Quick-Freeze, Deep-Etch Electron Microscopy Reveals the Characteristic Architecture of the Fission Yeast Spore

Quick-Freeze, Deep-Etch Electron Microscopy Reveals the Characteristic Architecture of the Fission Yeast Spore

The spore of the fission yeast <i>Schizosaccharomyces pombe</i> is a dormant cell that is resistant to a variety of environmental stresses. The <i>S. pombe</i> spore is coated by a proteinaceous surface layer, termed the Isp3 layer because it comprises mainly Isp3 protein. Al...

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Bibliographic Details
Main Authors: Yuhei O. Tahara, Makoto Miyata, Taro Nakamura
Format: Article
Language:English
Published: MDPI AG 2021-12-01
Series:Journal of Fungi
Subjects:
<i>Schizosaccharomyces pombe</i>
sporulation
cell wall
eisosome
germination
Online Access:https://www.mdpi.com/2309-608X/7/1/7
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spelling doaj-89dcd1762412442caa01e6dbc4bdbc272020-12-27T00:01:54ZengMDPI AGJournal of Fungi2309-608X2021-12-0177710.3390/jof7010007Quick-Freeze, Deep-Etch Electron Microscopy Reveals the Characteristic Architecture of the Fission Yeast SporeYuhei O. Tahara0Makoto Miyata1Taro Nakamura2Department of Biology, Graduate School of Science, Osaka City University, Sumiyoshi-ku, Osaka 558-8585, JapanDepartment of Biology, Graduate School of Science, Osaka City University, Sumiyoshi-ku, Osaka 558-8585, JapanDepartment of Biology, Graduate School of Science, Osaka City University, Sumiyoshi-ku, Osaka 558-8585, JapanThe spore of the fission yeast <i>Schizosaccharomyces pombe</i> is a dormant cell that is resistant to a variety of environmental stresses. The <i>S. pombe</i> spore is coated by a proteinaceous surface layer, termed the Isp3 layer because it comprises mainly Isp3 protein. Although thin-section electron microscopy and scanning electron microscopy have revealed the fundamental structure of the spore, its architecture remains unclear. Here we visualized <i>S. pombe</i> spores by using a quick-freeze replica electron microscopy (QFDE-EM) at nanometer resolution, which revealed novel characteristic structures. QFDE-EM revealed that the Isp3 layer exists as an interwoven fibrillar layer. On the spore cell membrane, many deep invaginations, which are longer than those on the vegetative cell membrane, are aligned in parallel. We also observed that during spore germination, the cell surface changes from a smooth to a dendritic filamentous structure, the latter being characteristic of vegetative cells. These findings provide significant insight into not only the structural composition of the spore, but also the mechanism underlying the stress response of the cell.https://www.mdpi.com/2309-608X/7/1/7<i>Schizosaccharomyces pombe</i>sporulationcell walleisosomegermination
collection DOAJ
language English
format Article
sources DOAJ
author Yuhei O. Tahara
Makoto Miyata
Taro Nakamura
spellingShingle Yuhei O. Tahara
Makoto Miyata
Taro Nakamura
Quick-Freeze, Deep-Etch Electron Microscopy Reveals the Characteristic Architecture of the Fission Yeast Spore
Journal of Fungi
<i>Schizosaccharomyces pombe</i>
sporulation
cell wall
eisosome
germination
author_facet Yuhei O. Tahara
Makoto Miyata
Taro Nakamura
author_sort Yuhei O. Tahara
title Quick-Freeze, Deep-Etch Electron Microscopy Reveals the Characteristic Architecture of the Fission Yeast Spore
title_short Quick-Freeze, Deep-Etch Electron Microscopy Reveals the Characteristic Architecture of the Fission Yeast Spore
title_full Quick-Freeze, Deep-Etch Electron Microscopy Reveals the Characteristic Architecture of the Fission Yeast Spore
title_fullStr Quick-Freeze, Deep-Etch Electron Microscopy Reveals the Characteristic Architecture of the Fission Yeast Spore
title_full_unstemmed Quick-Freeze, Deep-Etch Electron Microscopy Reveals the Characteristic Architecture of the Fission Yeast Spore
title_sort quick-freeze, deep-etch electron microscopy reveals the characteristic architecture of the fission yeast spore
publisher MDPI AG
series Journal of Fungi
issn 2309-608X
publishDate 2021-12-01
description The spore of the fission yeast <i>Schizosaccharomyces pombe</i> is a dormant cell that is resistant to a variety of environmental stresses. The <i>S. pombe</i> spore is coated by a proteinaceous surface layer, termed the Isp3 layer because it comprises mainly Isp3 protein. Although thin-section electron microscopy and scanning electron microscopy have revealed the fundamental structure of the spore, its architecture remains unclear. Here we visualized <i>S. pombe</i> spores by using a quick-freeze replica electron microscopy (QFDE-EM) at nanometer resolution, which revealed novel characteristic structures. QFDE-EM revealed that the Isp3 layer exists as an interwoven fibrillar layer. On the spore cell membrane, many deep invaginations, which are longer than those on the vegetative cell membrane, are aligned in parallel. We also observed that during spore germination, the cell surface changes from a smooth to a dendritic filamentous structure, the latter being characteristic of vegetative cells. These findings provide significant insight into not only the structural composition of the spore, but also the mechanism underlying the stress response of the cell.
topic <i>Schizosaccharomyces pombe</i>
sporulation
cell wall
eisosome
germination
url https://www.mdpi.com/2309-608X/7/1/7
work_keys_str_mv AT yuheiotahara quickfreezedeepetchelectronmicroscopyrevealsthecharacteristicarchitectureofthefissionyeastspore
AT makotomiyata quickfreezedeepetchelectronmicroscopyrevealsthecharacteristicarchitectureofthefissionyeastspore
AT taronakamura quickfreezedeepetchelectronmicroscopyrevealsthecharacteristicarchitectureofthefissionyeastspore
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