Wnt/Frizzled Signaling Controls C. elegans Gastrulation by Activating Actomyosin Contractility
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Bob Goldstein | Jeff Hardin | Ari Halberstadt | Timothy Walston | Jen-Yi Lee | J. Hardin | B. Goldstein | Jen-Yi Lee | Daniel J. Marston | A. Halberstadt | Timothy D Walston | D. Marston
[1] L. Luo,et al. Drosophila Rho-Associated Kinase (Drok) Links Frizzled-Mediated Planar Cell Polarity Signaling to the Actin Cytoskeleton , 2001, Cell.
[2] J. Priess,et al. C. elegans MOM-5/Frizzled Functions in MOM-2/Wnt-Independent Cell Polarity and Is Localized Asymmetrically prior to Cell Division , 2004, Current Biology.
[3] J. Priess,et al. The role of actin filaments in patterning the Caenorhabditis elegans cuticle. , 1997, Developmental biology.
[4] P. Mains,et al. Rho-binding kinase (LET-502) and myosin phosphatase (MEL-11) regulate cytokinesis in the early Caenorhabditis elegans embryo. , 2002, Journal of cell science.
[5] E. Wieschaus,et al. Cell and developmental biology--a shared past, an intertwined future. , 2001, Developmental cell.
[6] Eric Wieschaus,et al. FROM MOLECULAR PATTERNS TO MORPHOGENESIS THE LESSONS FROM DROSOPHILA , 1997 .
[7] Bob Goldstein,et al. Gastrulation in C. elegans. , 2005, WormBook : the online review of C. elegans biology.
[8] E. Wieschaus,et al. The segment polarity gene armadillo interacts with the wingless signaling pathway in both embryonic and adult pattern formation. , 1991, Development.
[9] J. Wallingford,et al. Neural tube closure requires Dishevelled-dependent convergent extension of the midline , 2002, Development.
[10] David Strutt,et al. Frizzled signalling and cell polarisation in Drosophila and vertebrates , 2003, Development.
[11] Scott E. Fraser,et al. Dishevelled controls cell polarity during Xenopus gastrulation , 2000, Nature.
[12] K. Kemphues,et al. PARsing Embryonic Polarity , 2000, Cell.
[13] R. Kamath,et al. Genome-wide RNAi screening in Caenorhabditis elegans. , 2003, Methods.
[14] A. Fire,et al. Specific interference by ingested dsRNA , 1998, Nature.
[15] B. Goldstein. Establishment of gut fate in the E lineage of C. elegans: the roles of lineage-dependent mechanisms and cell interactions. , 1993, Development.
[16] Ray Keller,et al. Shaping the Vertebrate Body Plan by Polarized Embryonic Cell Movements , 2002, Science.
[17] Bob Goldstein,et al. Mechanisms of cell positioning during C. elegans gastrulation , 2003, Development.
[18] Philippe Soriano,et al. Shroom, a PDZ Domain–Containing Actin-Binding Protein, Is Required for Neural Tube Morphogenesis in Mice , 1999, Cell.
[19] B. Zuckerman,et al. 8 – Biochemical Genetics of Caenorhabditis elegans , 1980 .
[20] P. Lawrence,et al. Towards a model of the organisation of planar polarity and pattern in the Drosophila abdomen. , 2002, Development.
[21] Robert Geisler,et al. Silberblick/Wnt11 mediates convergent extension movements during zebrafish gastrulation , 2000, Nature.
[22] Hilla Peretz,et al. Ju n 20 03 Schrödinger ’ s Cat : The rules of engagement , 2003 .
[23] W. Wood,et al. Gastrulation initiation in Caenorhabditis elegans requires the function of gad-1, which encodes a protein with WD repeats. , 1998, Developmental biology.
[24] Xi He,et al. Coactivation of Rac and Rho by Wnt/Frizzled signaling is required for vertebrate gastrulation. , 2003, Genes & development.
[25] J. Priess,et al. C. elegans PAR-3 and PAR-6 are required for apicobasal asymmetries associated with cell adhesion and gastrulation , 2003, Development.
[26] A. Somlyo,et al. Ca2+ sensitivity of smooth muscle and nonmuscle myosin II: modulated by G proteins, kinases, and myosin phosphatase. , 2003, Physiological reviews.
[27] Scott E. Fraser,et al. Planar cell polarity signalling controls cell division orientation during zebrafish gastrulation , 2004, Nature.
[28] J. McGhee,et al. DNA synthesis and the control of embryonic gene expression in C. elegans , 1988, Cell.
[29] M. Herman,et al. Noncanonical Wnt signaling pathways in C. elegans converge on POP-1/TCF and control cell polarity. , 2004, Frontiers in bioscience : a journal and virtual library.
[30] W. Wood,et al. Multiple Wnt signaling pathways converge to orient the mitotic spindle in early C. elegans embryos. , 2004, Developmental cell.
[31] Wouter Houthoofd,et al. The embryonic cell lineage of the nematode Halicephalobus gingivalis (Nematoda: Cephalobina: Panagrolaimoidea) , 2007 .
[32] E. Vincan. Frizzled/WNT signalling: the insidious promoter of tumour growth and progression. , 2004, Frontiers in bioscience : a journal and virtual library.
[33] A. Wodarz. Establishing cell polarity in development , 2002, Nature Cell Biology.
[34] M. Labouesse. [Caenorhabditis elegans]. , 2003, Medecine sciences : M/S.
[35] F. Marlow,et al. Zebrafish Rho Kinase 2 Acts Downstream of Wnt11 to Mediate Cell Polarity and Effective Convergence and Extension Movements , 2002, Current Biology.
[36] Christopher J. Thorpe,et al. MAP kinase and Wnt pathways converge to downregulate an HMG-domain repressor in Caenorhabditis elegans , 1999, Nature.
[37] 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.
[38] Hans Clevers,et al. Signaling pathways in intestinal development and cancer. , 2004, Annual review of cell and developmental biology.
[39] J. Hildebrand,et al. Shroom regulates epithelial cell shape via the apical positioning of an actomyosin network , 2005, Journal of Cell Science.
[40] J. Labbé,et al. Using RNA interference to identify genes required for RNA interference , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[41] Yoichi Kato,et al. Wnt/Frizzled Activation of Rho Regulates Vertebrate Gastrulation and Requires a Novel Formin Homology Protein Daam1 , 2001, Cell.
[42] J. Priess,et al. Cell polarity and gastrulation in C. elegans. , 2002, Development.
[43] A. Schetter,et al. Polarization of the C. elegans zygote proceeds via distinct establishment and maintenance phases , 2003, Development.
[44] Eric F. Wieschaus,et al. folded gastrulation, cell shape change and the control of myosin localization , 2005, Development.
[45] J. McGhee,et al. The GATA-factor elt-2 is essential for formation of the Caenorhabditis elegans intestine. , 1998, Developmental biology.
[46] Morris F. Maduro,et al. Genetic redundancy in endoderm specification within the genus Caenorhabditis. , 2005, Developmental biology.
[47] J. Wallingford,et al. Shroom Induces Apical Constriction and Is Required for Hingepoint Formation during Neural Tube Closure , 2003, Current Biology.
[48] J. Axelrod,et al. Coupling Planar Cell Polarity Signaling to Morphogenesis , 2002, TheScientificWorldJournal.
[49] M. Peifer,et al. The canonical Wg and JNK signaling cascades collaborate to promote both dorsal closure and ventral patterning. , 2000, Development.
[50] E. Wieschaus,et al. Autonomous requirements for the segment polarity gene armadillo during Drosophila embryogenesis , 1987, Cell.
[51] Bruce Bowerman,et al. Wnt Signaling Polarizes an Early C. elegans Blastomere to Distinguish Endoderm from Mesoderm , 1997, Cell.
[52] Eric Wieschaus,et al. A putative cell signal encoded by the folded gastrulation gene coordinates cell shape changes during Drosophila gastrulation , 1994, Cell.
[53] Biochemical genetics of Coenorhabditis elegans , 1974, Molecular and General Genetics MGG.
[54] J. Wallingford,et al. The developmental biology of Dishevelled: an enigmatic protein governing cell fate and cell polarity , 2005, Development.
[55] B. Goldstein. Induction of gut in Caenorhabditis elegans embryos , 1992, Nature.
[56] R. Nusse,et al. The Wnt signaling pathway in development and disease. , 2004, Annual review of cell and developmental biology.
[57] J. Priess,et al. Cortical flows powered by asymmetrical contraction transport PAR proteins to establish and maintain anterior-posterior polarity in the early C. elegans embryo. , 2004, Developmental cell.
[58] S. Mango,et al. CYK-4/GAP Provides a Localized Cue to Initiate Anteroposterior Polarity upon Fertilization , 2006, Science.
[59] R. J. Hill,et al. end-1 encodes an apparent GATA factor that specifies the endoderm precursor in Caenorhabditis elegans embryos. , 1997, Genes & development.
[60] Y. Nishida,et al. Drosophila myosin phosphatase and its role in dorsal closure. , 2002, Development.
[61] C. Turck,et al. Drosophila RhoGEF2 Associates with Microtubule Plus Ends in an EB1-Dependent Manner , 2004, Current Biology.
[62] C. Mello,et al. Wnt Signaling and an APC-Related Gene Specify Endoderm in Early C. elegans Embryos , 1997, Cell.
[63] William B. Wood,et al. Segregation of developmental potential in early embryos of caenorhabditis elegans , 1980, Cell.
[64] J. Sulston,et al. The embryonic cell lineage of the nematode Caenorhabditis elegans. , 1983, Developmental biology.
[65] Morris F. Maduro,et al. Making worm guts: the gene regulatory network of the Caenorhabditis elegans endoderm. , 2002, Developmental biology.
[66] B. Bowerman,et al. Wnt signalling in Caenorhabditis elegans: regulating repressors and polarizing the cytoskeleton. , 2000, Trends in cell biology.