Molecular features, processing and import of the Rieske iron-sulfur protein from potato mitochondria

Emmermann, M.; Clericus, Monika; Braun, Hans‐Peter; Mozo, Teresa; Heins, Lisa; Kruft, Volker; Schmitz, Udo K.

doi:10.1007/bf00023243

Cited by 30 publications

(25 citation statements)

References 35 publications

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“…A spot containing the mature form of the mitochondrial Rieske Fe-S protein, a component of the mitochondrial cytochrome bc 1 complex (Emmermann et al, 1994), increased after all bacterial challenges. Remarkably, this spot was not present in the mock MgCl 2 treatment, suggesting that this represents a rapid and highly specific mitochondrial PAMP response.…”

Section: Pamp-responsive Proteins-mitochondriamentioning

confidence: 99%

Modifications to the Arabidopsis Defense Proteome Occur Prior to Significant Transcriptional Change in Response to Inoculation withPseudomonas syringae

et al. 2006

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Alterations in the proteome of Arabidopsis (Arabidopsis thaliana) leaves during responses to challenge by Pseudomonas syringae pv tomato DC3000 were analyzed using two-dimensional gel electrophoresis. Protein changes characteristic of the establishment of disease, basal resistance, and resistance-gene-mediated resistance were examined by comparing responses to DC3000, a hrp mutant, and DC3000 expressing avrRpm1, respectively. The abundance of each protein identified was compared with that of selected transcripts obtained from comparable GeneChip experiments. We report changes in three subcellular fractions: total soluble protein, chloroplast enriched, and mitochondria enriched over four time points (1.5-6 h after inoculation). In total, 73 differential spots representing 52 unique proteins were successfully identified. Many of the changes in protein spot density occurred before significant transcriptional reprogramming was evident between treatments. The high proportion of proteins represented by more than one spot indicated that many of the changes to the proteome can be attributed to posttranscriptional modifications. Proteins found to show significant change after bacterial challenge are representative of two main functional groups: defense-related antioxidants and metabolic enzymes. Significant changes to photosystem II and to components of the mitochondrial permeability transition were also identified. Rapid communication between organelles and regulation of primary metabolism through redox-mediated signaling are supported by our data.

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Section: Pamp-responsive Proteins-mitochondriamentioning

confidence: 99%

Modifications to the Arabidopsis Defense Proteome Occur Prior to Significant Transcriptional Change in Response to Inoculation withPseudomonas syringae

et al. 2006

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“…107, 1995 In plants little is known about the small subunits of the bcj complex. Cyt c reductase from potato (Solanum tuberosum) comprises 10 subunits (Berry et al, 1991;Braun and Schmitz, 1992;Braun et al, 1994) and was shown to include the activity of the general mitochondrial processing peptidase, which cleaves off the presequences of nuclear-encoded mitochondrial precursors upon their import into the organelle (Braun et al, 1992a(Braun et al, , 1994. Here we report the identification, topography, sequence, and import pathway of the 14-kD protein from higher plants.…”

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confidence: 79%

“…Antibodies were raised against the 14-kD protein from potato and used for immunological identification of the corresponding subunits of Cyt c reductase from wheat. The proteolytic fragmentation of the 14-kD proteins from potato and wheat, the separation of the generated peptides by reverse-phase HPLC, and the N-terminal sequencing of peptides by cyclic Edman degradation are described elsewhere (Braun et al, 1994).…”

Section: Purification and Analysis Of Cyt C Reductase From Potato Andmentioning

confidence: 99%

“…Two oligonucleotide mixtures with the lowest degeneracy were derived from internal sequences of the 14-kD protein of Cyt c reductase from potato (Braun et al, 1994). The mixtures contained the full complement of sequences that could potentially encode the two octapeptides GluAsp-Leu-Gln-Ala-Met-Gln-Thr (384 combinations) and Glu-Ile-Val-Asp-Ala-Arg-Asn-Gln (2304 combinations).…”

Section: Screening Of Cdna Libraries and Dna Sequence Analysismentioning

confidence: 99%

“…Both systems allowed translation of the 14-kD protein but the reticulocyte lysate turned out to be more efficient. The isolation of mitochondria from potato for experiments on in vitro import of the 14-kD protein was described by Emmermann et al (1994). The conditions for the import experiments are detailed elsewhere (Braun and Schmitz, 1995).…”

Section: In Vitro Import Of the 14-kd Protein From Potato Into Isolatmentioning

confidence: 99%

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Molecular Features and Mitochondrial Import Pathway of the 14-Kilodalton Subunit of Cytochrome c Reductase from Potato

Braun

Schmitz

1995

Plant Physiol.

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The cytochrome c reductase complexes from fungi and mammals both contain a 14-kD protein (yeast, 14.4 kD; bovine, 13.4 kD) that does not directly participate in electron transfer but possibly is indirectly involved in the function of the complex and has a role in assembly of the multimeric enzyme. A subunit of comparable size was identified for the bc, complex of higher plants. The 14-kD protein from potato (Solanum tuberosum) was specifically separated from the isolated protein complex in the presence of 6 M urea and is, therefore, assumed to be a peripheral component. Direct sequence analysis of the proteins from potato and wheat (Triticum aestivum) and isolation of corresponding cDNA clones for the subunit from potato revealed clear similaríty to the equivalent proteins from yeast and bovine. The wheat 14-kD protein seems to occur in two isoforms. The 14-kD protein from plants is very hydrophilic, has a characteristic charge distribution, and contains no potential membrane-spanning helices. In vitro import of the radiolabeled 14-kD protein from potato into isolated mitochondria depends on the membrane potential across the inner mitochondrial membrane. The protein seems to lack a cleavable mitochondrial presequence, because it is not processed upon translocation. Possible intramolecular regions involved in targeting of the 14-kD protein to plant mitochondria are discussed.The mitochondriaI bc, complex (EC 1.10.2.2.) is the middle segment of the respiratory chain and catalyzes the reduction of Cyt c by the oxidation of ubiquinol. Coupled with this reaction it contributes to the chemiosmotic gradient across the inner mitochondrial membrane by translocating protons from the matrix to the intermembrane space. In fungi and mammals the Cyt c reductase is an oligomeric protein complex comprising 9 to 11 subunits (reviewed by Trumpower, 1990; Bechmann et al., 1992): two large "core" proteins, three respiratory proteins that directly participate in electron transport (Cyt b, Cyt cl, and the "Rieske" iron sulfur protein), and four to six small proteins with molecular masses of less than 20 kD. Since bacterial bc, complexes that contain only the respiratory subunits have the same activity as the eukaryotic enzymes (Trumpower, 19901, the role of the supplementary subunits is not quite understood. One of them is the bovine subunit VI (13.4 kD), which was shown to be similar to subunit VI1 This work was supported by the Deutsche Forschungsgemein-

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FeSRieske Center

Link

2004

Handbook of Metalloproteins

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Molecular features, processing and import of the Rieske iron-sulfur protein from potato mitochondria

Cited by 30 publications

References 35 publications

Modifications to the Arabidopsis Defense Proteome Occur Prior to Significant Transcriptional Change in Response to Inoculation withPseudomonas syringae

Modifications to the Arabidopsis Defense Proteome Occur Prior to Significant Transcriptional Change in Response to Inoculation withPseudomonas syringae

Molecular Features and Mitochondrial Import Pathway of the 14-Kilodalton Subunit of Cytochrome c Reductase from Potato

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