Abstract
Mitochondria are essential organelles involved in the production and supply of energy in eukaryotic cells. Recently, the use of serial section scanning electron microscopy (S3EM) has allowed accurate three-dimensional (3D) reconstructed images of even complex organelle structures. Using this method, ultrathin sections of etiolated cotyledons were observed 4 days after germination of Arabidopsis thaliana in the dark, and giant mitochondria were found. To exclude the possibility of chemical fixation artifacts, this study confirmed the presence of giant mitochondria in high-pressure frozen samples. The 3D reconstructed giant mitochondria had a complex structure that included not only the elongated region but also the flattened shape of a disk. It contained the characteristic sheet structure, and the sheet lacked cristae and matrix but consisted of outer and inner membranes. Whether this phenomenon could be observed in living cells was investigated using the transformant with mitochondrial matrix expressing green fluorescent protein. Small globular mitochondria observed in light-treated samples were also represented in etiolated cotyledons. Although no giant mitochondria were observed in light-treated samples, they were found in the dark 3 days after germination and rapidly increased in number on the fourth day. Therefore, giant mitochondria were observed only in dark samples. These findings were supported by electron microscopy results.
Highlights
Mitochondria, bound by a double membrane, are essential organelles for eukaryotes
Cotyledons of etiolated Arabidopsis seedlings grown for 4 days in the continuous dark after germination were observed by the S3EM method
Germination and growth of Arabidopsis seeds in the dark revealed etiolated cotyledons that contained a considerable number of giant and complex mitochondria that appeared on the fourth day
Summary
Mitochondria, bound by a double membrane, are essential organelles for eukaryotes. Their primary function is toSaki Fukushima and Kae Akita contributed to this work. Mitochondria, bound by a double membrane, are essential organelles for eukaryotes. The loss of mitochondrial membrane potential (MMP) triggers a structural change in mitochondria from a tubular to a globular shape, referred to as mitochondrial fragmentation (Miyazono et al 2018). Energy-demanding mammalian cells have more elongated mitochondria, whereas energy-rich cells appear to fragment (Liesa and Shirihai 2013). Mitochondria in the axons of highly active neurons contain larger and denser packed lamellar cristae than in less active neurons (Cserep et al 2018). Mitochondria of neurons are arranged in different sizes depending on their cellular locations (Delgado et al 2019)
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