| 1. |
- Escobar Galvis, Martha L., et al.
(författare)
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Heat stress response in pea involves interaction of mitochondrial nucleoside diphosphate kinase with a novel 86-kilodalton protein
- 2001
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Ingår i: Plant Physiology. - 1532-2548. ; 126:1, s. 69-77
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Tidskriftsartikel (refereegranskat)abstract
- In this work we have further characterized the first mitochondrial nucleoside diphosphate kinase (mtNDPK) isolated from plants. The mitochondrial isoform was found to be especially abundant in reproductive and young tissues. Expression of the pea (Pisum sativum L. cv Oregon sugarpod) mtNDPK was not affected by different stress conditions. However, the pea mtNDPK was found to interact with a novel 86-kD protein, which is de novo synthesized in pea leaves upon exposure to heat. Thus, we have evidence for the involvement of mtNDPK in mitochondrial heat response in pea in vivo. Studies on oligomerization revealed that mtNDPK was found in complexes of various sizes, corresponding to the sizes of e.g. hexamers, tetramers, and dimers, indicating flexibility in oligomerization. This flexibility, also found for other NDPK isoforms, has been correlated with the ability of this enzyme to interact with other proteins. We believe that the mtNDPK is involved in heat stress response in pea, possibly as a modulator of the 86-kD protein.
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| 2. |
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| 3. |
- Knorpp, Carina, et al.
(författare)
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Evidence for a novel ATP-dependent membrane-associated protease in spinach leaf mitochondria.
- 1995
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Ingår i: Biochemical Journal. - : Portland Press Ltd.. - 0264-6021 .- 1470-8728. ; 310 ( Pt 2)
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Tidskriftsartikel (refereegranskat)abstract
- We report the presence of an ATP-dependent proteolytic activity in spinach (Spinacia oleracea) leaf mitochondria. The proteolysis was observed as degradation of newly imported precursor protein. The precursor studied was that of the ATP synthase F1 beta subunit of Nicotiana plumbaginifolia, transcribed and translated in vitro. Degradation of pre-F1 beta was observed during kinetic studies of import in vitro. The degradation was characterized in chase experiments in which the precursor was imported into mitochondria. The import reaction was subsequently stopped by the addition of valinomycin and oligomycin. The fate of the imported precursor inside the mitochondria was monitored under different experimental conditions. There was no proteolytic degradation of the newly imported precursor at 15 degrees C, whereas 50% of the precursor was degraded after a 45 min incubation at 25 degrees C. The proteolytic activity was found to be ATP-dependent and was partially inhibited by a metal chelator, o-phenanthroline. Fractionation of mitochondria prior to degradation showed that all the ATP-dependent degradative activity was associated with the mitochondrial membrane fraction. The membrane-bound protease was inhibited by Pefabloc [4-(2-aminoethyl)-benzenesulphonyl fluoride hypochloride], an inhibitor of serine-type proteases and by N-ethylmaleimide, a thiol group reagent. Our studies thus describe a novel ATP-dependent membrane-associated serine-type protease in plant mitochondria that is capable of degrading newly imported non-assembled proteins.
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| 4. |
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| 5. |
- Knorpp, Carina, et al.
(författare)
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Tissue-specific differences of the mitochondrial protein import machinery : in vitro import, processing and degradation of the pre-F1β subunit of the ATP synthase in spinach leaf and root mitochondria
- 1994
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Ingår i: Plant Molecular Biology. - 0167-4412 .- 1573-5028. ; 26:2, s. 571-579
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Tidskriftsartikel (refereegranskat)abstract
- In this study we report the first comparison of the mitochondrial protein import and processing events in two different tissues from the same organism. Both spinach leaf and root mitochondria were able to import and process the in vitro transcribed and translated Neurospora crassa F1 subunit of ATP synthase to the mature size product. Temperature optimum for protein import, 20 °C, was considerably lower than that found in other systems. In spinach leaf mitochondria, the processing peptidase has been shown to constitute an integral part of the bc1 complex of the respiratory chain. In accordance with these results, the majority of the processing activity in root mitochondria was also localized in the membrane. However, although the same amount of the processing peptidase was present per mg of membrane protein in both leaf and root mitochondria, as determined immunologically, the specific processing activity was several-fold higher in roots. Furthermore, in contrast to the processing enzyme in leaf, a portion of the processing activity could be disassociated from the root membrane with relatively weak salt treatment. The processing event in both the leaf and root membranes was always accompanied by a degradation of the F1 precursor. The degradation activity was found to be several-fold higher in roots than in leaves and was also partially dissociated from the membrane after salt treatment. Both the processing and degradation activities were inhibited by orthophenanthroline, a known metalloprotease inhibitor. These results show tissue-specific differencies of the processing event catalyzed by the bc1 complex and indicate the presence of two populations of the processing peptidase in root mitochondria.
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| 6. |
- Szigyarto, Cristina, et al.
(författare)
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A matrix-located processing peptidase of plant mitochondria.
- 1998
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Ingår i: Plant Molecular Biology. - 0167-4412 .- 1573-5028. ; 36:1
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Tidskriftsartikel (refereegranskat)abstract
- Nuclear-encoded mitochondrial precursor proteins are proteolytically processed inside the mitochondrion after import. The general mitochondrial processing activity in plant mitochondria has been shown to be integrated into the cytochrome bc1 complex of the respiratory chain. Here we investigate the occurrence of an additional, matrix-located processing activity by incubation of the precursors of the soybean mitochondrial proteins, alternative oxidase, the FAd subunit of the ATP synthetase and the tobacco F1 beta subunit of the ATP synthase, with the membrane and soluble components of mitochondria isolated from soybean cotyledons and spinach leaves. A matrix-located peptidase specifically processed the precursors to the predicted mature form in a reaction which was sensitive to orthophenanthroline, a characteristic inhibitor of mitochondrial processing peptidase (MPP). The specificity of the matrix peptidase was illustrated by the inhibition of processing of the alternative oxidase precursor in both soybean and spinach matrix extracts upon altering a single amino acid residue in the targeting presequence (-2 Arg to Gly). Additionally, there was no evidence for general proteolysis of precursor proteins incubated with the matrix. The purity of the matrix fractions was ascertained by spectrophotometric and immunological analyses. The results demonstrate that there is a specific processing activity in the matrix of soybean and spinach in addition to the previously well characterized membrane-bound MPP integrated into the cytochrome bcl complex of the respiratory chain.
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