GROWTH-CONTROLLED OSCILLATION IN ACTIVITY OF HISTONE H1 KINASE DURING THE CELL CYCLE OF CHLAMYDOMONAS REINHARDTII (CHLOROPHYTA)1

Abstract

Synchronous cultures of the cell wall-less mutant Chlamydomonas reinhardtii Dangeard cw 15 were grown under different mean irradiances and different illumination regimes, which produced cell cycles that differed in the number of daughter cells released from one mother cell, in the length of the cell cycle, and in the growth rate. During the cell cycle, the cells reached several commitment points whose number and timing differed according to the particular pattern of the cell cycle. The cell volume was used as a growth parameter and increased in a stepwise manner. Each of the steps consisted of periods of both fast and slow growth. Growth usually stopped when the cells attained a volume twice that of the preceding step. Reaching particular commitment points was coupled with the position of these points in the enlargement of cell volume. Changes in the activity of histone H1 kinase were noted during the cell cycles of all experimental variants, and the activities were compared with the timing of various commitment points. It was found that kinase activity varied markedly within a single cell cycle, attaining maximal values when the cellular volume had doubled. Each peak in kinase activity slightly preceded the commitment to an individual sequence of reproductive events. In addition to the oscillations related to cell growth, a peak of kinase activity always occurred toward the end of the cell cycle when multiple rounds of DNA replication, mitosis, and cell division occurred.