| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S1534-5807(04)00060-7 |
| P698 | PubMed publication ID | 15030758 |
| P50 | author | Eric F. Wieschaus | Q301438 |
| P2093 | author name string | Jennifer A Zallen | |
| P2860 | cites work | Experimental specification of cell sorting, tissue spreading, and specific spatial patterning by quantitative differences in cadherin expression | Q24562198 |
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| ROCK and Dia have opposing effects on adherens junctions downstream of Rho | Q28216591 | ||
| Effects of cell tension on the small GTPase Rac | Q28568393 | ||
| Silberblick/Wnt11 mediates convergent extension movements during zebrafish gastrulation | Q29619296 | ||
| Monopolar protrusive activity: a new morphogenic cell behavior in the neural plate dependent on vertical interactions with the mesoderm in Xenopus | Q30305854 | ||
| Mechanisms of convergence and extension by cell intercalation | Q30306607 | ||
| Planar signaling and morphogenesis in Drosophila | Q30309355 | ||
| Shaping the vertebrate body plan by polarized embryonic cell movements | Q30310311 | ||
| Bazooka is required for localization of determinants and controlling proliferation in the sensory organ precursor cell lineage in Drosophila | Q33951955 | ||
| Conserved domains of the Nullo protein required for cell-surface localization and formation of adherens junctions | Q33953344 | ||
| Asymmetric cell division: fly neuroblast meets worm zygote | Q34132774 | ||
| Germline autonomy of maternal-effect mutations altering the embryonic body pattern of Drosophila | Q34165334 | ||
| Determination of anteroposterior polarity in Drosophila | Q34187522 | ||
| Asymmetric cell division during animal development | Q34286348 | ||
| Intercellular junctions and cellular polarity: the PAR-aPKC complex, a conserved core cassette playing fundamental roles in cell polarity. | Q34360639 | ||
| Asymmetric cell division in the Drosophila nrevous system | Q34443636 | ||
| Non-canonical Wnt signalling and regulation of gastrulation movements | Q34758596 | ||
| Planar cell polarization: do the same mechanisms regulate Drosophila tissue polarity and vertebrate gastrulation? | Q34987787 | ||
| The nonmuscle myosin regulatory light chain gene mlc-4 is required for cytokinesis, anterior-posterior polarity, and body morphology during Caenorhabditis elegans embryogenesis | Q35506248 | ||
| armadillo, bazooka, and stardust are critical for early stages in formation of the zonula adherens and maintenance of the polarized blastoderm epithelium in Drosophila. | Q36237170 | ||
| Drosophila atypical protein kinase C associates with Bazooka and controls polarity of epithelia and neuroblasts | Q36293793 | ||
| A non-muscle myosin required for embryonic polarity in Caenorhabditis elegans | Q39757928 | ||
| Over-expression of PAR-3 suppresses contact-mediated inhibition of cell migration in MDCK cells. | Q40725999 | ||
| Bazooka provides an apical cue for Inscuteable localization in Drosophila neuroblasts | Q40913027 | ||
| Drosophila nonmuscle myosin II promotes the asymmetric segregation of cell fate determinants by cortical exclusion rather than active transport | Q42454045 | ||
| Bazooka recruits Inscuteable to orient asymmetric cell divisions in Drosophila neuroblasts. | Q42480871 | ||
| Local shifts in position and polarized motility drive cell rearrangement during sea urchin gastrulation | Q42495521 | ||
| DmPAR-6 directs epithelial polarity and asymmetric cell division of neuroblasts in Drosophila | Q42498170 | ||
| The Partner of Inscuteable/Discs-large complex is required to establish planar polarity during asymmetric cell division in Drosophila | Q42508762 | ||
| slam encodes a developmental regulator of polarized membrane growth during cleavage of the Drosophila embryo | Q42520485 | ||
| Cell motility driving mediolateral intercalation in explants of Xenopus laevis | Q46571077 | ||
| Asymmetrically distributed PAR-3 protein contributes to cell polarity and spindle alignment in early C. elegans embryos | Q47069501 | ||
| Bazooka is a permissive factor for the invasive behavior of discs large tumor cells in Drosophila ovarian follicular epithelia | Q47072814 | ||
| Rapid preparation of a panel of polyclonal antibodies to Drosophila segmentation proteins | Q47768026 | ||
| A DNA-binding-independent pathway of repression by the Drosophila Runt protein. | Q52105870 | ||
| Complementary patterns of even-skipped and fushi tarazu expression involve their differential regulation by a common set of segmentation genes in Drosophila | Q52456450 | ||
| Specificity of embryonic lethal mutations in Drosophila analyzed in germ line clones | Q54309403 | ||
| Regulation of runt transcription by Drosophila segmentation genes | Q72609141 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Drosophila | Q312154 |
| Runt Dmel_CG1849 | Q29811257 | ||
| Even skipped Dmel_CG2328 | Q29811536 | ||
| P1104 | number of pages | 13 | |
| P304 | page(s) | 343-355 | |
| P577 | publication date | 2004-03-01 | |
| P1433 | published in | Developmental Cell | Q1524277 |
| P1476 | title | Patterned gene expression directs bipolar planar polarity in Drosophila | |
| P478 | volume | 6 |
| Q30502433 | A contractile actomyosin network linked to adherens junctions by Canoe/afadin helps drive convergent extension |
| Q33549677 | A modifier screen for Bazooka/PAR-3 interacting genes in the Drosophila embryo epithelium |
| Q30489392 | A novel genetic mechanism regulates dorsolateral hinge-point formation during zebrafish cranial neurulation |
| Q27317080 | A positional Toll receptor code directs convergent extension in Drosophila |
| Q35794200 | A screen for round egg mutants in Drosophila identifies tricornered, furry, and misshapen as regulators of egg chamber elongation. |
| Q30513412 | Abl regulates planar polarized junctional dynamics through β-catenin tyrosine phosphorylation |
| Q37259861 | Abl suppresses cell extrusion and intercalation during epithelium folding. |
| Q58051087 | Abstract |
| Q30493926 | Actomyosin contractility and Discs large contribute to junctional conversion in guiding cell alignment within the Drosophila embryonic epithelium |
| Q30852451 | Actomyosin meshwork mechanosensing enables tissue shape to orient cell force |
| Q37976507 | Adherens Junction Assembly and Function in the Drosophila Embryo |
| Q38827214 | Adherens Junction and E-Cadherin complex regulation by epithelial polarity. |
| Q38016768 | Adherens Junctions and Cadherins in Drosophila Development |
| Q37748230 | Adherens junction: molecular architecture and regulation |
| Q34122302 | Adherens junctions: from molecules to morphogenesis |
| Q38734018 | Amnioserosa development and function in Drosophila embryogenesis: Critical mechanical roles for an extraembryonic tissue |
| Q41782157 | An Optogenetic Method to Modulate Cell Contractility during Tissue Morphogenesis |
| Q30577822 | An actomyosin-based barrier inhibits cell mixing at compartmental boundaries in Drosophila embryos. |
| Q41322926 | An embryonic system to assess direct and indirect Wnt transcriptional targets |
| Q28255868 | Analysis of tissue flow patterns during primitive streak formation in the chick embryo |
| Q27313091 | Anisotropic stress orients remodelling of mammalian limb bud ectoderm. |
| Q59052036 | Antero-posterior tissue polarity links mesoderm convergent extension to axial patterning |
| Q55510149 | Apical and Basal Matrix Remodeling Control Epithelial Morphogenesis. |
| Q92601366 | Apical polarity proteins recruit the RhoGEF Cysts to promote junctional myosin assembly |
| Q35210770 | Asymmetric distribution of Echinoid defines the epidermal leading edge during Drosophila dorsal closure |
| Q38687801 | Asymmetrically deployed actomyosin-based contractility generates a boundary between developing leg segments in Drosophila |
| Q42259701 | Atonal and EGFR signalling orchestrate rok- and Drak-dependent adherens junction remodelling during ommatidia morphogenesis. |
| Q38873941 | Basolateral protrusion and apical contraction cooperatively drive Drosophila germ-band extension |
| Q37961392 | Biomechanical regulation of contractility: spatial control and dynamics |
| Q42422077 | Bone morphogenetic proteins regulate hinge point formation during neural tube closure by dynamic modulation of apicobasal polarity |
| Q27691830 | Cadherin trafficking for tissue morphogenesis: control and consequences |
| Q21133688 | Canalization and Control in Automata Networks: Body Segmentation in Drosophila melanogaster |
| Q50437084 | Cell and Tissue Scale Forces Coregulate Fgfr2-Dependent Tetrads and Rosettes in the Mouse Embryo |
| Q30572391 | Cell and tissue dynamics during Tribolium embryogenesis revealed by versatile fluorescence labeling approaches |
| Q35998167 | Cell intercalation from top to bottom |
| Q42173045 | Cell mechanics and feedback regulation of actomyosin networks |
| Q38304898 | Cell models lead to understanding of multi-cellular morphogenesis consisting of successive self-construction of cells |
| Q30440457 | Cell rearrangement and cell division during the tissue level morphogenesis of evaginating Drosophila imaginal discs |
| Q42476398 | Cell shape change and invagination of the cephalic furrow involves reorganization of F-actin |
| Q52697723 | Cell shape changes indicate a role for extrinsic tensile forces in Drosophila germ-band extension. |
| Q36887551 | Cell surface mechanics and the control of cell shape, tissue patterns and morphogenesis. |
| Q90729987 | Cellular defects resulting from disease-related myosin II mutations in Drosophila |
| Q36042628 | Compartmentalized morphogenesis in epithelia: from cell to tissue shape |
| Q33869158 | Complex Interactions between GSK3 and aPKC in Drosophila Embryonic Epithelial Morphogenesis |
| Q46272156 | Conservation and variation in pair-rule gene expression and function in the intermediate-germ beetle Dermestes maculatus |
| Q38675800 | Contraction and elongation: Mechanics underlying cell boundary deformations in epithelial tissue. |
| Q30438855 | Convergence and extension at gastrulation require a myosin IIB-dependent cortical actin network |
| Q50667407 | Convergent extension and the hexahedral cell |
| Q36404910 | Cooperation of polarized cell intercalations drives convergence and extension of presomitic mesoderm during zebrafish gastrulation |
| Q33876073 | Cortical Forces in Cell Shape Changes and Tissue Morphogenesis |
| Q27330085 | Coupling mechanical deformations and planar cell polarity to create regular patterns in the zebrafish retina |
| Q34650555 | Crumbs affects protein dynamics in anterior regions of the developing Drosophila embryo |
| Q34017255 | Crumbs stabilises epithelial polarity during tissue remodelling |
| Q50625622 | Developmental biology: Polarize to elongate |
| Q52088673 | Developmental biology: heading away from the rump |
| Q42092367 | Differential proliferation rates generate patterns of mechanical tension that orient tissue growth |
| Q90114447 | Distinct RhoGEFs Activate Apical and Junctional Contractility under Control of G Proteins during Epithelial Morphogenesis |
| Q30405792 | Distinct apical and basolateral mechanisms drive planar cell polarity-dependent convergent extension of the mouse neural plate |
| Q59332867 | Distinct contributions of tensile and shear stress on E-cadherin levels during morphogenesis |
| Q27344965 | Diversity of epithelial morphogenesis during eggshell formation in drosophilids |
| Q36202262 | Drosophila Myosin II, Zipper, is essential for ommatidial rotation |
| Q30528231 | Drosophila PATJ supports adherens junction stability by modulating Myosin light chain activity |
| Q27302847 | Dynamic and polarized muscle cell behaviors accompany tail morphogenesis in the ascidian Ciona intestinalis |
| Q38211486 | Dynamic contacts: rearranging adherens junctions to drive epithelial remodelling. |
| Q30445378 | Dynamic determinations: patterning the cell behaviours that close the amphibian blastopore |
| Q30540536 | Dynamic microtubules produce an asymmetric E-cadherin-Bazooka complex to maintain segment boundaries |
| Q42060914 | Dynamics and regulation of contractile actin-myosin networks in morphogenesis |
| Q37855367 | Dynamics of adherens junctions in epithelial establishment, maintenance, and remodeling |
| Q26745902 | Dynamics of cell polarity in tissue morphogenesis: a comparative view from Drosophila and Ciona |
| Q37838101 | Elaborating polarity: PAR proteins and the cytoskeleton |
| Q55264919 | Embryonic expression of a Long Toll (Loto) gene in the onychophorans Euperipatoides kanangrensis and Cephalofovea clandestina. |
| Q36459929 | EpiTools: An Open-Source Image Analysis Toolkit for Quantifying Epithelial Growth Dynamics |
| Q27313550 | Epidermal growth factor signalling controls myosin II planar polarity to orchestrate convergent extension movements during Drosophila tubulogenesis |
| Q37857742 | Establishment and maintenance of compartmental boundaries: role of contractile actomyosin barriers |
| Q35697490 | Expanding the Morphogenetic Repertoire: Perspectives from the Drosophila Egg |
| Q37899183 | Force Generation, Transmission, and Integration during Cell and Tissue Morphogenesis |
| Q38109316 | Forces in Tissue Morphogenesis and Patterning |
| Q33364605 | From morphogen to morphogenesis and back |
| Q47681066 | Functional and evolutionary insights from the Ciona notochord transcriptome. |
| Q42453322 | GSK3beta affects apical-basal polarity and cell-cell adhesion by regulating aPKC levels |
| Q52677905 | Gain of affinity point mutation in the serotonin receptor gene 5-HT2Dro accelerates germband extension movements during Drosophila gastrulation |
| Q38026928 | Gastrulation: Making and Shaping Germ Layers |
| Q30844764 | Geometry can provide long-range mechanical guidance for embryogenesis. |
| Q50051690 | Global morphogenetic flow is accurately predicted by the spatial distribution of myosin motors. |
| Q55330383 | Guided morphogenesis through optogenetic activation of Rho signalling during early Drosophila embryogenesis. |
| Q37102576 | HorkaD, a chromosome instability-causing mutation in Drosophila, is a dominant-negative allele of Lodestar |
| Q37593736 | How the cytoskeleton helps build the embryonic body plan: models of morphogenesis from Drosophila. |
| Q30567143 | Hoxb1b controls oriented cell division, cell shape and microtubule dynamics in neural tube morphogenesis |
| Q55416346 | Identifying Genetic Players in Cell Sheet Morphogenesis Using a Drosophila Deficiency Screen for Genes on Chromosome 2R Involved in Dorsal Closure. |
| Q37593730 | Intercellular adhesion in morphogenesis: molecular and biophysical considerations |
| Q49320688 | Jak-Stat pathway induces Drosophila follicle elongation by a gradient of apical contractility. |
| Q42197393 | Jennifer Zallen: decoding the developmental dance. Interview by Ruth Williams |
| Q37533062 | Junctional trafficking and epithelial morphogenesis |
| Q27341921 | Left-right asymmetric cell intercalation drives directional collective cell movement in epithelial morphogenesis |
| Q53168198 | Lens placode planar cell polarity is dependent on Cdc42-mediated junctional contraction inhibition |
| Q90556846 | Live imaging reveals hub cell assembly and compaction dynamics during morphogenesis of the Drosophila testis niche |
| Q48651029 | Local and tissue-scale forces drive oriented junction growth during tissue extension. |
| Q35889323 | Local mechanical forces promote polarized junctional assembly and axis elongation in Drosophila. |
| Q28266382 | Localization and requirement for Myosin II at the dorsal-ventral compartment boundary of the Drosophila wing |
| Q30480591 | Localized zones of Rho and Rac activities drive initiation and expansion of epithelial cell-cell adhesion. |
| Q89767726 | Looking deeper into tissue elongation |
| Q92822637 | Measurement of junctional tension in epithelial cells at the onset of primitive streak formation in the chick embryo via non-destructive optical manipulation |
| Q27346459 | Mechanical Coupling between Endoderm Invagination and Axis Extension in Drosophila |
| Q38564163 | Mechanical Forces and Growth in Animal Tissues |
| Q37785163 | Mechanical Induction in Embryonic Development and Tumor Growth: Integrative Cues Through Molecular to Multicellular Interplay and Evolutionary Perspectives |
| Q38235824 | Mechanical force sensing in tissues |
| Q39153854 | Mechanisms of collective cell movement lacking a leading or free front edge in vivo |
| Q34504279 | Mechanochemical regulation of oscillatory follicle cell dynamics in the developing Drosophila egg chamber |
| Q30836310 | Mechanotransductive cascade of Myo-II-dependent mesoderm and endoderm invaginations in embryo gastrulation |
| Q58292796 | Membrane Traffic and Apicobasal Polarity in Drosophila Epithelial Cells |
| Q88657699 | Membrane trafficking in morphogenesis and planar polarity |
| Q33860435 | Meru couples planar cell polarity with apical-basal polarity during asymmetric cell division |
| Q34239073 | Mesenchymal-to-epithelial transition of intercalating cells in Drosophila renal tubules depends on polarity cues from epithelial neighbours |
| Q33607426 | Modeling cell elongation during germ band retraction: cell autonomy versus applied anisotropic stress |
| Q46307154 | Models of convergent extension during morphogenesis |
| Q47072024 | Modular activation of Rho1 by GPCR signalling imparts polarized myosin II activation during morphogenesis. |
| Q37672322 | Molecular bases of cell-cell junctions stability and dynamics |
| Q42873566 | Morphogenesis in Kyoto: a confluence of cell and developmental biology |
| Q34895558 | Morphogenetic cell movements: diversity from modular mechanical properties |
| Q37110922 | Multicellular dynamics during epithelial elongation. |
| Q92370258 | Multiple feedback mechanisms fine-tune Rho signaling to regulate morphogenetic outcomes |
| Q30476214 | Myosin 2 is a key Rho kinase target necessary for the local concentration of E-cadherin at cell-cell contacts |
| Q47098655 | Myosin II Controls Junction Fluctuations to Guide Epithelial Tissue Ordering |
| Q30494080 | Myosin II dynamics are regulated by tension in intercalating cells |
| Q38128200 | Myosin II in mechanotransduction: master and commander of cell migration, morphogenesis, and cancer |
| Q38623209 | Myosin II is not required for Drosophila tracheal branch elongation and cell intercalation. |
| Q42580444 | Myosin II promotes the anisotropic loss of the apical domain during Drosophila neuroblast ingression |
| Q37200935 | Myosin II regulates extension, growth and patterning in the mammalian cochlear duct. |
| Q44393486 | Myosin IIB deficiency in embryonic fibroblasts affects regulators and core members of the par polarity complex |
| Q36951037 | Myosin-II-mediated cell shape changes and cell intercalation contribute to primitive streak formation. |
| Q34036908 | Non-additive interactions involving two distinct elements mediate sloppy-paired regulation by pair-rule transcription factors |
| Q36997696 | Orchestrating size and shape during morphogenesis |
| Q38843040 | Oscillatory behaviors and hierarchical assembly of contractile structures in intercalating cells |
| Q34205548 | PCP and septins compartmentalize cortical actomyosin to direct collective cell movement |
| Q90719703 | PCP-dependent transcellular regulation of actomyosin oscillation facilitates convergent extension of vertebrate tissue |
| Q30435847 | PTK7 is essential for polarized cell motility and convergent extension during mouse gastrulation |
| Q30405795 | PTK7-Src signaling at epithelial cell contacts mediates spatial organization of actomyosin and planar cell polarity |
| Q30441567 | Par3 functions in the biogenesis of the primary cilium in polarized epithelial cells |
| Q58693974 | Par3 interacts with Prickle3 to generate apical PCP complexes in the vertebrate neural plate |
| Q50485228 | Par3/Bazooka and phosphoinositides regulate actin protrusion formation during Drosophila dorsal closure and wound healing |
| Q41859956 | Patterned Anchorage to the Apical Extracellular Matrix Defines Tissue Shape in the Developing Appendages of Drosophila |
| Q58583166 | Physical control of tissue morphogenesis across scales |
| Q92417255 | Physics of growing biological tissues: the complex cross-talk between cell activity, growth and resistance |
| Q90706662 | Planar Asymmetries in the C. elegans Embryo Emerge by Differential Retention of aPARs at Cell-Cell Contacts |
| Q38111369 | Planar Cell Polarity Signaling in Collective Cell Movements During Morphogenesis and Disease |
| Q38035934 | Planar Cell Polarity and the Developmental Control of Cell Behavior in Vertebrate Embryos |
| Q38058903 | Planar Cell Polarity in Coordinated and Directed Movements |
| Q37901789 | Planar Cell Polarity: Coordinating Morphogenetic Cell Behaviors with Embryonic Polarity |
| Q38274898 | Planar cell polarity of the kidney |
| Q36709415 | Planar cell polarity signaling in vertebrates |
| Q47071637 | Planar polarization of the denticle field in the Drosophila embryo: roles for Myosin II (zipper) and fringe. |
| Q41536165 | Planar polarized Rab35 functions as an oscillatory ratchet during cell intercalation in the Drosophila epithelium. |
| Q47072353 | Planar polarized actomyosin contractile flows control epithelial junction remodelling |
| Q37335323 | Polarity and cell division orientation in the cleavage embryo: from worm to human |
| Q36245121 | Polarized Rac-dependent protrusions drive epithelial intercalation in the embryonic epidermis of C. elegans |
| Q59257822 | Polarized microtubule dynamics directs cell mechanics and coordinates forces during epithelial morphogenesis |
| Q37666568 | Polycystin-1 binds Par3/aPKC and controls convergent extension during renal tubular morphogenesis |
| Q38771257 | Positional Information and Cell Fate Determination in the Early Drosophila Embryo |
| Q37369343 | Primary cilia in planar cell polarity regulation of the inner ear |
| Q37623993 | Pulsation and stabilization: contractile forces that underlie morphogenesis |
| Q30498046 | Punctuated actin contractions during convergent extension and their permissive regulation by the non-canonical Wnt-signaling pathway. |
| Q42940240 | Q&A: quantitative approaches to planar polarity and tissue organization |
| Q56534147 | Radially patterned cell behaviours during tube budding from an epithelium |
| Q48183354 | Rap1 acts via multiple mechanisms to position Canoe and adherens junctions and mediate apical-basal polarity establishment |
| Q36717388 | Rap1 and Canoe/afadin are essential for establishment of apical–basal polarity in theDrosophilaembryo |
| Q35741919 | Regulation of cochlear convergent extension by the vertebrate planar cell polarity pathway is dependent on p120-catenin |
| Q41141175 | Regulation of cytoskeletal organization and junctional remodeling by the atypical cadherin Fat. |
| Q39354382 | Regulation of gastrulation movements by emergent cell and tissue interactions. |
| Q52704431 | Reiterative use of signalling pathways controls multiple cellular events during Drosophila posterior spiracle organogenesis |
| Q37593733 | Remodeling of the adherens junctions during morphogenesis. |
| Q34360741 | Remodelling epithelial tubes through cell rearrangements: from cells to molecules |
| Q37707445 | Requirement for highly efficient pre-mRNA splicing during Drosophila early embryonic development |
| Q30572082 | Rho GTPase and Shroom direct planar polarized actomyosin contractility during convergent extension |
| Q30502216 | Rho-Kinase Directs Bazooka/Par-3 Planar Polarity during Drosophila Axis Elongation |
| Q26777057 | Role of the Polycystins in Cell Migration, Polarity, and Tissue Morphogenesis |
| Q38808061 | SEGGA: a toolset for rapid automated analysis of epithelial cell polarity and dynamics. |
| Q38004586 | Sculpting Organs: Mechanical Regulation of Tissue Development |
| Q27319960 | Segment-specific adhesion as a driver of convergent extension |
| Q54978763 | Septin-dependent remodeling of cortical microtubule drives cell reshaping during epithelial wound healing. |
| Q50487887 | Septin7 regulates inner ear formation at an early developmental stage |
| Q34154050 | Shaping the mammalian auditory sensory organ by the planar cell polarity pathway |
| Q27014898 | Shaping up for action: the path to physiological maturation in the renal tubules of Drosophila |
| Q56530246 | Spatial and temporal analysis of PCP protein dynamics during neural tube closure |
| Q26850691 | Spatial and temporal aspects of Wnt signaling and planar cell polarity during vertebrate embryonic development |
| Q47113501 | Spatial regulation of contractility by Neuralized and Bearded during furrow invagination in Drosophila |
| Q42476158 | Spatially defined Dsh–Lgl interaction contributes to directional tissue morphogenesis |
| Q34060657 | Spatiotemporal control of epithelial remodeling by regulated myosin phosphorylation. |
| Q34033134 | Specific isoforms of drosophila shroom define spatial requirements for the induction of apical constriction |
| Q30783287 | Square Cell Packing in the Drosophila Embryo through Spatiotemporally Regulated EGF Receptor Signaling |
| Q38088470 | Stability and Dynamics of Cell–Cell Junctions |
| Q46578172 | Sticking together the Crumbs — an unexpected function for an old friend |
| Q37834841 | Strange as it may seem: the many links between Wnt signaling, planar cell polarity, and cilia |
| Q37442499 | Stripy Ftz target genes are coordinately regulated by Ftz-F1. |
| Q55011856 | Suppression of epithelial folding at actomyosin-enriched compartment boundaries downstream of Wingless signalling in Drosophila. |
| Q37866454 | Tension and Epithelial Morphogenesis in Drosophila Early Embryos |
| Q47355011 | Tension, contraction and tissue morphogenesis |
| Q38033612 | The Apical Polarity Protein Network in Drosophila Epithelial Cells: Regulation of Polarity, Junctions, Morphogenesis, Cell Growth, and Survival |
| Q92682916 | The Drosophila Afadin and ZO-1 homologues Canoe and Polychaetoid act in parallel to maintain epithelial integrity when challenged by adherens junction remodeling |
| Q37267715 | The Drosophila afadin homologue Canoe regulates linkage of the actin cytoskeleton to adherens junctions during apical constriction. |
| Q43239224 | The Frizzled-dependent planar polarity pathway locally promotes E-cadherin turnover via recruitment of RhoGEF2 |
| Q41084477 | The PCP pathway regulates Baz planar distribution in epithelial cells |
| Q90051193 | The Physical Mechanisms of Drosophila Gastrulation: Mesoderm and Endoderm Invagination |
| Q36359414 | The Ski2-family helicase Obelus regulates Crumbs alternative splicing and cell polarity |
| Q30482169 | The abdomen of Drosophila: does planar cell polarity orient the neurons of mechanosensory bristles? |
| Q47803634 | The adherens junction-associated LIM domain protein Smallish regulates epithelial morphogenesis |
| Q92278962 | The cytoskeletal motor proteins Dynein and MyoV direct apical transport of Crumbs |
| Q90101958 | The force-sensitive protein Ajuba regulates cell adhesion during epithelial morphogenesis |
| Q30422383 | The frizzled/stan Pathway and Planar Cell Polarity in the Drosophila Wing |
| Q47070255 | The glucosyltransferase Xiantuan of the endoplasmic reticulum specifically affects E-Cadherin expression and is required for gastrulation movements in Drosophila. |
| Q50421507 | The heart tube forms and elongates through dynamic cell rearrangement coordinated with foregut extension. |
| Q42015536 | The interaction between Shroom3 and Rho-kinase is required for neural tube morphogenesis in mice |
| Q30009264 | The interdependence of the Rho GTPases and apicobasal cell polarity |
| Q36737136 | The involvement of PCP proteins in radial cell intercalations during Xenopus embryonic development. |
| Q38099601 | The mechanisms of planar cell polarity, growth and the Hippo pathway: some known unknowns |
| Q89763104 | The multifarious regulation of the apical junctional complex |
| Q33796228 | The roles and regulation of multicellular rosette structures during morphogenesis |
| Q91701148 | The same but different: cell intercalation as a driver of tissue deformation and fluidity |
| Q91721581 | The tricellular vertex-specific adhesion molecule Sidekick facilitates polarised cell intercalation during Drosophila axis extension |
| Q30582653 | Three-dimensional epithelial morphogenesis in the developing Drosophila egg |
| Q38781482 | Tissue morphodynamics: Translating planar polarity cues into polarized cell behaviors |
| Q37786072 | Tissue morphogenesis: how multiple cells cooperate to generate a tissue |
| Q26778749 | Tissue patterning and cellular mechanics |
| Q37943595 | Translating cell polarity into tissue elongation |
| Q42040382 | Tribolium embryo morphogenesis: may the force be with you. |
| Q38313308 | Tug of war--the influence of opposing physical forces on epithelial cell morphology |
| Q37926721 | Tuning cell shape change with contractile ratchets |
| Q52692294 | Two different mechanisms of planar cell intercalation leading to tissue elongation |
| Q33268020 | Two distinct modes of myosin assembly and dynamics during epithelial wound closure |
| Q91975741 | Two pair-rule responsive enhancers regulate wingless transcription in the Drosophila blastoderm embryo |
| Q41813846 | Uncoupling apical constriction from tissue invagination |
| Q42581576 | Unipolar distributions of junctional Myosin II identify cell stripe boundaries that drive cell intercalation throughout Drosophila axis extension |
| Q38782671 | Vertebrate Axial Patterning: From Egg to Asymmetry |
| Q30587196 | Vertebrate kidney tubules elongate using a planar cell polarity-dependent, rosette-based mechanism of convergent extension |
| Q39661503 | Wide and high resolution tension measurement using FRET in embryo |
| Q28590637 | Willin and Par3 cooperatively regulate epithelial apical constriction through aPKC-mediated ROCK phosphorylation |
| Q34119907 | Wnt ligand/Frizzled 2 receptor signaling regulates tube shape and branch-point formation in the lung through control of epithelial cell shape |
| Q36220813 | Wnt to build a tube: contributions of Wnt signaling to epithelial tubulogenesis |
| Q30483283 | ZO-1- and ZO-2-dependent integration of myosin-2 to epithelial zonula adherens |
| Q30479922 | aPKC controls microtubule organization to balance adherens junction symmetry and planar polarity during development |
| Q33914394 | aPKC phosphorylation of Bazooka defines the apical/lateral border in Drosophila epithelial cells |
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