Interkinetic nuclear migration is centrosome independent and ensures apical cell division to maintain tissue integrity.

@article{Strzyz2015InterkineticNM,
  title={Interkinetic nuclear migration is centrosome independent and ensures apical cell division to maintain tissue integrity.},
  author={Paulina J Strzyz and Hyun O. Lee and Jaydeep Sidhaye and Isabell P Weber and Louis C. Leung and Caren Norden},
  journal={Developmental cell},
  year={2015},
  volume={32 2},
  pages={
          203-19
        }
}

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References

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Apical movement during interkinetic nuclear migration is a two-step process.
Interkinetic Nuclear Migration and the Selection of Neurogenic Cell Divisions during Vertebrate Retinogenesis
TLDR
The data support a novel model for neurogenesis, in which interkinetic nuclear migration differentially positions nuclei in neuroepithelial cells and therefore influences selection of progenitors for cell cycle exit based on apical–basal polarized signals.
Apical migration of nuclei during G2 is a prerequisite for all nuclear motion in zebrafish neuroepithelia
TLDR
A quantitative analysis of modes of nuclear migration during the cell cycle using a marker that enables the first unequivocal differentiation of all four phases in proliferating neuroepithelial cells in vivo suggests that IKNM involves an actomyosin-driven contraction of cytoplasm basal to the nucleus during G2, and that the stochastic nuclear movements observed in other phases arise passively due to apical migration in neighboring cells.
Regulation of interkinetic nuclear migration by cell cycle-coupled active and passive mechanisms in the developing brain
TLDR
The model for INM explains how the dynamics of neural progenitors harmonize their extensive proliferation with the epithelial architecture in the developing brain.
Mechanisms controlling arrangements and movements of nuclei in pseudostratified epithelia.
Kinesin 3 and cytoplasmic dynein mediate interkinetic nuclear migration in neural stem cells
TLDR
Observations provide direct evidence that kinesins are involved in nuclear migration and neurogenesis and suggest that a cell cycle–dependent switch between distinct microtubule motors drives interkinetic nuclear migration.
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