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The relation between cell size, chromosome length and the orientation of chromosomes in dividing root cortex cells

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Abstract

Cells in the root meristem are organised in longitudinal files. Repeated transverse cell divisions in these files are the prime cause of root growth. Because of the orientation of the cell divisions, we expected to find mitoses with an spindle axis parallel to the file axis. However, we observed in the root cortex ofVicia faba large number of oblique chromosome orientations. From metaphase to telophase there was a dramatic increase of the rotation of the spindle axis. Measurements of both the size of the cortex cells and the chromosome configurations indicated that most cells were too small for an orientation of the spindle parallel to the file axis. Space limitation force the spindle into an oblique position. Despite this spindle axis rotation, most daughter cells remained within the original cell file. Only in extremely flat cells did the position of the daughter nuclei forced the cell to set a plane of division parallel to the file axis, which result in side-by-side orientation of the daughter cells. Telophase spindle axis rotations are also observed inCrepis capillaris andPetunia hybrida.. These species have respectively medium and small sized chromosomes compared toVicia. Since space limitation, which causes the rotation, depends both on cell and chromosome size, the frequency and extent of the phenomenon in former two species is comparatively low.

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Authors and Affiliations

  1. BioCentrum Amsterdam, Institute for Molecular Cytology, University of Amsterdam, Plantage Muidergracht 14, NL-1018 TV, Amsterdam, The Netherlands

    J. L. Oud & N. Nanninga

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  1. J. L. Oud
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  2. N. Nanninga
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Oud, J.L., Nanninga, N. The relation between cell size, chromosome length and the orientation of chromosomes in dividing root cortex cells. Plant Soil 167, 23–29 (1994). https://doi.org/10.1007/BF01587594

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