THE FINE STRUCTURE OF THE NUCLEOLUS DURING MITOSIS IN THE GRASSHOPPER NEUROBLAST CELL

doi:10.1083/jcb.24.3.349

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ARTICLE

THE FINE STRUCTURE OF THE NUCLEOLUS DURING MITOSIS IN THE GRASSHOPPER NEUROBLAST CELL

Barbara J. Stevens Ph.D.¹

¹ From the Department of Anatomy, Cornell University Medical College, New York, and the Biology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee.

Dr. Stevens' present address is the Whitman Laboratory, University of Chicago, Chicago

The behavior of the nucleolus during mitosis was studied byelectron microscopy in neuroblast cells of the grasshopper embryo,Chortophaga viridifasciata. Living neuroblast cells were observedin the light microscope, and their mitotic stages were identifiedand recorded. The cells were fixed and embedded; alternate thickand thin sections were made for light and electron microscopy.The interphase nucleolus consists of two fine structural componentsarranged in separate zones. Concentrations of 150 A granulesform a dense peripheral zone, while the central regions arecomposed of a homogeneous background substance. Observationsshow that nucleolar dissolution in prophase occurs in two stepswith a preliminary loss of the background substance followedby a dispersal of the granules. Nucleolar material reappearsat anaphase as small clumps or layers at the chromosome surfaces.These later form into definite bodies, which disappear as thenucleolus grows in telophase. Evidence suggests both a collectingand a synthesizing role for the nucleolus-associated chromatin.The final, mature nucleolar form is produced by a rearrangementof the fine structural components and an increase in their mass.

Submitted on February 21, 1964

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