Simone Schmitz scite author profile

Pseudomonas putida strains are being developed as microbial production hosts for production of a range of amphiphilic and hydrophobic biochemicals. P. putida's obligate aerobic growth thereby can be an economical and technical challenge because it requires constant rigorous aeration and often causes reactor foaming. Here, we engineered a strain of P. putida KT2440 that can produce phenazine redox-mediators from Pseudomonas aeruginosa to allow partial redox balancing with an electrode under oxygen-limited conditions. P. aeruginosa is known to employ its phenazine-type redox mediators for electron exchange with an anode in bioelectrochemical systems (BES). We transferred the seven core phenazine biosynthesis genes phzA-G and the two specific genes phzM and phzS required for pyocyanin synthesis from P. aeruginosa on two inducible plasmids into P. putida KT2440. The best clone, P. putida pPhz, produced 45 mg/L pyocyanin over 25 h of growth, which was visible as blue color formation and is comparable to the pyocyanin production of P. aeruginosa. This new strain was then characterized under different oxygen-limited conditions with electrochemical redox control and changes in central energy metabolism were evaluated in comparison to the unmodified P. putida KT2440. In the new strain, phenazine synthesis with supernatant concentrations up to 33 μg/mL correlated linearly with the ability to discharge electrons to an anode, whereby phenazine-1-carboxylic acid served as the dominating redox mediator. P. putida pPhz sustained strongly oxygen-limited metabolism for up to 2 weeks at up to 12 μA/cm2 anodic current density. Together, this work lays a foundation for future oxygen-limited biocatalysis with P. putida strains.

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Effects of a dietary application of a yeast cell wall extract on innate and acquired immunity, on oxidative status and growth performance in weanling piglets and on the ileal epithelium in fattened pigs

Sauerwein

Schmitz

Hiss

2007

Animal Physiology Nutrition

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Potential immunomodulatory effects of a cell wall extract from Saccharomyces cerevisiae (Y; Antaferm MG) were tested in pigs: in trial I, 0.03% Y and in trial II 0.3% Y was used. Based on earlier observations that Y may increase feed intake, two treatment groups, Y-a (fed ad libitum) and Y-r (fed restrictively) were studied in comparison with a control group (C) in both trials. Y-r received the amount of feed consumed by C. Immune status was surveyed by determining phagocytic activity and oxidative burst of neutrophils and blood concentrations of haptoglobin (Hp), and immunoglobulin (Ig) G and A. Oxidative stress was monitored by recording reactive oxygen metabolites (ROM) and total antioxidant capacity. In a third trial, fattened pigs were used for morphological and immunohistochemical studies (IgM and IgA as well as CD4(+) and CD8(+) T cells) in ileal epithelium. Pigs fed 0.03% Y for 2 weeks prior to slaughter were compared with the C group. Feed intake was identical in the Y-a and Y-b groups and data subsets were accordingly pooled. Treatment and time as well as treatment x time interactions were detectable for most of the parameters studied, but a distinct immunomodulatory effect of Y was not consistently identifiable and performance did not improve. In trial III, the intestinal parameters investigated were not different between Y and C.

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Expanding the molecular toolkit for the homoacetogen Clostridium ljungdahlii

Molitor

Kirchner

Henrich

et al. 2016

Sci Rep

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Increasing interest in homoacetogenic bacteria for the production of biochemicals and biofuels requisites the development of new genetic tools for these atypical production organisms. An attractive host for the conversion of synthesis gas or electricity into multi-carbon compounds is Clostridium ljungdahlii. So far only limited achievements in modifying this organism towards the production of industrially relevant compounds have been made. Therefore, there is still a strong need for developing new and optimizing existing genetic tools to efficiently access its metabolism. Here, we report on the development of a stable and reproducible transformation protocol that is applicable to C. ljungdahlii and several other clostridial species. Further, we demonstrate the functionality of a temperature-sensitive origin of replication in combination with a fluorescence marker system as important tools for future genetic engineering of this host for microbial bioproduction.

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The acute phase protein haptoglobin and its relation to oxidative status in piglets undergoing weaning-induced stress

2005

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Haptoglobin (Hp) prevents the hemoglobin driven generation of hydroxyl radicals and lipid peroxides. Hp can reduce the neutrophil respiratory burst and is an antioxidative molecule in its own right. We aimed to evaluate Hp concentrations, oxidative stress and antioxidative capacity in blood during weaning and to characterise potential relationships between these parameters. Two batches of 10 piglets each (2 trials) weaned at the age of 27-30 days were fed a starter feed mix ad libitum. Blood samples were taken 1 week before weaning and at weekly intervals thereafter. Oxidative stress was monitored via the D-ROM system, antioxidative capacity was measured with the TEAC assay and Hp concentrations were measured by ELISA. Neutrophil phagocytic activity and oxidative burst were examined via flow-cytometry. Body weights were recorded weekly. Hp concentrations were increased in both trials post-weaning (P < 0.01); oxidative stress and oxidative burst were elevated in trial I (P < 0.005). In trial I, Hp and ROM values returned to baseline levels at 6 weeks post-weaning. The piglets in trial II showed respiratory symptoms and maintained elevated Hp concentrations. ROM values and Hp were related (r = 0.58; P < 0.01). Hp and body weight gain were inversely related post-weaning.

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Boosting mediated electron transfer in bioelectrochemical systems with tailored defined microbial cocultures

Schmitz

Rosenbaum

2018

Biotech & Bioengineering

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Bioelectrochemical systems (BES) hold great promise for sustainable energy generation via a microbial catalyst from organic matter, for example, from wastewater. To improve current generation in BES, understanding the underlying microbiology of the electrode community is essential. Electron mediator producing microorganism like Pseudomonas aeruginosa play an essential role in efficient electricity generation in BES. These microbes enable even nonelectroactive microorganism like Enterobacter aerogenes to contribute to current production. Together they form a synergistic coculture, where both contribute to community welfare. To use microbial co-operation in BES, the physical and chemical environments provided in the natural habitats of the coculture play a crucial role. Here, we show that synergistic effects in defined cocultures of P. aeruginosa and E. aerogenes can be strongly enhanced toward high current production by adapting process parameters, like pH, temperature, oxygen demand, and substrate requirements. Especially, oxygen was identified as a major factor influencing coculture behavior and optimization of its supply could enhance electric current production over 400%. Furthermore, operating the coculture in fed-batch mode enabled us to obtain very high current densities and to harvest electrical energy for 1 month. In this optimized condition, the coulombic efficiency of the process was boosted to 20%, which is outstanding for mediator-based electron transfer. This study lays the foundation for a rationally designed utilization of cocultures in BES for bioenergy generation from specific wastewaters or for bioprocess sensing and for benefiting from their synergistic effects under controlled bioprocess condition.

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Simone Schmitz

Engineering mediator-based electroactivity in the obligate aerobic bacterium Pseudomonas putida KT2440

Effects of a dietary application of a yeast cell wall extract on innate and acquired immunity, on oxidative status and growth performance in weanling piglets and on the ileal epithelium in fattened pigs

Expanding the molecular toolkit for the homoacetogen Clostridium ljungdahlii

The acute phase protein haptoglobin and its relation to oxidative status in piglets undergoing weaning-induced stress

Boosting mediated electron transfer in bioelectrochemical systems with tailored defined microbial cocultures

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