Hans G. Bäckman scite author profile

Hans G. Bäckman

3Publications

38Citation Statements Received

94Citation Statements Given

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Stockholm University

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Deletion of an organellar peptidasome PreP affects early development in Arabidopsis thaliana

et al. 2009

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A novel peptidasome PreP is responsible for degradation of targeting peptides and other unstructured peptides in mitochondria and chloroplasts. Arabidopsis thaliana contains two PreP isoforms, AtPreP1, and AtPreP2. Here we have characterized single and double prep knockout mutants. Immunoblot analysis of atprep1 and atprep2 mutants showed that both isoforms are expressed in all tissues with the highest expression in flowers and siliques; additionally, AtPreP1 accumulated to a much higher level in comparison to AtPreP2. The atprep2 mutant behaved like wild type, whereas deletion of AtPreP1 resulted in slightly pale-green seedlings. Analysis of the atprep1 atprep2 double mutant revealed a chlorotic phenotype in true leaves with diminished chlorophyll a and b content, but unchanged Chl a/b ratio indicating a proportional decrease of both PSI and PSII complexes. Mitochondrial respiratory rates (state 3) were lower and the mitochondria were partially uncoupled. EM pictures on cross sections of the first true leaves showed aberrant chloroplasts, including less grana stacking and less starch granules. Mitochondria with extremely variable size could also be observed. At later developmental stages the plants appeared almost normal. However, all through the development there was a statistically significant decrease of approximately 40% in the accumulated biomass in the double mutant plants in comparison to wild type. In mitochondria, deletion of AtPreP was not compensated by activation of any peptidolytic activity, whereas chloroplast membranes contained a minor peptidolytic activity not related to AtPreP. In summary, the AtPreP peptidasome is required for efficient plant growth and organelle function particularly during early development.

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Genetic and biochemical studies of SNPs of the mitochondrial Aβ-degrading protease, hPreP

Pinho

Björk

Alikhani

et al. 2010

Neuroscience Letters

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Binding of divalent cations is essential for the activity of the organellar peptidasome in Arabidopsis thaliana, AtPreP

et al. 2009

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a b s t r a c tThe dual-targeted mitochondrial and chloroplastic zinc metallooligopeptidase from Arabidopsis, AtPreP, functions as a peptidasome that degrades targeting peptides and other small unstructured peptides. In addition to Zn located in the catalytic site, AtPreP also contains two Mg-binding sites. We have investigated the role of Mg-binding using AtPreP variants, in which one or both sites were rendered unable to bind Mg 2+ . Our results show that metal binding besides that of the active site is crucial for AtPreP proteolysis, particularly the inner site appears essential for normal proteolytic function. This is also supported by its evolutionary conservation among all plant species of PreP.

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Hans G. Bäckman

Deletion of an organellar peptidasome PreP affects early development in Arabidopsis thaliana

Genetic and biochemical studies of SNPs of the mitochondrial Aβ-degrading protease, hPreP

Binding of divalent cations is essential for the activity of the organellar peptidasome in Arabidopsis thaliana, AtPreP

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