scholarly article | Q13442814 |
P2093 | author name string | Toby W Hurd | |
Ben Margolis | |||
Marc A Schlüter | |||
Chia-Jen Liu | |||
Eileen L Whiteman | |||
Shuling Fan | |||
Catherine S Pfarr | |||
Jay Pieczynski | |||
P2860 | cites work | The Maguk protein, Pals1, functions as an adapter, linking mammalian homologues of Crumbs and Discs Lost | Q24293049 |
Direct interaction of two polarity complexes implicated in epithelial tight junction assembly | Q24293221 | ||
aPKC acts upstream of PAR-1b in both the establishment and maintenance of mammalian epithelial polarity | Q24301746 | ||
Rab13 regulates membrane trafficking between TGN and recycling endosomes in polarized epithelial cells. | Q24311520 | ||
CRB3 binds directly to Par6 and regulates the morphogenesis of the tight junctions in mammalian epithelial cells | Q24632780 | ||
Gp135/podocalyxin and NHERF-2 participate in the formation of a preapical domain during polarization of MDCK cells | Q24678887 | ||
A novel Crumbs3 isoform regulates cell division and ciliogenesis via importin beta interactions | Q24682354 | ||
Genomic structure of murine Rab11 family members | Q28138053 | ||
Regulation of vesicle trafficking in madin-darby canine kidney cells by Rab11a and Rab25 | Q28139263 | ||
Regulation of tight junctions during the epithelium-mesenchyme transition: direct repression of the gene expression of claudins/occludin by Snail | Q28187811 | ||
Mammalian Crumbs3 is a small transmembrane protein linked to protein associated with Lin-7 (Pals1) | Q28202982 | ||
The Crumbs3-Pals1 complex participates in the establishment of polarity in mammalian epithelial cells | Q28207209 | ||
Snail activation disrupts tissue homeostasis and induces fibrosis in the adult kidney | Q28505069 | ||
Complex networks orchestrate epithelial-mesenchymal transitions | Q29547478 | ||
Cdc42 controls spindle orientation to position the apical surface during epithelial morphogenesis | Q30484554 | ||
Rab11-FIP3 localises to a Rab11-positive pericentrosomal compartment during interphase and to the cleavage furrow during cytokinesis | Q34322478 | ||
Multiple regions of Crumbs3 are required for tight junction formation in MCF10A cells | Q34428716 | ||
Opinion: Building epithelial architecture: insights from three-dimensional culture models | Q34718096 | ||
Tube morphogenesis: making and shaping biological tubes | Q35044542 | ||
Differential involvement of endocytic compartments in the biosynthetic traffic of apical proteins | Q35950439 | ||
Modulation of the expression of an apical plasma membrane protein of Madin-Darby canine kidney epithelial cells: cell-cell interactions control the appearance of a novel intracellular storage compartment | Q36216068 | ||
PATJ regulates tight junction formation and polarity in mammalian epithelial cells | Q36321518 | ||
Recycling endosomes | Q36458944 | ||
Tight junctions and cell polarity. | Q36505527 | ||
The transcription factor snail represses Crumbs3 expression and disrupts apico-basal polarity complexes | Q36871543 | ||
Apical junctional complexes and cell polarity | Q36959860 | ||
Regulation of cell polarity during epithelial morphogenesis | Q37087765 | ||
Loss of PALS1 expression leads to tight junction and polarity defects. | Q37221191 | ||
Apical lumen formation in renal epithelia | Q37508510 | ||
Cell-polarity dynamics controls the mechanism of lumen formation in epithelial morphogenesis | Q38740399 | ||
Depletion of apical transport proteins perturbs epithelial cyst formation and ciliogenesis | Q40001095 | ||
PTEN-mediated apical segregation of phosphoinositides controls epithelial morphogenesis through Cdc42. | Q40178894 | ||
The transcription factors Slug and Snail act as repressors of Claudin-1 expression in epithelial cells. | Q40360748 | ||
Molecular identification of canine podocalyxin-like protein 1 as a renal tubulogenic regulator. | Q40437903 | ||
Dynamics of the apical plasma membrane recycling system during cell division | Q40637597 | ||
ROCK-mediated contractility, tight junctions and channels contribute to the conversion of a preapical patch into apical surface during isochoric lumen initiation. | Q42443632 | ||
oko meduzy and related crumbs genes are determinants of apical cell features in the vertebrate embryo. | Q42495698 | ||
A polarity complex of mPar-6 and atypical PKC binds, phosphorylates and regulates mammalian Lgl. | Q44357555 | ||
Phosphorylation-dependent binding of 14-3-3 to the polarity protein Par3 regulates cell polarity in mammalian epithelia. | Q44678858 | ||
Drosophila PAR-1 and 14-3-3 inhibit Bazooka/PAR-3 to establish complementary cortical domains in polarized cells | Q44693355 | ||
Atypical PKC phosphorylates PAR-1 kinases to regulate localization and activity | Q44844574 | ||
Role of Crumbs proteins in the control of epithelial cell and photoreceptor morphogenesis | Q45030749 | ||
The Rab8 GTPase regulates apical protein localization in intestinal cells | Q47068868 | ||
A mirror-symmetric cell division that orchestrates neuroepithelial morphogenesis. | Q47073150 | ||
Interaction between PAR-3 and the aPKC-PAR-6 complex is indispensable for apical domain development of epithelial cells | Q47921771 | ||
Expression of crumbs confers apical character on plasma membrane domains of ectodermal epithelia of Drosophila. | Q52537316 | ||
P433 | issue | 22 | |
P304 | page(s) | 4652-4663 | |
P577 | publication date | 2009-09-23 | |
P1433 | published in | Molecular Biology of the Cell | Q2338259 |
P1476 | title | Trafficking of Crumbs3 during cytokinesis is crucial for lumen formation | |
P478 | volume | 20 |
Q58173395 | A Cancer-Associated Mutation in Atypical Protein Kinase C Occurs in a Substrate-Specific Recruitment Motif |
Q35547579 | A Cre-inducible fluorescent reporter for observing apical membrane dynamics. |
Q38744723 | A holey pursuit: lumen formation in the developing kidney |
Q42116509 | A molecular network for de novo generation of the apical surface and lumen |
Q42872305 | A new role for Rab GTPases during early mitotic stages |
Q42578351 | A novel role for retromer in the control of epithelial cell polarity |
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Q42514276 | Afadin orients cell division to position the tubule lumen in developing renal tubules |
Q36981654 | An integrin-ILK-microtubule network orients cell polarity and lumen formation in glandular epithelium |
Q35195321 | Apical protein transport and lumen morphogenesis in polarized epithelial cells |
Q91734307 | Aurora B functions at the apical surface after specialized cytokinesis during morphogenesis in C. elegans |
Q41851578 | Basolateral EGF receptor sorting regulated by functionally distinct mechanisms in renal epithelial cells |
Q36033411 | CRB3A Controls the Morphology and Cohesion of Cancer Cells through Ehm2/p114RhoGEF-Dependent Signaling |
Q43116437 | Cancer driver candidate genes AVL9, DENND5A and NUPL1 contribute to MDCK cystogenesis. |
Q36462450 | Carcinoma cells induce lumen filling and EMT in epithelial cells through soluble E-cadherin-mediated activation of EGFR. |
Q38240104 | Cargo sorting in the endocytic pathway: a key regulator of cell polarity and tissue dynamics |
Q36241082 | Cell confinement controls centrosome positioning and lumen initiation during epithelial morphogenesis. |
Q93351886 | Cell polarization: From epithelial cells to odontoblasts |
Q39540534 | Coordination of signaling and tissue mechanics during morphogenesis of murine intestinal villi: a role for mitotic cell rounding |
Q36812023 | Creation of trophectoderm, the first epithelium, in mouse preimplantation development |
Q37546005 | Crumbs3 is essential for proper epithelial development and viability |
Q30579254 | Cytokinesis defines a spatial landmark for hepatocyte polarization and apical lumen formation. |
Q30854449 | Cytokinesis involves a nontranscriptional function of the Hippo pathway effector YAP. |
Q35041609 | Distinct roles of cadherin-6 and E-cadherin in tubulogenesis and lumen formation |
Q90470410 | Early Hereditary Diffuse Gastric Cancer (eHDGC) is Characterized by Subtle Genomic Instability and Active DNA Damage Response |
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Q26825041 | Epithelial polarity--generating and integrating signals from the ECM with integrins |
Q33667754 | Establishment of a neuroepithelial barrier by Claudin5a is essential for zebrafish brain ventricular lumen expansion. |
Q88688776 | Insane in the apical membrane: Trafficking events mediating apicobasal epithelial polarity during tube morphogenesis |
Q35276859 | Interaction between FIP5 and SNX18 regulates epithelial lumen formation |
Q41223012 | Keep it on the edge: The post-mitotic midbody as a polarity signal unit. |
Q39690668 | Kinesin-2 mediates apical endosome transport during epithelial lumen formation. |
Q36379721 | Lumen Formation Is an Intrinsic Property of Isolated Human Pluripotent Stem Cells |
Q37843809 | Mechanisms of cell polarity and aquaporin sorting in the nephron |
Q64971000 | Mechanistic Insights into Colorectal Cancer Phenomics from Fundamental and Organotypic Model Studies. |
Q27015885 | Membrane trafficking in podocyte health and disease |
Q39164302 | Microtubule Motors in Establishment of Epithelial Cell Polarity |
Q30532232 | Mirror-symmetric microtubule assembly and cell interactions drive lumen formation in the zebrafish neural rod. |
Q37837188 | Molecular regulation of lumen morphogenesis. |
Q36343832 | Mouse Crumbs3 sustains epithelial tissue morphogenesis in vivo |
Q30513859 | Myosin-X functions in polarized epithelial cells |
Q49843515 | New dimensions of asymmetric division in vertebrates |
Q27015094 | Normal morphogenesis of epithelial tissues and progression of epithelial tumors |
Q34451648 | Nucleotide bound to rab11a controls localization in rod cells but not interaction with rhodopsin. |
Q44027425 | Opening ahead: early steps in lumen formation revealed |
Q90522228 | Opening the black box: Stem cell-based modeling of human post-implantation development |
Q34434354 | Orchestrating vesicle transport, ESCRTs and kinase surveillance during abscission |
Q38197884 | Organization and execution of the epithelial polarity programme |
Q37425927 | PRL-3 disrupts epithelial architecture by altering the post-mitotic midbody position |
Q30499299 | Par6B and atypical PKC regulate mitotic spindle orientation during epithelial morphogenesis |
Q60638389 | Patient-iPSC-Derived Kidney Organoids Show Functional Validation of a Ciliopathic Renal Phenotype and Reveal Underlying Pathogenetic Mechanisms |
Q33573276 | Pax8 controls thyroid follicular polarity through cadherin-16. |
Q35119240 | Phosphoinositides in cell architecture. |
Q35642908 | Polarity sets the stage for cytokinesis |
Q37267919 | Polarity, cell division, and out-of-equilibrium dynamics control the growth of epithelial structures |
Q37052115 | Polarized protein transport and lumen formation during epithelial tissue morphogenesis |
Q34719239 | Protein complexes that control renal epithelial polarity |
Q33685662 | Rab14 regulation of claudin-2 trafficking modulates epithelial permeability and lumen morphogenesis |
Q27321208 | Rab35 GTPase couples cell division with initiation of epithelial apico-basal polarity and lumen opening |
Q37787522 | Recycling endosomes in apical plasma membrane domain formation and epithelial cell polarity |
Q27023656 | Rho GTPases in collective cell migration |
Q37167379 | Role of membrane traffic in the generation of epithelial cell asymmetry. |
Q24300702 | STAT1 is required for redifferentiation during Madin-Darby canine kidney tubulogenesis |
Q36094987 | Snail destabilizes cell surface Crumbs3a |
Q36208239 | Synaptotagmin-like proteins control the formation of a single apical membrane domain in epithelial cells |
Q42476788 | Talin is required to position and expand the luminal domain of the Drosophila heart tube. |
Q35177728 | The C. elegans Crumbs family contains a CRB3 homolog and is not essential for viability |
Q24313482 | The Cdc42 GEF Intersectin 2 controls mitotic spindle orientation to form the lumen during epithelial morphogenesis. |
Q39176544 | The Crumbs3 Polarity Protein |
Q39242277 | The Midbody and its Remnant in Cell Polarization and Asymmetric Cell Division |
Q34313436 | The SARS coronavirus E protein interacts with PALS1 and alters tight junction formation and epithelial morphogenesis. |
Q40372975 | The Vac14-interaction network is linked to regulators of the endolysosomal and autophagic pathway |
Q39188835 | The WD40 protein Morg1 facilitates Par6-aPKC binding to Crb3 for apical identity in epithelial cells. |
Q40443905 | The aPKC/Par3/Par6 Polarity Complex and Membrane Order Are Functionally Interdependent in Epithelia During Vertebrate Organogenesis. |
Q30009264 | The interdependence of the Rho GTPases and apicobasal cell polarity |
Q47949924 | The multi-PDZ domain protein-1 (MUPP-1) expression regulates cellular levels of the PALS-1/PATJ polarity complex |
Q37213895 | The severe autosomal dominant retinitis pigmentosa rhodopsin mutant Ter349Glu mislocalizes and induces rapid rod cell death |
Q38734544 | ZO-1 interactions with F-actin and occludin direct epithelial polarization and single lumen specification in 3D culture. |
Q34664138 | Zebrafish pronephros tubulogenesis and epithelial identity maintenance are reliant on the polarity proteins Prkc iota and zeta |
Q36462440 | p114RhoGEF governs cell motility and lumen formation during tubulogenesis through a ROCK-myosin-II pathway |
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