The dynamic behaviour of mitochondria in living zygotes during maturation and meiosis in Chlamydomonas reinhardtii

Abstract

To understand fully the function of mitochondria during the development of cells and organs, it is important to elucidate the dynamics of their morphology. However, the detailed morphology of mitochondria during meiosis has not yet been studied in algae. We examined the mitochondrial morphology of Chlamydomonas reinhardtii and classified zygotes into seven types by mitochondrial morphology in order to analyse the morphological change in mature and meiotic zygotes. We also investigated the oxygen consumption of living zygotes and the effects of tubulin and actin polymerization inhibitors on mitochondria, using fluorescence microscopy and oxygen electrodes. During zygote maturation, mitochondria fragmented into small particles, with a large decrease in oxygen consumption. When mature zygotes were exposed to light, mitochondria became tubular and formed a network, and oxygen consumption gradually recovered. At the same time, particle-like mitochondrial nucleoids became stringy and produced new nucleoid particles. Tubular mitochondria accumulated around the cell nucleus and then spread throughout the cell. Cell division followed (first and second rounds), and the resultant daughter cells had tubular mitochondria in a mesh-like arrangement. An inhibitor of tubulin polymerization, demecolcine, inhibited the assembly of mitochondria around the cell nucleus, whereas an inhibitor of actin polymerization, latrunculin B, inhibited the formation of tubular mitochondria. These results suggest that microtubules are probably involved in mitochondrial accumulation around the cell nucleus, whereas microfilaments may maintain the tubular network of mitochondria.