A microspectrofluorometric analysis of nuclear and chloroplast DNA in Volvox

Abstract

Nuclear division immediately follows nuclear DNA doubling in all stages of the life cycle examined in the green alga Volvox; fluorescence microfluorometry of individual cells revealed no evidence of prolonged accumulation of nuclear DNA prior to mitosis in reproductive cells. Somatic cell nuclear DNA quantity is unaffected by developmental events in gonidia of the same spheroid; it remains constant from the end of cleavage until the death of the cell. In reproductive cells, chloroplast DNA replication precedes nuclear replication. The sites of plastid DNA accumulation, made visible by use of the fluorochrome 4′,6-diamidino-2-phenylindole, increase in number during the prolonged growth phase of the V. carteri gonidium. Microspectrofluorometry of fluorochrome-stained DNA in situ shows that plastid DNA increases exponentially throughout this phase. The continuous plastid DNA accumulation during gonidial growth appears to represent a prokaryote-like instead of a eukaryote-like control of DNA synthesis. Most somatic cells contain plastid DNA, and this does not increase in amount during colony growth and reproduction. Most sperm cells also contain plastid DNA, although approximately 5% of somatic cells and up to 20% of sperm cells have no discernable plastid DNA. This is the second group of organisms in which DNA-free plastids have been observed.