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Tuatara: Volume 12, Issue 2, July 1964

Fig. 12: Chromosome and astral fibres of the whitefish. Fig. 13: Centrioles marking the spindle poles in Ascaris megalocephola. Fig. 14: Birefringence of the spindle (arrow) in living endosperm cells of Caemanthus katherinae. (Courtesy Dr. S. Inoue). Fig. 15: Continuous fibres between separating groups of chromosomes in Allium cepa mitosis. Fig. 16: Possible mode of orientation of protein spindle molecules to form fibres

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Fig. 12: Chromosome and astral fibres of the whitefish. Fig. 13: Centrioles marking the spindle poles in Ascaris megalocephola. Fig. 14: Birefringence of the spindle (arrow) in living endosperm cells of Caemanthus katherinae. (Courtesy Dr. S. Inoue). Fig. 15: Continuous fibres between separating groups of chromosomes in Allium cepa mitosis. Fig. 16: Possible mode of orientation of protein spindle molecules to form fibres.

Fig. 12: Chromosome and astral fibres of the whitefish. Fig. 13: Centrioles marking the spindle poles in Ascaris megalocephola. Fig. 14: Birefringence of the spindle (arrow) in living endosperm cells of Caemanthus katherinae. (Courtesy Dr. S. Inoue). Fig. 15: Continuous fibres between separating groups of chromosomes in Allium cepa mitosis. Fig. 16: Possible mode of orientation of protein spindle molecules to form fibres.

Previous Figure | Table of Contents | Figure in Context | Next Figure