  Harold Weintraub,et al.  The pie-1 and mex-1 genes and maternal control of blastomere identity in early C. elegans embryos , 1992, Cell.

[25]  H. Schnabel,et al.  The glp-1 locus and cellular interactions in early C. elegans embryos , 1987, Cell.

[26]  D. Hirsh,et al.  The postembryonic cell lineages of the hermaphrodite and male gonads in Caenorhabditis elegans. , 1979, Developmental biology.

[27]  E. Davidson Spatial mechanisms of gene regulation in metazoan embryos. , 1991, Development.

[28]  Theodor Boveri Die Potenzen der Ascaris-Blastomeren bei abgeänderter Furchung : Zugleich ein Beitrag zur Frage qualitativ-ungleicher Chremosomen-Teilung , 1910 .

[29]  S. Brenner The genetics of Caenorhabditis elegans. , 1974, Genetics.

[30]  D. Morton,et al.  Identification of genes required for cytoplasmic localization in early C. elegans embryos , 1988, Cell.

[31]  Bruce Bowerman,et al.  skn-1, a maternally expressed gene required to specify the fate of ventral blastomeres in the early C. elegans embryo , 1992, Cell.