Literature DB >> 20066108

Planar cell polarity signaling: the developing cell's compass.

Eszter K Vladar1, Dragana Antic, Jeffrey D Axelrod.   

Abstract

Cells of many tissues acquire cellular asymmetry to execute their physiologic functions. The planar cell polarity system, first characterized in Drosophila, is important for many of these events. Studies in Drosophila suggest that an upstream system breaks cellular symmetry by converting tissue gradients to subcellular asymmetry, whereas a downstream system amplifies subcellular asymmetry and communicates polarity between cells. In this review, we discuss apparent similarities and differences in the mechanism that controls PCP as it has been adapted to a broad variety of morphological cellular asymmetries in various organisms.

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Year:  2009        PMID: 20066108      PMCID: PMC2773631          DOI: 10.1101/cshperspect.a002964

Source DB:  PubMed          Journal:  Cold Spring Harb Perspect Biol        ISSN: 1943-0264            Impact factor:   10.005


  171 in total

Review 1.  A three-tiered mechanism for regulation of planar cell polarity.

Authors:  David R P Tree; Dali Ma; Jeffrey D Axelrod
Journal:  Semin Cell Dev Biol       Date:  2002-06       Impact factor: 7.727

2.  Developmental compartments and planar polarity in Drosophila.

Authors:  José Casal; Gary Struhl; Peter A Lawrence
Journal:  Curr Biol       Date:  2002-07-23       Impact factor: 10.834

Review 3.  Shaping the vertebrate body plan by polarized embryonic cell movements.

Authors:  Ray Keller
Journal:  Science       Date:  2002-12-06       Impact factor: 47.728

4.  Combinatorial activity of Flamingo proteins directs convergence and extension within the early zebrafish embryo via the planar cell polarity pathway.

Authors:  Caroline J Formstone; Ivor Mason
Journal:  Dev Biol       Date:  2005-06-15       Impact factor: 3.582

5.  Diego and Prickle regulate Frizzled planar cell polarity signalling by competing for Dishevelled binding.

Authors:  Andreas Jenny; Jessica Reynolds-Kenneally; Gishnu Das; Micheal Burnett; Marek Mlodzik
Journal:  Nat Cell Biol       Date:  2005-06-05       Impact factor: 28.824

6.  Neural tube closure requires Dishevelled-dependent convergent extension of the midline.

Authors:  John B Wallingford; Richard M Harland
Journal:  Development       Date:  2002-12       Impact factor: 6.868

7.  Inversin, the gene product mutated in nephronophthisis type II, functions as a molecular switch between Wnt signaling pathways.

Authors:  Matias Simons; Joachim Gloy; Athina Ganner; Axel Bullerkotte; Mikhail Bashkurov; Corinna Krönig; Bernhard Schermer; Thomas Benzing; Olga A Cabello; Andreas Jenny; Marek Mlodzik; Bozena Polok; Wolfgang Driever; Tomoko Obara; Gerd Walz
Journal:  Nat Genet       Date:  2005-04-24       Impact factor: 38.330

8.  Zebrafish trilobite identifies new roles for Strabismus in gastrulation and neuronal movements.

Authors:  Jason R Jessen; Jacek Topczewski; Stephanie Bingham; Diane S Sepich; Florence Marlow; Anand Chandrasekhar; Lilianna Solnica-Krezel
Journal:  Nat Cell Biol       Date:  2002-08       Impact factor: 28.824

9.  Frizzled-3 is required for the development of major fiber tracts in the rostral CNS.

Authors:  Yanshu Wang; Nupur Thekdi; Philip M Smallwood; Jennifer P Macke; Jeremy Nathans
Journal:  J Neurosci       Date:  2002-10-01       Impact factor: 6.167

10.  Essential role of non-canonical Wnt signalling in neural crest migration.

Authors:  Jaime De Calisto; Claudio Araya; Lorena Marchant; Chaudhary F Riaz; Roberto Mayor
Journal:  Development       Date:  2005-04-27       Impact factor: 6.868
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  124 in total

1.  Divergent regulation of Wnt-mediated development of the dorsomedial and ventrolateral dermomyotomal lips.

Authors:  Stefanie Krück; Martin Scaal
Journal:  Histochem Cell Biol       Date:  2012-06-06       Impact factor: 4.304

2.  The seven-pass transmembrane cadherin Flamingo controls dendritic self-avoidance via its binding to a LIM domain protein, Espinas, in Drosophila sensory neurons.

Authors:  Daisuke Matsubara; Shin-Ya Horiuchi; Kohei Shimono; Tadao Usui; Tadashi Uemura
Journal:  Genes Dev       Date:  2011-09-15       Impact factor: 11.361

3.  Mink1 regulates β-catenin-independent Wnt signaling via Prickle phosphorylation.

Authors:  Avais M Daulat; Olivia Luu; Anson Sing; Liang Zhang; Jeffrey L Wrana; Helen McNeill; Rudolf Winklbauer; Stéphane Angers
Journal:  Mol Cell Biol       Date:  2011-10-28       Impact factor: 4.272

Review 4.  Axonemal positioning and orientation in three-dimensional space for primary cilia: what is known, what is assumed, and what needs clarification.

Authors:  Cornelia E Farnum; Norman J Wilsman
Journal:  Dev Dyn       Date:  2011-11       Impact factor: 3.780

5.  Planar cell polarity protein localization in the secretory ameloblasts of rat incisors.

Authors:  Sumio Nishikawa; Tadafumi Kawamoto
Journal:  J Histochem Cytochem       Date:  2012-02-29       Impact factor: 2.479

Review 6.  Cell polarity: The missing link in skeletal morphogenesis?

Authors:  Sarah M Romereim; Andrew T Dudley
Journal:  Organogenesis       Date:  2011-07-01       Impact factor: 2.500

Review 7.  Symmetry breaking in biology.

Authors:  Rong Li; Bruce Bowerman
Journal:  Cold Spring Harb Perspect Biol       Date:  2010-03       Impact factor: 10.005

Review 8.  Wnt-signaling and planar cell polarity genes regulate axon guidance along the anteroposterior axis in C. elegans.

Authors:  Brian D Ackley
Journal:  Dev Neurobiol       Date:  2013-12-31       Impact factor: 3.964

9.  Integration of left-right Pitx2 transcription and Wnt signaling drives asymmetric gut morphogenesis via Daam2.

Authors:  Ian C Welsh; Michael Thomsen; David W Gludish; Catalina Alfonso-Parra; Yan Bai; James F Martin; Natasza A Kurpios
Journal:  Dev Cell       Date:  2013-09-30       Impact factor: 12.270

Review 10.  Planar cell polarity: global inputs establishing cellular asymmetry.

Authors:  Wen Yih Aw; Danelle Devenport
Journal:  Curr Opin Cell Biol       Date:  2016-08-26       Impact factor: 8.382
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