Improved Technique for Electron Microscope Visualization of Yeast Membrane Structure

Christoph Bauer; Volker Herzog; Matthias F. Bauer

doi:10.1007/S10005-001-0020-4

Abstract

Yeast cells represent a powerful model system in cell biology mainly due to their amenability to genetic manipulations. Increasingly, studies focus on mutant genes resulting in alterations of cellular structures and organelles. To ascertain the phenotypic changes involved, it is often desirable to use the resolving power of electron microscopy. In contrast to higher eukaryotic cells, yeast cells are particularly difficult to preserve mainly due to the presence of a thick cell wall that acts as a barrier against diffusion of fixatives. Although several procedures are targeted to overcome these difficulties, none of them have become established as a standard procedure. As a consequence, electron microscopy is still not used routinely as a tool in yeast cell biology. This prompted us to develop an easy-to-follow protocol for yeast transmission electron microscopy that should be useful in all cases where membrane integrity and organelle morphology is emphasized. One means of making the yeast cytoplasm more attainable to fixation and staining solutions is by enzymatic digestion of the cell wall. Following this approach, we were able to reliably preserve yeast cells and their cellular organelles. Enzymatic treatment with zymolyase 20T to partially remove the yeast cell wall allowed the fixation, preservation, and visualization of the yeast cytoplasm revealing detailed ultrastructure. The advancement of this technique is demonstrated with mitochondria as a model organelle. Our studies on various yeast mutants clearly show the power of the enzymatic digestion technique in visualizing subtle changes of membrane structure and organelle morphology.

Footnotes

C. Bauer is now at Howard Hughes Medical Institute, Department of Molecular Genetics and Cell Biology, University of Chicago, 5841 S. Maryland, Chicago, IL 60637.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

2002. Current Awareness. Yeast, Vol. 19, Issue. 5, p. 467.

Zaccheo, Oliver Dinsdale, David Meacock, Peter A. and Glynn, Paul 2004. Neuropathy Target Esterase and Its Yeast Homologue Degrade Phosphatidylcholine to Glycerophosphocholine in Living Cells. Journal of Biological Chemistry, Vol. 279, Issue. 23, p. 24024.

Maldonado, Manuel Cortadellas, Nuria Trillas, Maria Isabel and Rützler, Klaus 2005. Endosymbiotic Yeast Maternally Transmitted in a Marine Sponge. The Biological Bulletin, Vol. 209, Issue. 2, p. 94.

Heymann, Jurgen A.W. Hayles, Mike Gestmann, Ingo Giannuzzi, Lucille A. Lich, Ben and Subramaniam, Sriram 2006. Site-specific 3D imaging of cells and tissues with a dual beam microscope. Journal of Structural Biology, Vol. 155, Issue. 1, p. 63.

Dürr, Mark Escobar-Henriques, Mafalda Merz, Sandra Geimer, Stefan Langer, Thomas Westermann, Benedikt and Schmid, Sandra 2006. Nonredundant Roles of Mitochondria-associated F-Box Proteins Mfb1 and Mdm30 in Maintenance of Mitochondrial Morphology in Yeast. Molecular Biology of the Cell, Vol. 17, Issue. 9, p. 3745.

García‐Leiro, A. Cerdán, M. E. and González‐Siso, M. I. 2010. A functional analysis of Kluyveromyces lactis glutathione reductase. Yeast, Vol. 27, Issue. 7, p. 431.

Callegari, Sylvie McKinnon, Ross A. Andrews, Stuart and de Barros Lopes, Miguel A. 2011. TheMEF2gene is essential for yeast longevity, with a dual role in cell respiration and maintenance of mitochondrial membrane potential. FEBS Letters, Vol. 585, Issue. 8, p. 1140.

Hoppins, Suzanne Collins, Sean R. Cassidy-Stone, Ann Hummel, Eric DeVay, Rachel M. Lackner, Laura L. Westermann, Benedikt Schuldiner, Maya Weissman, Jonathan S. and Nunnari, Jodi 2011. A mitochondrial-focused genetic interaction map reveals a scaffold-like complex required for inner membrane organization in mitochondria. Journal of Cell Biology, Vol. 195, Issue. 2, p. 323.

Connerth, Melanie Tatsuta, Takashi Haag, Mathias Klecker, Till Westermann, Benedikt and Langer, Thomas 2012. Intramitochondrial Transport of Phosphatidic Acid in Yeast by a Lipid Transfer Protein. Science, Vol. 338, Issue. 6108, p. 815.

Ha, Jung Hwan Gang, Min-Kyung Khan, Taous and Park, Joong Kon 2012. Evaluation of sediments of the waste from beer fermentation broth for bioethanol production. Korean Journal of Chemical Engineering, Vol. 29, Issue. 9, p. 1224.

Itoh, Kie Tamura, Yasushi Iijima, Miho Sesaki, Hiromi and Fox, Thomas D. 2013. Effects of Fcj1-Mos1 and mitochondrial division on aggregation of mitochondrial DNA nucleoids and organelle morphology. Molecular Biology of the Cell, Vol. 24, Issue. 12, p. 1842.

Dhamgaye, Sanjiveeni Devaux, Frédéric Vandeputte, Patrick Khandelwal, Nitesh Kumar Sanglard, Dominique Mukhopadhyay, Gauranga Prasad, Rajendra and Chauhan, Neeraj 2014. Molecular Mechanisms of Action of Herbal Antifungal Alkaloid Berberine, in Candida albicans. PLoS ONE, Vol. 9, Issue. 8, p. e104554.

Zavala, Eder Marquez-Lago, Tatiana T. and Burrage, Kevin 2014. The Long and Viscous Road: Uncovering Nuclear Diffusion Barriers in Closed Mitosis. PLoS Computational Biology, Vol. 10, Issue. 7, p. e1003725.

Morya, V. K. Dong, Shin Jae and Kim, Eun-ki 2014. Production and Characterization Te-Peptide by Induced Autolysis of Saccharomyces Cerevisiae. Applied Biochemistry and Biotechnology, Vol. 172, Issue. 7, p. 3390.

He, Yue Yam, Candice Pomraning, Kyle Chin, Jacqueline S. R. Yew, Joanne Y. Freitag, Michael Oliferenko, Snezhana and Glick, Benjamin S. 2014. Increase in cellular triacylglycerol content and emergence of large ER-associated lipid droplets in the absence of CDP-DG synthase function. Molecular Biology of the Cell, Vol. 25, Issue. 25, p. 4083.

Klecker, Till Wemmer, Megan Haag, Mathias Weig, Alfons Böckler, Stefan Langer, Thomas Nunnari, Jodi and Westermann, Benedikt 2015. Interaction of MDM33 with mitochondrial inner membrane homeostasis pathways in yeast. Scientific Reports, Vol. 5, Issue. 1,

Harner, Max E Unger, Ann-Katrin Geerts, Willie JC Mari, Muriel Izawa, Toshiaki Stenger, Maria Geimer, Stefan Reggiori, Fulvio Westermann, Benedikt and Neupert, Walter 2016. An evidence based hypothesis on the existence of two pathways of mitochondrial crista formation. eLife, Vol. 5, Issue. ,

Sinzel, Monika Tan, Tao Wendling, Philipp Kalbacher, Hubert Özbalci, Cagakan Chelius, Xenia Westermann, Benedikt Brügger, Britta Rapaport, Doron and Dimmer, Kai Stefan 2016. Mcp3 is a novel mitochondrial outer membrane protein that follows a unique IMP‐dependent biogenesis pathway. EMBO reports, Vol. 17, Issue. 7, p. 965.

Nair, Remya Shariq, Mohd Dhamgaye, Sanjiveeni Mukhopadhyay, Chinmay K. Shaikh, Shamim and Prasad, Rajendra 2017. Non-heat shock responsive roles of HSF1 in Candida albicans are essential under iron deprivation and drug defense. Biochimica et Biophysica Acta (BBA) - Molecular Cell Research, Vol. 1864, Issue. 2, p. 345.

Xu, Xiaoqing Qiao, Yu Peng, Qing Gao, Long and Shi, Bo 2017. Inhibitory effects of YCW and MOS from Saccharomyces cerevisiae on Escherichia coli and Salmonella pullorum adhesion to Caco-2 cells. Frontiers in Biology, Vol. 12, Issue. 5, p. 370.

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Improved Technique for Electron Microscope Visualization of Yeast Membrane Structure

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