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Coordination of division events in theChlamydomonas cell cycle

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Summary

At concentrations that did not affect growth, hydroxyurea and 21-deoxyadenosine inhibited DNA synthesis inChlamydomonas. Evidence that initiation of mitosis is dependent upon completion of DNA replication was provided by the arrest of inhibited cells with undivided nuclei containing undispersed nucleoli. Initiation of cytokinesis is not dependent upon progress of nuclear division since, in arrested cells, cleavage microtubules became deployed in a phycoplast and a cleavage furrow developed fully, until obstructed by the undivided nucleus. Chloroplast constriction and division also continued independently of nuclear division. It is concluded that nuclear division, cytoplasmic cleavage and chloroplast division are in separate sequences of dependent events. This is supported by flexibility of their relative timing in successive divisions, since after the first commitment to divide nuclear division is followed by initiation of cleavage and then chloroplast division, whereas following subsequent commitments these events occur in reverse time order. This flexibility of order indicates changing rates of progress through separate sequences of events.

Deposition of wall material was dependent upon the completion of cytokinesis, but this inhibition of wall deposition by incomplete cytokinesis did not extend to other daughters within the same mother cell.

These observations are correlated with our earlier data concerning the rate-limiting control points for division and a model for the coordination of division events is presented. The relationships between different plant cell cycles is discussed in view of the findings presented.

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Authors and Affiliations

  1. Department of Botany, The Queen's University of Belfast, Ireland

    J. D. I. Harper

  2. Department of Developmental Biology, RSBS, ANU, POB 475, 2601, Canberra City, ACT, Australia

    P. C. L. John

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  1. J. D. I. Harper
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  2. P. C. L. John
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Harper, J.D.I., John, P.C.L. Coordination of division events in theChlamydomonas cell cycle. Protoplasma 131, 118–130 (1986). https://doi.org/10.1007/BF01285034

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  • DOI: https://doi.org/10.1007/BF01285034

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