scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1012733359 |
P356 | DOI | 10.1038/NATURE12335 |
P698 | PubMed publication ID | 23873041 |
P5875 | ResearchGate publication ID | 250924164 |
P50 | author | Matthew C. Gibson | Q47503678 |
P2093 | author name string | Sean A McKinney | |
Emily J Meyer | |||
Amanda Kroesen | |||
Yu-ichiro Nakajima | |||
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The NuMA-related Mud protein binds Pins and regulates spindle orientation in Drosophila neuroblasts | Q34519483 | ||
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The Drosophila NuMA Homolog Mud regulates spindle orientation in asymmetric cell division | Q34532924 | ||
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Moesin functions antagonistically to the Rho pathway to maintain epithelial integrity | Q40679590 | ||
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Asterless is a centriolar protein required for centrosome function and embryo development in Drosophila | Q42520198 | ||
Localization of apical epithelial determinants by the basolateral PDZ protein Scribble | Q42619733 | ||
zipper Nonmuscle myosin-II functions downstream of PS2 integrin in Drosophila myogenesis and is necessary for myofibril formation | Q43849617 | ||
Drosophila aPKC is required for mitotic spindle orientation during symmetric division of epithelial cells | Q47070167 | ||
Cooperative regulation of cell polarity and growth by Drosophila tumor suppressors | Q47070295 | ||
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P433 | issue | 7462 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 359-362 | |
P577 | publication date | 2013-07-21 | |
P1433 | published in | Nature | Q180445 |
P1476 | title | Epithelial junctions maintain tissue architecture by directing planar spindle orientation | |
P478 | volume | 500 |
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Q47372375 | C-terminal Src kinase (Csk) regulates the tricellular junction protein Gliotactin independent of Src. |
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Q38691198 | Cell reintegration: Stray epithelial cells make their way home. |
Q92615954 | Cell shape and intercellular adhesion regulate mitotic spindle orientation |
Q35679252 | Cell shape impacts on the positioning of the mitotic spindle with respect to the substratum. |
Q55090121 | Cell-cycle-dependent TGFβ-BMP antagonism regulates neural tube closure by modulating tight junctions. |
Q55420282 | Cellular aspect ratio and cell division mechanics underlie the patterning of cell progeny in diverse mammalian epithelia. |
Q92339367 | Centrosome Loss Triggers a Transcriptional Program To Counter Apoptosis-Induced Oxidative Stress |
Q27703589 | Concomitant binding of Afadin to LGN and F-actin directs planar spindle orientation |
Q26785528 | Connections between cadherin-catenin proteins, spindle misorientation, and cancer |
Q37034541 | Decreased Usage of Specific Scrib Exons Defines a More Malignant Phenotype of Breast Cancer With Worsened Survival. |
Q35090002 | Differential regulation of the Hippo pathway by adherens junctions and apical-basal cell polarity modules |
Q38245421 | Dissecting the role of polarity regulators in cancer through the use of mouse models. |
Q46111698 | Diverse mitotic functions of the cytoskeletal cross-linking protein Shortstop suggest a role in Dynein/Dynactin activity |
Q30587026 | Dlg1 controls planar spindle orientation in the neuroepithelium through direct interaction with LGN. |
Q94419119 | Dynamic interplay of cell fate, polarity and force generation in ascidian embryos |
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Q41374143 | Ect2/Pbl acts via Rho and polarity proteins to direct the assembly of an isotropic actomyosin cortex upon mitotic entry |
Q92916660 | Elimination of oncogenic cells that regulate epithelial homeostasis in Drosophila |
Q30837695 | Embryonic origin of adult stem cells required for tissue homeostasis and regeneration. |
Q26851833 | Emerging role of cell polarity proteins in breast cancer progression and metastasis |
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Q91942694 | Eph signaling controls mitotic spindle orientation and cell proliferation in neuroepithelial cells |
Q36120180 | Epithelial Tumors Originate in Tumor Hotspots, a Tissue-Intrinsic Microenvironment |
Q64900761 | Epithelial geometry regulates spindle orientation and progenitor fate during formation of the mammalian epidermis. |
Q26864115 | Epithelial homeostasis |
Q38676446 | Epithelial spindle orientation diversities and uncertainties: recent developments and lingering questions |
Q33745440 | Epithelial tricellular junctions act as interphase cell shape sensors to orient mitosis |
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Q34507729 | Evolution of an ancient protein function involved in organized multicellularity in animals |
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Q34989257 | Isoform-specific functions of Mud/NuMA mediate binucleation of Drosophila male accessory gland cells. |
Q92020476 | Junctional tumor suppressors interact with 14-3-3 proteins to control planar spindle alignment |
Q27312613 | Lateral adhesion drives reintegration of misplaced cells into epithelial monolayers |
Q36057999 | Loss of Cell Adhesion Increases Tumorigenic Potential of Polarity Deficient Scribble Mutant Cells |
Q102210936 | Loss of the spectraplakin gene Short stop induces a DNA damage response in Drosophila epithelia |
Q34490925 | Mechanical control of mitotic progression in single animal cells |
Q38607713 | Mind the gap: cells respond to tissue damage by changing orientation of cell divisions. |
Q36417737 | Mitotic cells contract actomyosin cortex and generate pressure to round against or escape epithelial confinement |
Q40382411 | Mitotic control of human papillomavirus genome-containing cells is regulated by the function of the PDZ-binding motif of the E6 oncoprotein |
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Q39254368 | Moesin is a major regulator of centrosome behavior in epithelial cells with extra centrosomes |
Q47251104 | Moesin is involved in polarity maintenance and cortical remodelling during asymmetric cell division. |
Q42632502 | Need for multi-scale systems to identify spindle orientation regulators relevant to tissue disorganization in solid cancers |
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Q37382529 | PTEN phosphatase-independent maintenance of glandular morphology in a predictive colorectal cancer model system |
Q42407556 | Pins is not required for spindle orientation in the Drosophila wing disc |
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Q92265679 | Polarity signaling ensures epidermal homeostasis by coupling cellular mechanics and genomic integrity |
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Q33797006 | SLK-dependent activation of ERMs controls LGN-NuMA localization and spindle orientation |
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Q41949818 | Spatiotemporal phosphoregulation of Lgl: Finding meaning in multiple on/off buttons. |
Q34216354 | Spindle orientation: what if it goes wrong? |
Q47146845 | Structural Characterization and Statistical-Mechanical Model of Epidermal Patterns. |
Q40231274 | Tau excess impairs mitosis and kinesin-5 function, leading to aneuploidy and cell death |
Q90103112 | The Initial Stage of Tumorigenesis in Drosophila Epithelial Tissues |
Q38661406 | The Janus soul of centrosomes: a paradoxical role in disease? |
Q98771702 | The Mechanics of Mitotic Cell Rounding |
Q60950784 | The Scribble–Dlg–Lgl Module in Cell Polarity Regulation |
Q39363658 | The Spindle Orientation Machinery Beyond Mitosis: When Cell Specialization Demands Polarization |
Q42921745 | The force and effect of cell proliferation |
Q41812074 | The invariant cleavage pattern displayed by ascidian embryos depends on spindle positioning along the cell's longest axis in the apical plane and relies on asynchronous cell divisions |
Q39441362 | Tissue-Intrinsic Tumor Hotspots: Terroir for Tumorigenesis. |
Q34156045 | Towards long term cultivation of Drosophila wing imaginal discs in vitro |
Q39866591 | Twinstar/cofilin is required for regulation of epithelial integrity and tissue growth in Drosophila |
Q30834303 | Virtual-tissue computer simulations define the roles of cell adhesion and proliferation in the onset of kidney cystic disease |
Q37580163 | Vitamin D3 suppresses morphological evolution of the cribriform cancerous phenotype |
Q36320538 | Warts phosphorylates mud to promote pins-mediated mitotic spindle orientation in Drosophila, independent of Yorkie |
Q38734544 | ZO-1 interactions with F-actin and occludin direct epithelial polarization and single lumen specification in 3D culture. |
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