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The World of Protozoa, Rotifera, Nematoda and Oligochaeta

Ref ID : 4102

Deneb Karentz; Patterns of DNA Synthesis and Cell Division in Marine Dinoflagellates. J.Protozool. 30(3):581-588, 1983

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Changes in mean cell size, DNA and cell density were monitored at 6-hr intervals for 72 hr in populations of six species (eight clones) of marine dinoflagellates to determine the temporal relationships between the cell cycle events of DNA replication and cytokinesis. Batch cultures were maintained at 15 or 20 degrees C on a 12-hr light: 12-hr dark photoperiod. Cell densities and size frequency distributions were determined conductimetrically and the amount of DNA within populations was measured fluorometrically. A variety of intra- and interspecific relationships were observed, ranging from parallel phasing of cell cycle processes to variations which involved the temporal uncoupling of DNA synthesis from the phased pattern of cell division which is characteristic of dinoflagellate cell cycles. Daily growth rates of individual populations varied from 0.05 (Gymnodinium nelsoni) to 2.08 (Amphidinium carteri) cell divisions day-1 and DNA doubling rates ranged from 0 to 1.14 days-1. Mean doubling rates for DNA were usually 30-40% lower than those for cells. The degree of difference in these rates and the amount of variability evident in cell cycle sequences may be major factors in determining the rate and extent of development of dinoflagellate populations in nature.