Complex I-complex II ratio strongly differs in various organs of Arabidopsis thaliana

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Katrin Peters
  • Markus Nießen
  • Christoph Peterhänsel
  • Bettina Späth
  • Angela Hölzle
  • Stefan Binder
  • Anita Marchfelder
  • Hans Peter Braun

External Research Organisations

  • Ulm University
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Details

Original languageEnglish
Pages (from-to)273-284
Number of pages12
JournalPlant molecular biology
Volume79
Issue number3
Publication statusPublished - 17 Apr 2012

Abstract

In most studies, amounts of protein complexes of the oxidative phosphorylation (OXPHOS) system in different organs or tissues are quantified on the basis of isolated mitochondrial fractions. However, yield of mitochondrial isolations might differ with respect to tissue type due to varying efficiencies of cell disruption during organelle isolation procedures or due to tissue-specific properties of organelles. Here we report an immunological investigation on the ratio of the OXPHOS complexes in different tissues of Arabidopsis thaliana which is based on total protein fractions isolated from five Arabidopsis organs (leaves, stems, flowers, roots and seeds) and from callus. Antibodies were generated against one surface exposed subunit of each of the five OXPHOS complexes and used for systematic immunoblotting experiments. Amounts of all complexes are highest in flowers (likewise with respect to organ fresh weight or total protein content of the flower fraction). Relative amounts of protein complexes in all other fractions were determined with respect to their amounts in flowers. Our investigation reveals high relative amounts of complex I in green organs (leaves and stems) but much lower amounts in non-green organs (roots, callus tissue). In contrast, complex II only is represented by low relative amounts in green organs but by significantly higher amounts in non-green organs, especially in seeds. In fact, the complex I-complex II ratio differs by factor 37 between callus and leaf, indicating drastic differences in electron entry into the respiratory chain in these two fractions. Variation in amounts concerning complexes III, IV and V was less pronounced in different Arabidopsis tissues (quantification of complex V in leaves was not meaningful due to a cross-reaction of the antibody with the chloroplast form of this enzyme). Analyses were complemented by in gel activity measurements for the protein complexes of the OXPHOS system and comparative 2D blue native/SDS PAGE analyses using isolated mitochondria. We suggest that complex I has an especially important role in the context of photosynthesis which might be due to its indirect involvement in photorespiration and its numerous enzymatic side activities in plants.

Keywords

    Mitochondria, Oxidative phosphorylation, OXPHOS complexes, Respiratory chain, Stoichiometry

ASJC Scopus subject areas

Cite this

Complex I-complex II ratio strongly differs in various organs of Arabidopsis thaliana. / Peters, Katrin; Nießen, Markus; Peterhänsel, Christoph et al.
In: Plant molecular biology, Vol. 79, No. 3, 17.04.2012, p. 273-284.

Research output: Contribution to journalArticleResearchpeer review

Peters, K, Nießen, M, Peterhänsel, C, Späth, B, Hölzle, A, Binder, S, Marchfelder, A & Braun, HP 2012, 'Complex I-complex II ratio strongly differs in various organs of Arabidopsis thaliana', Plant molecular biology, vol. 79, no. 3, pp. 273-284. https://doi.org/10.1007/s11103-012-9911-4
Peters, K., Nießen, M., Peterhänsel, C., Späth, B., Hölzle, A., Binder, S., Marchfelder, A., & Braun, H. P. (2012). Complex I-complex II ratio strongly differs in various organs of Arabidopsis thaliana. Plant molecular biology, 79(3), 273-284. https://doi.org/10.1007/s11103-012-9911-4
Peters K, Nießen M, Peterhänsel C, Späth B, Hölzle A, Binder S et al. Complex I-complex II ratio strongly differs in various organs of Arabidopsis thaliana. Plant molecular biology. 2012 Apr 17;79(3):273-284. doi: 10.1007/s11103-012-9911-4
Peters, Katrin ; Nießen, Markus ; Peterhänsel, Christoph et al. / Complex I-complex II ratio strongly differs in various organs of Arabidopsis thaliana. In: Plant molecular biology. 2012 ; Vol. 79, No. 3. pp. 273-284.
Download
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T1 - Complex I-complex II ratio strongly differs in various organs of Arabidopsis thaliana

AU - Peters, Katrin

AU - Nießen, Markus

AU - Peterhänsel, Christoph

AU - Späth, Bettina

AU - Hölzle, Angela

AU - Binder, Stefan

AU - Marchfelder, Anita

AU - Braun, Hans Peter

N1 - Funding information: Acknowledgments This project was supported by the Deutsche Forschungsgemeinschaft (DFG), grant BR 1829/7-3.

PY - 2012/4/17

Y1 - 2012/4/17

N2 - In most studies, amounts of protein complexes of the oxidative phosphorylation (OXPHOS) system in different organs or tissues are quantified on the basis of isolated mitochondrial fractions. However, yield of mitochondrial isolations might differ with respect to tissue type due to varying efficiencies of cell disruption during organelle isolation procedures or due to tissue-specific properties of organelles. Here we report an immunological investigation on the ratio of the OXPHOS complexes in different tissues of Arabidopsis thaliana which is based on total protein fractions isolated from five Arabidopsis organs (leaves, stems, flowers, roots and seeds) and from callus. Antibodies were generated against one surface exposed subunit of each of the five OXPHOS complexes and used for systematic immunoblotting experiments. Amounts of all complexes are highest in flowers (likewise with respect to organ fresh weight or total protein content of the flower fraction). Relative amounts of protein complexes in all other fractions were determined with respect to their amounts in flowers. Our investigation reveals high relative amounts of complex I in green organs (leaves and stems) but much lower amounts in non-green organs (roots, callus tissue). In contrast, complex II only is represented by low relative amounts in green organs but by significantly higher amounts in non-green organs, especially in seeds. In fact, the complex I-complex II ratio differs by factor 37 between callus and leaf, indicating drastic differences in electron entry into the respiratory chain in these two fractions. Variation in amounts concerning complexes III, IV and V was less pronounced in different Arabidopsis tissues (quantification of complex V in leaves was not meaningful due to a cross-reaction of the antibody with the chloroplast form of this enzyme). Analyses were complemented by in gel activity measurements for the protein complexes of the OXPHOS system and comparative 2D blue native/SDS PAGE analyses using isolated mitochondria. We suggest that complex I has an especially important role in the context of photosynthesis which might be due to its indirect involvement in photorespiration and its numerous enzymatic side activities in plants.

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