scholarly article | Q13442814 |
P50 | author | Chih-Wen Chu | Q59696574 |
P2093 | author name string | Sergei Y Sokol | |
Olga Ossipova | |||
Keiji Itoh | |||
Barbara K Brott | |||
Jonathan Fillatre | |||
P2860 | cites work | A two-step mechanism generates the spacing pattern of the ciliated cells in the skin of Xenopus embryos | Q47921580 |
A novel function for KIF13B in germ cell migration | Q51896981 | ||
A vertebrate homolog of the cell cycle regulator Dbf4 is an inhibitor of Wnt signaling required for heart development. | Q52050910 | ||
Analysis of Dishevelled signalling pathways during Xenopus development. | Q52199252 | ||
The planar cell polarity protein Strabismus promotes Pins anterior localization during asymmetric division of sensory organ precursor cells in Drosophila. | Q52642518 | ||
Zebrafish Dynamin is required for maintenance of enveloping layer integrity and the progression of epiboly. | Q52644682 | ||
Molecular dissection of Drosophila Prickle isoforms distinguishes their essential and overlapping roles in planar cell polarity. | Q52695300 | ||
The cellular basis of epiboly: an SEM study of deep-cell rearrangement during gastrulation in Xenopus laevis | Q71007784 | ||
A role for Wnts in morpho-genesis and tissue polarity | Q73949979 | ||
A novel serotonin-secreting cell type regulates ciliary motility in the mucociliary epidermis of Xenopus tadpoles | Q87405317 | ||
Rab11 endosomes contribute to mitotic spindle organization and orientation | Q24338107 | ||
The planar polarity gene strabismus regulates convergent extension movements in Xenopus | Q24536211 | ||
Spatial and temporal aspects of Wnt signaling and planar cell polarity during vertebrate embryonic development | Q26850691 | ||
Regulation of cell polarity, radial intercalation and epiboly in Xenopus: novel roles for integrin and fibronectin | Q28188349 | ||
Convergent extension: the molecular control of polarized cell movement during embryonic development | Q28204202 | ||
Strabismus is asymmetrically localised and binds to Prickle and Dishevelled during Drosophila planar polarity patterning | Q28205096 | ||
Cell movements during epiboly and gastrulation in zebrafish | Q28294886 | ||
Mutations in half baked/E-cadherin block cell behaviors that are necessary for teleost epiboly | Q28305628 | ||
Making a tubule the noncanonical way | Q28312156 | ||
The PCP genes Celsr1 and Vangl2 are required for normal lung branching morphogenesis | Q28504703 | ||
Dishevelled 2 is essential for cardiac outflow tract development, somite segmentation and neural tube closure | Q28507430 | ||
Interaction of dishevelled and Xenopus axin-related protein is required for wnt signal transduction | Q28509243 | ||
Wnt5a is essential for intestinal elongation in mice | Q28584757 | ||
The planar cell polarity gene Vangl2 is required for mammalian kidney-branching morphogenesis and glomerular maturation | Q28586682 | ||
A secretory cell type develops alongside multiciliated cells, ionocytes and goblet cells, and provides a protective, anti-infective function in the frog embryonic mucociliary epidermis | Q28657650 | ||
Planar cell polarity signaling: from fly development to human disease | Q28749129 | ||
Dishevelled controls cell polarity during Xenopus gastrulation | Q29619295 | ||
Silberblick/Wnt11 mediates convergent extension movements during zebrafish gastrulation | Q29619296 | ||
Appendix G: In Situ Hybridization: An Improved Whole-Mount Method for Xenopus Embryos | Q29620084 | ||
Neural tube closure in Xenopus laevis involves medial migration, directed protrusive activity, cell intercalation and convergent extension. | Q30304294 | ||
Monopolar protrusive activity: a new morphogenic cell behavior in the neural plate dependent on vertical interactions with the mesoderm in Xenopus | Q30305854 | ||
The planar cell polarity gene strabismus regulates convergence and extension and neural fold closure in Xenopus | Q30309547 | ||
Shaping the vertebrate body plan by polarized embryonic cell movements | Q30310311 | ||
The frizzled/stan pathway and planar cell polarity in the Drosophila wing | Q30422383 | ||
Planar cell polarity signalling couples cell division and morphogenesis during neurulation. | Q30477078 | ||
Zebrafish trilobite identifies new roles for Strabismus in gastrulation and neuronal movements. | Q30481137 | ||
Dishevelled controls apical docking and planar polarization of basal bodies in ciliated epithelial cells | Q30491381 | ||
Ovo1 links Wnt signaling with N-cadherin localization during neural crest migration | Q30494662 | ||
Planar cell polarity breaks bilateral symmetry by controlling ciliary positioning | Q30499162 | ||
Planar cell polarity and the developmental control of cell behavior in vertebrate embryos | Q38035934 | ||
Asymmetric protein localization in planar cell polarity: mechanisms, puzzles, and challenges. | Q38058902 | ||
Shaping the nervous system: role of the core planar cell polarity genes. | Q38120492 | ||
Multiciliated cells | Q38257788 | ||
Rab11 regulates planar polarity and migratory behavior of multiciliated cells in Xenopus embryonic epidermis. | Q38323705 | ||
Prickle 1 regulates cell movements during gastrulation and neuronal migration in zebrafish | Q38352359 | ||
The planar cell-polarity gene stbm regulates cell behaviour and cell fate in vertebrate embryos. | Q38523609 | ||
Exosomes mediate stromal mobilization of autocrine Wnt-PCP signaling in breast cancer cell migration. | Q39222362 | ||
Regulation of basal body and ciliary functions by Diversin | Q39344703 | ||
The prickle-related gene in vertebrates is essential for gastrulation cell movements | Q39750801 | ||
PAR-1 phosphorylates Mind bomb to promote vertebrate neurogenesis. | Q39811653 | ||
A role for planar cell polarity signaling in angiogenesis. | Q39938975 | ||
Active Rab11 and functional recycling endosome are required for E-cadherin trafficking and lumen formation during epithelial morphogenesis | Q39968162 | ||
Pou5f1-dependent EGF expression controls E-cadherin endocytosis, cell adhesion, and zebrafish epiboly movements. | Q41087830 | ||
Microtubules enable the planar cell polarity of airway cilia. | Q41825907 | ||
Interplay of cell shape and division orientation promotes robust morphogenesis of developing epithelia | Q41850494 | ||
The PCP pathway instructs the planar orientation of ciliated cells in the Xenopus larval skin | Q42113899 | ||
The microtubule-associated Rho activating factor GEF-H1 interacts with exocyst complex to regulate vesicle traffic | Q42282426 | ||
Planar polarization of node cells determines the rotational axis of node cilia. | Q42466284 | ||
Regulation of Lethal giant larvae by Dishevelled | Q42485810 | ||
Ciliogenesis defects in embryos lacking inturned or fuzzy function are associated with failure of planar cell polarity and Hedgehog signaling | Q42491186 | ||
Radial intercalation of ciliated cells during Xenopus skin development | Q42496019 | ||
Centrosomal localization of Diversin and its relevance to Wnt signaling | Q42579266 | ||
The Frizzled-dependent planar polarity pathway locally promotes E-cadherin turnover via recruitment of RhoGEF2. | Q43239224 | ||
Cloning and expression of Xenopus Prickle, an orthologue of a Drosophila planar cell polarity gene. | Q45935499 | ||
The epithelium of the dorsal marginal zone of Xenopus has organizer properties | Q45992012 | ||
Planar cell polarity signalling controls cell division orientation during zebrafish gastrulation | Q46041904 | ||
Early neurogenesis in Xenopus: the spatio-temporal pattern of proliferation and cell lineages in the embryonic spinal cord | Q46228698 | ||
Reorganization of actin cytoskeleton by FRIED, a Frizzled-8 associated protein tyrosine phosphatase | Q46639710 | ||
Patterned gene expression directs bipolar planar polarity in Drosophila | Q47071305 | ||
Polarized transport of Frizzled along the planar microtubule arrays in Drosophila wing epithelium. | Q47071333 | ||
Vangl2 directs the posterior tilting and asymmetric localization of motile primary cilia. | Q47073501 | ||
Combinatorial activity of Flamingo proteins directs convergence and extension within the early zebrafish embryo via the planar cell polarity pathway | Q47073560 | ||
N-cadherin is required for the polarized cell behaviors that drive neurulation in the zebrafish | Q47073566 | ||
Molecular anatomy of placode development in Xenopus laevis | Q47273875 | ||
Mitotic internalization of planar cell polarity proteins preserves tissue polarity | Q30503213 | ||
GEF-H1 functions in apical constriction and cell intercalations and is essential for vertebrate neural tube closure | Q30579259 | ||
Radial intercalation is regulated by the Par complex and the microtubule-stabilizing protein CLAMP/Spef1. | Q30585891 | ||
Role of Rab11 in planar cell polarity and apical constriction during vertebrate neural tube closure | Q33897855 | ||
Xwnt11 is a target of Xenopus Brachyury: regulation of gastrulation movements via Dishevelled, but not through the canonical Wnt pathway. | Q33898502 | ||
Microtubules provide directional information for core PCP function | Q34116999 | ||
Involvement of p114-RhoGEF and Lfc in Wnt-3a- and dishevelled-induced RhoA activation and neurite retraction in N1E-115 mouse neuroblastoma cells | Q34194638 | ||
PCP and septins compartmentalize cortical actomyosin to direct collective cell movement | Q34205548 | ||
Dvl2-dependent activation of Daam1 and RhoA regulates Wnt5a-induced breast cancer cell migration | Q34289087 | ||
The Fz-Dsh planar cell polarity pathway induces oriented cell division via Mud/NuMA in Drosophila and zebrafish | Q34433582 | ||
Transport of PIP3 by GAKIN, a kinesin-3 family protein, regulates neuronal cell polarity | Q34550654 | ||
Embryonic frog epidermis: a model for the study of cell-cell interactions in the development of mucociliary disease | Q34611744 | ||
Wnt signaling gradients establish planar cell polarity by inducing Vangl2 phosphorylation through Ror2 | Q34706774 | ||
Vangl2 cooperates with Rab11 and Myosin V to regulate apical constriction during vertebrate gastrulation | Q34985211 | ||
Pronephric tubulogenesis requires Daam1-mediated planar cell polarity signaling | Q35210200 | ||
Planar polarization of Vangl2 in the vertebrate neural plate is controlled by Wnt and Myosin II signaling | Q35741800 | ||
Spindle position in symmetric cell divisions during epiboly is controlled by opposing and dynamic apicobasal forces | Q35903531 | ||
Cell intercalation from top to bottom | Q35998167 | ||
Prickle and Strabismus form a functional complex to generate a correct axis during planar cell polarity signaling | Q36065784 | ||
A protein complex of SCRIB, NOS1AP and VANGL1 regulates cell polarity and migration, and is associated with breast cancer progression. | Q36166916 | ||
The mouse Wnt/PCP protein Vangl2 is necessary for migration of facial branchiomotor neurons, and functions independently of Dishevelled | Q36359357 | ||
Cooperation of polarized cell intercalations drives convergence and extension of presomitic mesoderm during zebrafish gastrulation | Q36404910 | ||
Cofilin and Vangl2 cooperate in the initiation of planar cell polarity in the mouse embryo | Q36648639 | ||
Tissue/planar cell polarity in vertebrates: new insights and new questions | Q36720615 | ||
Planar polarity and tissue morphogenesis | Q36851258 | ||
Chapter 5 Early Embryonic Development of Xenopus laevis | Q37040707 | ||
Flamingo regulates epiboly and convergence/extension movements through cell cohesive and signalling functions during zebrafish gastrulation | Q37205134 | ||
Strabismus regulates asymmetric cell divisions and cell fate determination in the mouse brain | Q37237888 | ||
Mouse prickle1, the homolog of a PCP gene, is essential for epiblast apical-basal polarity | Q37321035 | ||
Planar cell polarity signaling: the developing cell's compass. | Q37412656 | ||
Strange as it may seem: the many links between Wnt signaling, planar cell polarity, and cilia | Q37834841 | ||
Mitotic spindle orientation in asymmetric and symmetric cell divisions during animal development | Q37901788 | ||
Planar cell polarity: coordinating morphogenetic cell behaviors with embryonic polarity | Q37901789 | ||
Gastrulation: making and shaping germ layers | Q38026928 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P1104 | number of pages | 12 | |
P304 | page(s) | 316-327 | |
P577 | publication date | 2015-06-14 | |
P1433 | published in | Developmental Biology | Q3025402 |
P1476 | title | The involvement of PCP proteins in radial cell intercalations during Xenopus embryonic development | |
P478 | volume | 408 |
Q64052248 | A deficiency in SUMOylation activity disrupts multiple pathways leading to neural tube and heart defects in Xenopus embryos |
Q47857643 | Cell migration, intercalation and growth regulate mammalian cochlear extension |
Q92763622 | Desmoplakin is required for epidermal integrity and morphogenesis in the Xenopus laevis embryo |
Q39910767 | Epiboly generates the epidermal basal monolayer and spreads the nascent mammalian skin to enclose the embryonic body. |
Q55240564 | Large, long range tensile forces drive convergence during Xenopus blastopore closure and body axis elongation. |
Q58693974 | Par3 interacts with Prickle3 to generate apical PCP complexes in the vertebrate neural plate |
Q39092602 | Planar cell polarity in moving cells: think globally, act locally |
Q36785209 | Prickle3 synergizes with Wtip to regulate basal body organization and cilia growth. |
Q52577620 | Regulation of neural crest development by the formin family protein Daam1. |
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Q92116064 | TRPM6 and TRPM7: Novel Players in Cell Intercalation During Vertebrate Embryonic Development |
Q52584738 | The Ajuba LIM protein Wtip regulates actomyosin contractility during vertebrate neural tube closure. |
Q39092234 | Using Xenopus to understand human disease and developmental disorders |
Q91972811 | Vangl2 coordinates cell rearrangements during gut elongation |
Q51733362 | Vangl2 disruption alters the biomechanics of late spinal neurulation leading to spina bifida in mouse embryos. |
Q37321620 | Wnt proteins can direct planar cell polarity in vertebrate ectoderm. |
Q47989507 | hmmr mediates anterior neural tube closure and morphogenesis in the frog Xenopus |
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