Astrid Schwaiger scite author profile

Faithful segregation of chromosomes and plasmids is a vital prerequisite to produce viable and genetically identical progeny. Bacteria use a specialized segregation system composed of the partitioning proteins ParA and ParB to segregate certain plasmids. Strikingly, homologues of ParA and ParB are found to be encoded in many chromosomes. Although mutations in the chromosomal Par system have effects on segregation efficiency, the exact mechanism by which the chromosomes are segregated into the daughter cells is not fully understood. We describe the polar localization of the ParB origin nucleoprotein complex in the actinomycete Corynebacterium glutamicum. ParB and the origin of replication were found to be stably localized to the cell poles. After replication, the origins move toward the opposite pole. Purified ParB was able to bind to the parS consensus sequence in vitro. C. glutamicum possesses two ParA-like partitioning ATPase proteins. Both proteins interact with ParB but show a slightly different subcellular localization and phenotype. While ParA might be part of a conventional partitioning system, PldP seems to play a role in division site selection.

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Genetic and biochemical analysis of the serine/threonine protein kinases PknA, PknB, PknG and PknL of Corynebacterium glutamicum: evidence for non‐essentiality and for phosphorylation of OdhI and FtsZ by multiple kinases

Schultz

Niebisch

Schwaiger

et al. 2009

Molecular Microbiology

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We previously showed that the 2-oxoglutarate dehydrogenase inhibitor protein OdhI of Corynebacterium glutamicum is phosphorylated by PknG at Thr14, but that also additional serine/threonine protein kinases (STPKs) can phosphorylate OdhI. To identify these, a set of three single (ΔpknA, ΔpknB, ΔpknL), five double (ΔpknAG, ΔpknAL, ΔpknBG, ΔpknBL, ΔpknLG) and two triple deletion mutants (ΔpknALG, ΔpknBLG) were constructed. The existence of these mutants shows that PknA, PknB, PknG and PknL are not essential in C. glutamicum. Analysis of the OdhI phosphorylation status in the mutant strains revealed that all four STPKs can contribute to OdhI phosphorylation, with PknG being the most important one. Only mutants in which pknG was deleted showed a strong growth inhibition on agar plates containing glutamine as carbon and nitrogen source. Thr14 and Thr15 of OdhI were shown to be phosphorylated in vivo, either individually or simultaneously, and evidence for up to two additional phosphorylation sites was obtained. Dephosphorylation of OdhI was shown to be catalysed by the phospho-Ser/Thr protein phosphatase Ppp. Besides OdhI, the cell division protein FtsZ was identified as substrate of PknA, PknB and PknL and of the phosphatase Ppp, suggesting a role of these proteins in cell division.

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By Regulating Mitochondrial Ca2+-Uptake UCP2 Modulates Intracellular Ca2+

et al. 2016

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IntroductionThe possible role of UCP2 in modulating mitochondrial Ca2+-uptake (mCa2+-uptake) via the mitochondrial calcium uniporter (MCU) is highly controversial.MethodsThus, we analyzed mCa2+-uptake in isolated cardiac mitochondria, MCU single-channel activity in cardiac mitoplasts, dual Ca2+-transients from mitochondrial ((Ca2+)m) and intracellular compartment ((Ca2+)c) in the whole-cell configuration in cardiomyocytes of wild-type (WT) and UCP2-/- mice.ResultsIsolated mitochondria showed a Ru360 sensitive mCa2+-uptake, which was significantly decreased in UCP2-/- (229.4±30.8 FU vs. 146.3±23.4 FU, P<0.05). Single-channel registrations confirmed a Ru360 sensitive voltage-gated Ca2+-channel in mitoplasts, i.e. mCa1, showing a reduced single-channel activity in UCP2-/- (Po,total: 0.34±0.05% vs. 0.07±0.01%, P<0.05). In UCP2-/- cardiomyocytes (Ca2+)m was decreased (0.050±0.009 FU vs. 0.021±0.005 FU, P<0.05) while (Ca2+)c was unchanged (0.032±0.002 FU vs. 0.028±0.004 FU, P>0.05) and transsarcolemmal Ca2+-influx was inhibited suggesting a possible compensatory mechanism. Additionally, we observed an inhibitory effect of ATP on mCa2+-uptake in WT mitoplasts and (Ca2+)m of cardiomyocytes leading to an increase of (Ca2+)c while no ATP dependent effect was observed in UCP2-/-.ConclusionOur results indicate regulatory effects of UCP2 on mCa2+-uptake. Furthermore, we propose, that previously described inhibitory effects on MCU by ATP may be mediated via UCP2 resulting in changes of excitation contraction coupling.

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Connexin 43 acts as a cytoprotective mediator of signal transduction by stimulating mitochondrial KATP channels in mouse cardiomyocytes

Rottlaender

Boengler²,

Wolny³

et al. 2012

J. Clin. Invest.

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Connexin 43 acts as a cytoprotective mediator of signal transduction by stimulating mitochondrial KATP channels in mouse cardiomyocytes

Rottlaender¹,

Boengler²,

Wolny³

et al. 2010

J. Clin. Invest.

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