We have developed a positive selection system for the isolation of Saccharomyces cerevisiae mutants with disturbed peroxisomal functions. The selection is based on the lethality of hydrogen peroxide (H2O2) that is produced in wild type cells during the peroxisomal beta-oxidation of fatty acids. In total, 17 mutants having a general impairment of peroxisome biogenesis were isolated, as revealed by their inability to grow on oleic acid as the sole carbon source and their aberrant cell fractionation pattern of peroxisomal enzymes. The mutants were shown to have monogenetic defects and to fall into 12 complementation groups. Representative members of each complementation group were morphologically examined by immunocytochemistry using EM. In one mutant the induction and morphology of peroxisomes is normal but import of thiolase is abrogated, while in another the morphology differs from the wild type: stacked peroxisomal membranes are present that are able to import thiolase but not catalase. These mutants suggest the existence of multiple components involved in peroxisomal protein import. Some mutants show the phenotype characteristic of glucose-repressed cells, an indication for the interruption of a signal transduction pathway resulting in organelle proliferation. In the remaining mutants morphologically detectable peroxisomes are absent: this phenotype is also known from fibroblasts of patients suffering from Zellweger syndrome, a disorder resulting from impairment of peroxisomes.
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1 October 1992
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October 01 1992
Isolation of peroxisome assembly mutants from Saccharomyces cerevisiae with different morphologies using a novel positive selection procedure.
I Van der Leij,
I Van der Leij
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
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M Van den Berg,
M Van den Berg
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
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R Boot,
R Boot
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
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M Franse,
M Franse
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
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B Distel,
B Distel
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
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H F Tabak
H F Tabak
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
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I Van der Leij
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
M Van den Berg
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
R Boot
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
M Franse
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
B Distel
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
H F Tabak
Section for Molecular Biology, E. C. Slater Institute for Biochemical Research, University of Amsterdam, The Netherlands.
Online ISSN: 1540-8140
Print ISSN: 0021-9525
J Cell Biol (1992) 119 (1): 153–162.
Citation
I Van der Leij, M Van den Berg, R Boot, M Franse, B Distel, H F Tabak; Isolation of peroxisome assembly mutants from Saccharomyces cerevisiae with different morphologies using a novel positive selection procedure.. J Cell Biol 1 October 1992; 119 (1): 153–162. doi: https://doi.org/10.1083/jcb.119.1.153
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