Chlamydomonas
is an unicellular green alga that contains one cup-shaped chloroplast with about 60 copies of cpDNA. Chloroplasts (cp) multiply in the cytoplasm of the plant cell by binary division, with multiple copies of cpDNA transmitted and maintained in successive generations. The effect of cpDNA copy number on cell proliferation and aging was investigated using a C. reinhardtii moc mutant, which has an undispersed cp-nucleoid and unequal segregation of cpDNA during cell division. When the mother cell divided into four daughters, one moc daughter cell chloroplast contained about 60 copies of cpDNA, and the chloroplasts in the three other daughter cells contained the 4–7 copies of cpDNA. In liquid medium, the number of moc cells at the period of stationary phase was about one-third that of the wild type. To observe the process of proliferation and aging in the mother cell, we used solid medium. Three out of four moc cell spores were preferentially degenerated 60 days after cell transfer. To confirm this, wild-type and moc mother cells containing four daughter cells were treated with novobiocin to inhibit cpDNA replication. Cell degeneration increased only in the moc strain following novobiocin introduction. In total, our results suggest that cells possessing smaller amounts of cpDNA degenerate and age more rapidly.
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Received 7 September 2000/ Accepted in revised form 14 February 2001
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Misumi, O., Nishimura, Y. & Kuroiwa, T. Effects of Chloroplast DNA Content on the Cell Proliferation and Aging in Chlamydomonas reinhardtii . J Plant Res 114, 125–131 (2001). https://doi.org/10.1007/PL00013975
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DOI: https://doi.org/10.1007/PL00013975