Apical movement during interkinetic nuclear migration is a two-step process - Wikidata - awgldk - TriplyDB

Apical movement during interkinetic nuclear migration is a two-step process

Apical movement during interkinetic nuclear migration is a two-step process

http://www.wikidata.org/entity/Q37604378

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Severe NDE1-mediated microcephaly results from neural progenitor cell cycle arrests at multiple specific stages Cell division and the maintenance of epithelial order Apicobasal polarity and neural tube closure Characterization of primary cilia during the differentiation of retinal ganglion cells in the zebrafish Nuclear migration events throughout development Nuclear envelope: positioning nuclei and organizing synapses Ninein is essential for the maintenance of the cortical progenitor character by anchoring the centrosome to microtubules Epithelial junctions maintain tissue architecture by directing planar spindle orientation.Nuclear envelope in nuclear positioning and cell migration Actin-Cytoskeleton- and Rock-Mediated INM Are Required for Photoreceptor Regeneration in the Adult Zebrafish Retina toca-1 is in a novel pathway that functions in parallel with a SUN-KASH nuclear envelope bridge to move nuclei in Caenorhabditis elegans.Neurogenesis during development of the vertebrate central nervous system.Progenitor genealogy in the developing cerebral cortex.Emerging roles for motor proteins in progenitor cell behavior and neuronal migration during brain development.Microtubules, polarity and vertebrate neural tube morphogenesis.Neuron's little helper: The role of primary cilia in neurogenesis.Cellular systems for epithelial invagination.Genetic and Molecular Approaches to Study Neuronal Migration in the Developing Cerebral Cortex Live-cell imaging: new avenues to investigate retinal regeneration.Pins is not required for spindle orientation in the Drosophila wing disc.Interkinetic nuclear migration in the mouse embryonic ureteric epithelium: Possible implication for congenital anomalies of the kidney and urinary tract.Interkinetic nuclear migration and basal tethering facilitates post-mitotic daughter separation in intestinal organoids.Dynein recruitment to nuclear pores activates apical nuclear migration and mitotic entry in brain progenitor cells.Nuclei migrate through constricted spaces using microtubule motors and actin networks in C. elegans hypodermal cells.Elasticity-based boosting of neuroepithelial nucleokinesis via indirect energy transfer from mother to daughter.Cellular aspect ratio and cell division mechanics underlie the patterning of cell progeny in diverse mammalian epithelia.Neurogenic decisions require a cell cycle independent function of the CDC25B phosphatase

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Apical movement during interkinetic nuclear migration is a two-step process

http://www.wikidata.org/entity/Q37604378

description

article científic

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article scientifique

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articolo scientifico

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artigo científico

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bilimsel makale

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scientific article published on 04 August 2012

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vedecký článok

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vetenskaplig artikel

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videnskabelig artikel

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vědecký článek

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name

Apical movement during interkinetic nuclear migration is a two-step process

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Apical movement during interkinetic nuclear migration is a two-step process.

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Apical movement during interkinetic nuclear migration is a two-step process

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Apical movement during interkinetic nuclear migration is a two-step process.

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Apical movement during interkinetic nuclear migration is a two-step process

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Apical movement during interkinetic nuclear migration is a two-step process.

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J.YDBIO.2012.06.031

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Developmental Biology

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Apical movement during interkinetic nuclear migration is a two-step process

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Carol A Erickson

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Philip C Spear

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Active cyclin B1-Cdk1 first appears on centrosomes in prophase

HEF1-dependent Aurora A activation induces disassembly of the primary cilium

Cep120 and TACCs control interkinetic nuclear migration and the neural progenitor pool.

LIS1 RNA interference blocks neural stem cell division, morphogenesis, and motility at multiple stages

Pax6 transcription factor is required for the interkinetic nuclear movement of neuroepithelial cells

Midbody and primary cilium of neural progenitors release extracellular membrane particles enriched in the stem cell marker prominin-1

Multiple dose-dependent effects of Lis1 on cerebral cortical development

Self-organizing optic-cup morphogenesis in three-dimensional culture

Moesin and its activating kinase Slik are required for cortical stability and microtubule organization in mitotic cells

The neural crest epithelial-mesenchymal transition in 4D: a 'tail' of multiple non-obligatory cellular mechanisms.

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33-41

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scholarly article

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10.1016/J.YDBIO.2012.06.031

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2012-08-04T00:00:00Z

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