Ulrike Martin scite author profile

The recent discovery of a ubiquitous translocation pathway, specifically required for proteins with a twinarginine motif in their signal peptide, has focused interest on its membrane-bound components, one of which is known as TatC. Unlike most organisms of which the genome has been sequenced completely, the Gram-positive eubacterium Bacillus subtilis contains two tatClike genes denoted tatCd and tatCy. The corresponding TatCd and TatCy proteins have the potential to be involved in the translocation of 27 proteins with putative twin-arginine signal peptides of which ϳ6 -14 are likely to be secreted into the growth medium. Using a proteomic approach, we show that PhoD of B. subtilis, a phosphodiesterase belonging to a novel protein family of which all known members are synthesized with typical twin-arginine signal peptides, is secreted via the twin-arginine translocation pathway. Strikingly, TatCd is of major importance for the secretion of PhoD, whereas TatCy is not required for this process. Thus, TatC appears to be a specificity determinant for protein secretion via the Tat pathway. Based on our observations, we hypothesize that the TatC-determined pathway specificity is based on specific interactions between TatC-like proteins and other pathway components, such as TatA, of which three paralogues are present in B. subtilis.

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The Twin-arginine Signal Peptide of PhoD and the TatAd/Cd Proteins of Bacillus subtilis Form an Autonomous Tat Translocation System

Pop¹,

Martin²,

Abel³

et al. 2002

Journal of Biological Chemistry

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The Apoptotic Capability of Coxsackievirus B3 Is Influenced by the Efficient Interaction between the Capsid Protein VP2 and the Proapoptotic Host Protein Siva

et al. 2001

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Infections with coxsackievirus B3 (CVB3) are common causes of myocarditis in humans. One detail of CVB3-induced pathogenesis is apoptosis. The interaction between the capsid protein VP2 of the myocardial virus variant CVB3H3 and the proapoptotic host cell protein Siva has recently been observed. In order to characterize the interaction between both proteins more precisely, the binding activity of the CVB3H3 VP2 to Siva was compared to that of the mutant virus CVB3H310A1 VP2. We found that the asparagine at position 165 in VP2 is essential for a stable interaction with Siva influencing also the induction of apoptosis, viral spread, and inflammatory responses in vivo. Furthermore, the specific binding site of Siva to VP2 is located at amino acid positions 118-136. Together, these results show that the interaction between VP2 of CVB3H3 and Siva is a highly specific process involving distinct amino acids on both proteins that most likely influence the outcome of CVB3-caused disease.

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Interferon-γ-Induced Activation of Nitric Oxide-Mediated Antiviral Activity of Macrophages Caused by a Recombinant Coxsackievirus B3

et al. 2005

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Cardiovascular disease is one of the major causes of human death and has been linked to many different risks including viral infections. Coxsackievirus B3 (CVB3) is one of the most important pathogens responsible for virus-induced myocarditis. Cytokines are normally involved in the control of CVB3 replication and pathogenesis. Among them, interferon-gamma (IFN-gamma) in particular is highly protective against CVB3. A novel strategy to circumvent virus-caused heart disease is based on the development of cytokine-expressing recombinant virus vectors. Using in vitro co-culture experiments, the release of IFN-gamma by the recombinant virus variant CVB3/IFN-gamma activates the expression of the inducible nitric oxide synthase (iNOS) in CVB3 non-susceptible murine macrophages and the release of nitric oxide (NO), which reduce coxsackieviral replication directly. In addition, the expression of IFN-gamma by CVB3/IFN-gamma contributes to protect mice from lethal infections by iNOS induction in murine peritoneal macrophages, viral load reduction, and pancreatic tissue protection.

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Antiviral effects of pan-caspase inhibitors on the replication of coxsackievirus B3

et al. 2007

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The induction of apoptosis during coxsackievirus B3 (CVB3) infection is well documented. In order to study whether the inhibition of apoptosis has an impact on CVB3 replication, the pan-caspase inhibitor Z-VAD-FMK was used. The decreased CVB3 replication is based on reduced accumulation of both viral RNA and viral proteins. These effects are due to an inhibitory influence of Z-VAD-FMK on the proteolytic activity of the CVB3 proteases 2A and 3C, which was demonstrated by using the target protein poly(A)-binding protein (PABP). The antiviral effect of the structurally different pan-caspase inhibitor Q-VD-OPH was independently of the viral protease inhibition and resulted in suppression of virus progeny production and impaired release of newly produced CVB3 from infected cells. A delayed release of cytochrome c into the cytoplasm was detected in Q-VD-OPH-treated CVB3-infected cells pointing to an involvement of caspases in the initial steps of mitochondrial membrane-permeabilization.

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Ulrike Martin

TatC Is a Specificity Determinant for Protein Secretion via the Twin-arginine Translocation Pathway

The Twin-arginine Signal Peptide of PhoD and the TatAd/Cd Proteins of Bacillus subtilis Form an Autonomous Tat Translocation System

The Apoptotic Capability of Coxsackievirus B3 Is Influenced by the Efficient Interaction between the Capsid Protein VP2 and the Proapoptotic Host Protein Siva

Interferon-γ-Induced Activation of Nitric Oxide-Mediated Antiviral Activity of Macrophages Caused by a Recombinant Coxsackievirus B3

Antiviral effects of pan-caspase inhibitors on the replication of coxsackievirus B3

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