Abstract
In cell divisions, relative size of daughter cells should play fundamental roles in gametogenesis and embryogenesis. Differences in gamete size between the two mating types underlie sexual selection. Size of daughter cells is a key factor to regulate cell divisions during cleavage. In cleavage, the form of cell divisions (equal/unequal in size) determines the developmental fate of each blastomere. However, strict validation of the form of cell divisions is rarely demonstrated. We cannot distinguish between equal and unequal cell divisions by analysing only the mean size of daughter cells, because their means can be the same. In contrast, the dispersion of daughter cell size depends on the forms of cell divisions. Based on this, we show that gametogenesis in the marine green alga, Monostroma angicava, exhibits equal size cell divisions. The variance and the mean of gamete size (volume) of each mating type measured agree closely with the prediction from synchronized equal size cell divisions. Gamete size actually takes only discrete values here. This is a key theoretical assumption made to explain the diversified evolution of isogamy and anisogamy in marine green algae. Our results suggest that germ cells adopt equal size cell divisions during gametogenesis.
Highlights
The establishment of the D quadrant which serves as a dorsal organizer[14,15]
In Monostroma angicava, it has been suggested that gamete release is controlled by an inducer that is excreted from matured gametangia under light[24]
We can predict the size of gametes of each mating type based on size data of gametangia and the number of gametes formed in each gametangium, assuming various forms of cell divisions
Summary
The establishment of the D (dorsal) quadrant which serves as a dorsal organizer[14,15]. In unequal cleavage observed in Aplacophora, Scaphopoda, Oligochaeta and other classes, one larger cell and the other three smaller cells are produced in the first two cell divisions These unequal divisions segregate key vegetal factors[17], and the bigger cell is specified as the D quadrant[16,18]. We took advantage of the synchronous cell divisions during gametogenesis seen in an Ulvophyceae marine green alga, Monostroma angicava Kjellmann[19] This species has a heteromorphic haplodiplontic life cycle[20], where haploid gametophytes are distinctively different from diploid sporophytes. In some species of the genus Ulva with an isomorphic haplodiplontic life cycle with two-cell layered plants, slightly anisogametes are produced[21] Their gametogenesis and gamete release are controlled by the sporulation inhibitor and the swarming inhibitor, respectively, that are excreted between the layers of cells[22]. We compare the distribution of gamete size directly measured with those predicted assuming various ratios of cytoplasmic divisions in each mating type
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