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5. Updating genome annotation for the microbial cell factory Aspergillus niger using gene co-expression networks

Author

Schäpe, P, Kwon, MJ, Baumann, B, Gutschmann, B, Jung, S, Lenz, S, Nitsche, B, Paege, N, Schütze, T, Cairns, TC, and Meyer, V

Subjects
Peptide Biosynthesis, ddc:570, Gene Expression Regulation, Fungal, Secondary Metabolism, Gene Regulatory Networks, Data Resources and Analyses, Aspergillus niger, Genome, Fungal, Transcriptome, Transcription Factors
Abstract

A significant challenge in our understanding of biological systems is the high number of genes with unknown function in many genomes. The fungal genus Aspergillus contains important pathogens of humans, model organisms, and microbial cell factories. Aspergillus niger is used to produce organic acids, proteins, and is a promising source of new bioactive secondary metabolites. Out of the 14,165 open reading frames predicted in the A. niger genome only 2% have been experimentally verified and over 6,000 are hypothetical. Here, we show that gene co-expression network analysis can be used to overcome this limitation. A meta-analysis of 155 transcriptomics experiments generated co-expression networks for 9,579 genes (∼65%) of the A. niger genome. By populating this dataset with over 1,200 gene functional experiments from the genus Aspergillus and performing gene ontology enrichment, we could infer biological processes for 9,263 of A. niger genes, including 2,970 hypothetical genes. Experimental validation of selected co-expression sub-networks uncovered four transcription factors involved in secondary metabolite synthesis, which were used to activate production of multiple natural products. This study constitutes a significant step towards systems-level understanding of A. niger, and the datasets can be used to fuel discoveries of model systems, fungal pathogens, and biotechnology.

Published
2018

6. Fungal spore resistance to space radiation

Author

Cortesao, M., Laue, M., Schütze, T., Meyer, V., Fujimori, A., and Moeller, R.

Subjects
space radiation, Strahlenbiologie, fungi, fungal spore resistance
Abstract

Introduction: Aspergillus sp. was one of the predominant fungal genera detected aboard the Russian Space Station (Mir) as well as the International Space Station (ISS) (Checinska et al. 2015). As spore formers, filamentous fungi such as Aspergillus can pose a threat to astronauts’ health and to planetary protection (Ramage et al. 2011). Experiments exposing A. niger to radiation have been performed to create and/or validate new biotechnology relevant strains (Meyer et al., 2007). Thus, it is still not well understood to what extent fungal spores can resist to the space environment, in particular to high radiation doses. In this study, the role of pigmentation and DNA repair in the resistance of A. niger spores towards space radiation was assessed, by exposing spores to UV-C and ionizing radiation (X-rays, Fe and He ions).

Published
2019

10. Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

de Vries, R.P. Riley, R. Wiebenga, A. Aguilar-Osorio, G. Amillis, S. Uchima, C.A. Anderluh, G. Asadollahi, M. Askin, M. Barry, K. Battaglia, E. Bayram, O. Benocci, T. Braus-Stromeyer, S.A. Caldana, C. Cánovas, D. Cerqueira, G.C. Chen, F. Chen, W. Choi, C. Clum, A. dos Santos, R.A.C. de Lima Damásio, A.R. Diallinas, G. Emri, T. Fekete, E. Flipphi, M. Freyberg, S. Gallo, A. Gournas, C. Habgood, R. Hainaut, M. Harispe, M.L. Henrissat, B. Hildén, K.S. Hope, R. Hossain, A. Karabika, E. Karaffa, L. Karányi, Z. Kraševec, N. Kuo, A. Kusch, H. LaButti, K. Lagendijk, E.L. Lapidus, A. Levasseur, A. Lindquist, E. Lipzen, A. Logrieco, A.F. MacCabe, A. Mäkelä, M.R. Malavazi, I. Melin, P. Meyer, V. Mielnichuk, N. Miskei, M. Molnár, A.P. Mulé, G. Ngan, C.Y. Orejas, M. Orosz, E. Ouedraogo, J.P. Overkamp, K.M. Park, H.-S. Perrone, G. Piumi, F. Punt, P.J. Ram, A.F.J. Ramón, A. Rauscher, S. Record, E. Riaño-Pachón, D.M. Robert, V. Röhrig, J. Ruller, R. Salamov, A. Salih, N.S. Samson, R.A. Sándor, E. Sanguinetti, M. Schütze, T. Sepčić, K. Shelest, E. Sherlock, G. Sophianopoulou, V. Squina, F.M. Sun, H. Susca, A. Todd, R.B. Tsang, A. Unkles, S.E. van de Wiele, N. van Rossen-Uffink, D. de Castro Oliveira, J.V. Vesth, T.C. Visser, J. Yu, J.-H. Zhou, M. Andersen, M.R. Archer, D.B. Baker, S.E. Benoit, I. Brakhage, A.A. Braus, G.H. Fischer, R. Frisvad, J.C. Goldman, G.H. Houbraken, J. Oakley, B. Pócsi, I. Scazzocchio, C. Seiboth, B. vanKuyk, P.A. Wortman, J. Dyer, P.S. Grigoriev, I.V.

Abstract

Background: The fungal genus Aspergillus is of critical importance to humankind. Species include those with industrial applications, important pathogens of humans, animals and crops, a source of potent carcinogenic contaminants of food, and an important genetic model. The genome sequences of eight aspergilli have already been explored to investigate aspects of fungal biology, raising questions about evolution and specialization within this genus. Results: We have generated genome sequences for ten novel, highly diverse Aspergillus species and compared these in detail to sister and more distant genera. Comparative studies of key aspects of fungal biology, including primary and secondary metabolism, stress response, biomass degradation, and signal transduction, revealed both conservation and diversity among the species. Observed genomic differences were validated with experimental studies. This revealed several highlights, such as the potential for sex in asexual species, organic acid production genes being a key feature of black aspergilli, alternative approaches for degrading plant biomass, and indications for the genetic basis of stress response. A genome-wide phylogenetic analysis demonstrated in detail the relationship of the newly genome sequenced species with other aspergilli. Conclusions: Many aspects of biological differences between fungal species cannot be explained by current knowledge obtained from genome sequences. The comparative genomics and experimental study, presented here, allows for the first time a genus-wide view of the biological diversity of the aspergilli and in many, but not all, cases linked genome differences to phenotype. Insights gained could be exploited for biotechnological and medical applications of fungi. © 2017 The Author(s).

Published
2017

15. A calibrated diversity assay for nucleic acid libraries using DiStRO-a Diversity Standard of Random Oligonucleotides

Author

Schütze, T., Arndt, P., Menger, M., Wochner, A., Vingron, M., Erdmann, V., Lehrach, H., Kaps, C., and Glökler, J.

Subjects
respiratory system, human activities
Abstract

We have determined diversities exceeding 10(12) different sequences in an annealing and melting assay using synthetic randomized oligonucleotides as a standard. For such high diversities, the annealing kinetics differ from those observed for low diversities, favouring the remelting curve after annealing as the best indicator of complexity. Direct comparisons of nucleic acid pools obtained from an aptamer selection demonstrate that even highly complex populations can be evaluated by using DiStRO, without the need of complicated calculations.

Published
2010

19. Migrationsmanagement: Praktiken, Intentionen, Interventionen

Author

Sara de Jong, Messinger, I., Schütze, T., and Valchars, G.

Abstract

‚Migrationsmanagement’ ist ein politisches Konzept, das auf die Aufrechterhaltung globaler Machtverhältnisse durch die Steuerung von Migrationsbewegungen abzielt. Gescheiterte nationale Abschottungspolitiken und Migrationskontrolle sollen – so wird es von zahlreichen migrationspolitischen AkteurInnen seit Mitte der 1990er Jahre gefordert – durch die Akzeptanz von Migration als normalen und optimierbaren Prozess ersetzt werden. Die in der vorliegenden Ausgabe versammelten Beiträge beleuchten das Projekt des Migrationsmanagements, seine Diskurse, Institutionen und Reichweite.

20. Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, R. P. De, Riley, R., Wiebenga, A., Aguilar-Osorio, G., Amillis, S., Uchima, C. A., Anderluh, G., Asadollahi, M., Askin, M., Barry, K., Battaglia, E., Bayram, O., Benocci, T., Braus-Stromeyer, S. A., Caldana, C., Cánovas, D., Cerqueira, G. C., Chen, F., Chen, W., Choi, C., Clum, A., Santos, R. A. C. Dos, Lima Damásio, A. R. De, Diallinas, G., Emri, T., Fekete, E., Flipphi, M., Freyberg, S., Gallo, A., Gournas, C., Habgood, R., Hainaut, M., Harispe, M. L., Henrissat, B., Hildén, K. S., Hope, R., Hossain, A., Karabika, E., Karaffa, L., Karányi, Z., KrašEvec, N., Kuo, A., Kusch, H., LaButti, K., Lagendijk, E. L., Lapidus, A., Levasseur, A., Lindquist, E., Lipzen, A., Logrieco, A. F., MacCabe, A., Mäkelä, M. R., Malavazi, I., Melin, P., Meyer, V., Mielnichuk, N., Miskei, M., Molnár, A. P., Mulé, G., Ngan, C. Y., Orejas, M., Orosz, E., Ouedraogo, J. P., Overkamp, K. M., Park, H.-S., Perrone, G., Piumi, F., Punt, P. J., Ram, A. F. J., Ramón, A., Rauscher, S., Record, E., Riaño-Pachón, D. M., Robert, V., Röhrig, J., Ruller, R., Salamov, A., Salih, N. S., Samson, R. A., Sándor, E., Sanguinetti, M., Schütze, T., Sep?I?, K., Shelest, E., Sherlock, G., Sophianopoulou, V., Squina, F. M., Sun, H., Susca, A., Todd, R. B., Tsang, A., Unkles, S. E., Wiele, N. Van De, Rossen-Uffink, D. Van, Castro Oliveira, J. V. De, Vesth, T. C., Visser, J., Yu, J.-H., Zhou, M., Andersen, M. R., Archer, D. B., Baker, S. E., Benoit, I., Brakhage, A. A., Braus, G. H., Fischer, R., Frisvad, J. C., Goldman, G. H., Houbraken, J., Oakley, B., Pócsi, I., Scazzocchio, C., Seiboth, B., VanKuyk, P. A., Wortman, J., Dyer, P. S., and Grigoriev, I. V.

Subjects
Fungal biology, Aspergillus, Comparative genomics, 15. Life on land, Genome sequencing, 3. Good health
Abstract

Background The fungal genus Aspergillus is of critical importance to humankind. Species include those with industrial applications, important pathogens of humans, animals and crops, a source of potent carcinogenic contaminants of food, and an important genetic model. The genome sequences of eight aspergilli have already been explored to investigate aspects of fungal biology, raising questions about evolution and specialization within this genus. Results We have generated genome sequences for ten novel, highly diverse Aspergillus species and compared these in detail to sister and more distant genera. Comparative studies of key aspects of fungal biology, including primary and secondary metabolism, stress response, biomass degradation, and signal transduction, revealed both conservation and diversity among the species. Observed genomic differences were validated with experimental studies. This revealed several highlights, such as the potential for sex in asexual species, organic acid production genes being a key feature of black aspergilli, alternative approaches for degrading plant biomass, and indications for the genetic basis of stress response. A genome-wide phylogenetic analysis demonstrated in detail the relationship of the newly genome sequenced species with other aspergilli. Conclusions Many aspects of biological differences between fungal species cannot be explained by current knowledge obtained from genome sequences. The comparative genomics and experimental study, presented here, allows for the first time a genus-wide view of the biological diversity of the aspergilli and in many, but not all, cases linked genome differences to phenotype. Insights gained could be exploited for biotechnological and medical applications of fungi.

21. Transcriptomic insights into the roles of the transcription factors Clr1, Clr2 and Clr4 in lignocellulose degradation of the thermophilic fungal platform Thermothelomyces thermophilus .

Author

Siebecker B, Schütze T, Spohner S, Haefner S, and Meyer V

Abstract

Introduction: Thermothelomyces thermophilus , formerly known as Myceliophthora thermophila , is used in industry to produce lignocellulolytic enzymes and heterologous proteins. However, the transcriptional network driving the expression of these proteins remains elusive. As a first step to systematically uncover this network, we investigated growth, protein secretion, and transcriptomic fingerprints of strains deficient in the cellulolytic transcriptional regulators Clr1, Clr2, and Clr4, respectively. Methods: The genes encoding Clr1, Clr2, and Clr4 were individually deleted using split marker or the CRISPR/Cas12a technology and the resulting strains as well as the parental strain were cultivated in bioreactors under chemostat conditions using glucose as the carbon source. During steady state conditions, cellulose was added instead of glucose to study the genetic and cellular responses in all four strains to the shift in carbon source availability. Results: Notably, the clr1 and clr2 deletion strains were unable to continue to grow on cellulose, demonstrating a key role of both regulators in cellulose catabolism. Their transcriptomic fingerprints uncovered not only a lack of cellulase gene expression but also reduced expression of genes predicted to encode hemicellulases, pectinases, and esterases. In contrast, the growth of the clr4 deletion strain was very similar compared to the parental strain. However, a much stronger expression of cellulases, hemicellulases, pectinases, and esterases was observed. Discussion: The data gained in this study suggest that both transcriptional regulators Clr1 and Clr2 activate the expression of genes predicted to encode cellulases as well as hemicellulases, pectinases, and esterases. They further suggest that Clr1 controls the basal expression of cellulases and initiates the main lignocellulolytic response to cellulose via induction of clr2 expression. In contrast, Clr4 seems to act as a repressor of the lignocellulolytic response presumably via controlling clr2 expression. Comparative transcriptomics in all four strains revealed potentially new regulators in carbohydrate catabolism and lignocellulolytic enzyme expression that define a candidate gene list for future analyses., Competing Interests: SS and SH were employed by BASF SE. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The authors declare that this study received funding from BASF SE. The funder had the following involvement in the study: review of this article., (Copyright © 2023 Siebecker, Schütze, Spohner, Haefner and Meyer.)

Published
2023
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23. Colony growth and biofilm formation of Aspergillus niger under simulated microgravity.

Author

Cortesão M, Holland G, Schütze T, Laue M, Moeller R, and Meyer V

Abstract

The biotechnology- and medicine-relevant fungus Aspergillus niger is a common colonizer of indoor habitats such as the International Space Station (ISS). Being able to colonize and biodegrade a wide range of surfaces, A. niger can ultimately impact human health and habitat safety. Surface contamination relies on two key-features of the fungal colony: the fungal spores, and the vegetative mycelium, also known as biofilm. Aboard the ISS, microorganisms and astronauts are shielded from extreme temperatures and radiation, but are inevitably affected by spaceflight microgravity. Knowing how microgravity affects A. niger colony growth, in particular regarding the vegetative mycelium (biofilm) and spore production, will help prevent and control fungal contaminations in indoor habitats on Earth and in space. Because fungal colonies grown on agar can be considered analogs for surface contamination, we investigated A. niger colony growth on agar in normal gravity (Ground) and simulated microgravity (SMG) conditions by fast-clinorotation. Three strains were included: a wild-type strain, a pigmentation mutant (Δ fwnA ), and a hyperbranching mutant (Δ racA ). Our study presents never before seen scanning electron microscopy (SEM) images of A. niger colonies that reveal a complex ultrastructure and biofilm architecture, and provide insights into fungal colony development, both on ground and in simulated microgravity. Results show that simulated microgravity affects colony growth in a strain-dependent manner, leading to thicker biofilms (vegetative mycelium) and increased spore production. We suggest that the Rho GTPase RacA might play a role in A. niger 's adaptation to simulated microgravity, as deletion of Δ racA leads to changes in biofilm thickness, spore production and total biomass. We also propose that FwnA-mediated melanin production plays a role in A. niger 's microgravity response, as Δ fwnA mutant colonies grown under SMG conditions showed increased colony area and spore production. Taken together, our study shows that simulated microgravity does not inhibit A. niger growth, but rather indicates a potential increase in surface-colonization. Further studies addressing fungal growth and surface contaminations in spaceflight should be conducted, not only to reduce the risk of negatively impacting human health and spacecraft material safety, but also to positively utilize fungal-based biotechnology to acquire needed resources in situ ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Cortesão, Holland, Schütze, Laue, Moeller and Meyer.)

Published
2022
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24. From spores to fungal pellets: A new high-throughput image analysis highlights the structural development of Aspergillus niger.

Author

Müller H, Barthel L, Schmideder S, Schütze T, Meyer V, and Briesen H

Subjects
Aspergillus, Spores, Fungal, Aspergillus niger, Microscopy
Abstract

Many filamentous fungi are exploited as cell factories in biotechnology. Cultivated under industrially relevant submerged conditions, filamentous fungi can adopt different macromorphologies ranging from dispersed mycelia over loose clumps to pellets. Central to the development of a pellet morphology is the agglomeration of spores after inoculation followed by spore germination and outgrowth into a pellet population, which is usually very heterogeneous. As the dynamics underlying population heterogeneity is not yet fully understood, we present here a new high-throughput image analysis pipeline based on stereomicroscopy to comprehensively assess the developmental program starting from germination up to pellet formation. To demonstrate the potential of this pipeline, we used data from 44 sampling times harvested during a 48 h submerged batch cultivation of the fungal cell factory Aspergillus niger. The analysis of up to 1700 spore agglomerates and 1500 pellets per sampling time allowed the precise tracking of the morphological development of the overall culture. The data gained were used to calculate size distributions and area fractions of spores, spore agglomerates, spore agglomerates within pellets, pellets, and dispersed mycelia. This approach eventually enables the quantification of culture heterogeneities and pellet breakage., (© 2022 The Authors. Biotechnology and Bioengineering published by Wiley Periodicals LLC.)

Published
2022
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26. Engineering cofactor metabolism for improved protein and glucoamylase production in Aspergillus niger.

Author

Sui YF, Schütze T, Ouyang LM, Lu H, Liu P, Xiao X, Qi J, Zhuang YP, and Meyer V

Subjects
Coenzymes genetics, NADP metabolism, Pentose Phosphate Pathway, Aspergillus niger genetics, Aspergillus niger metabolism, Coenzymes metabolism, Glucan 1,4-alpha-Glucosidase biosynthesis, Metabolic Engineering, Protein Biosynthesis
Abstract

Background: Nicotinamide adenine dinucleotide phosphate (NADPH) is an important cofactor ensuring intracellular redox balance, anabolism and cell growth in all living systems. Our recent multi-omics analyses of glucoamylase (GlaA) biosynthesis in the filamentous fungal cell factory Aspergillus niger indicated that low availability of NADPH might be a limiting factor for GlaA overproduction., Results: We thus employed the Design-Build-Test-Learn cycle for metabolic engineering to identify and prioritize effective cofactor engineering strategies for GlaA overproduction. Based on available metabolomics and 13 C metabolic flux analysis data, we individually overexpressed seven predicted genes encoding NADPH generation enzymes under the control of the Tet-on gene switch in two A. niger recipient strains, one carrying a single and one carrying seven glaA gene copies, respectively, to test their individual effects on GlaA and total protein overproduction. Both strains were selected to understand if a strong pull towards glaA biosynthesis (seven gene copies) mandates a higher NADPH supply compared to the native condition (one gene copy). Detailed analysis of all 14 strains cultivated in shake flask cultures uncovered that overexpression of the gsdA gene (glucose 6-phosphate dehydrogenase), gndA gene (6-phosphogluconate dehydrogenase) and maeA gene (NADP-dependent malic enzyme) supported GlaA production on a subtle (10%) but significant level in the background strain carrying seven glaA gene copies. We thus performed maltose-limited chemostat cultures combining metabolome analysis for these three isolates to characterize metabolic-level fluctuations caused by cofactor engineering. In these cultures, overexpression of either the gndA or maeA gene increased the intracellular NADPH pool by 45% and 66%, and the yield of GlaA by 65% and 30%, respectively. In contrast, overexpression of the gsdA gene had a negative effect on both total protein and glucoamylase production., Conclusions: This data suggests for the first time that increased NADPH availability can indeed underpin protein and especially GlaA production in strains where a strong pull towards GlaA biosynthesis exists. This data also indicates that the highest impact on GlaA production can be engineered on a genetic level by increasing the flux through the pentose phosphate pathway (gndA gene) followed by engineering the flux through the reverse TCA cycle (maeA gene). We thus propose that NADPH cofactor engineering is indeed a valid strategy for metabolic engineering of A. niger to improve GlaA production, a strategy which is certainly also applicable to the rational design of other microbial cell factories.

Published
2020
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27. A Penicillium rubens platform strain for secondary metabolite production.

Author

Pohl C, Polli F, Schütze T, Viggiano A, Mózsik L, Jung S, de Vries M, Bovenberg RAL, Meyer V, and Driessen AJM

Subjects
Biosynthetic Pathways genetics, Gene Expression Regulation, Enzymologic, Gene Expression Regulation, Fungal, Genome, Fungal, Genomics methods, Multigene Family, Penicillium classification, Penicillium genetics, Peptide Synthases genetics, Peptide Synthases metabolism, Transcriptome, Metabolic Engineering, Penicillium metabolism, Secondary Metabolism
Abstract

We present a Penicillium rubens strain with an industrial background in which the four highly expressed biosynthetic gene clusters (BGC) required to produce penicillin, roquefortine, chrysogine and fungisporin were removed. This resulted in a minimal secondary metabolite background. Amino acid pools under steady-state growth conditions showed reduced levels of methionine and increased intracellular aromatic amino acids. Expression profiling of remaining BGC core genes and untargeted mass spectrometry did not identify products from uncharacterized BGCs. This platform strain was repurposed for expression of the recently identified polyketide calbistrin gene cluster and achieved high yields of decumbenone A, B and C. The penicillin BGC could be restored through in vivo assembly with eight DNA segments with short overlaps. Our study paves the way for fast combinatorial assembly and expression of biosynthetic pathways in a fungal strain with low endogenous secondary metabolite burden.

Published
2020
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28. Aspergillus niger Spores Are Highly Resistant to Space Radiation.

Author

Cortesão M, de Haas A, Unterbusch R, Fujimori A, Schütze T, Meyer V, and Moeller R

Abstract

The filamentous fungus Aspergillus niger is one of the main contaminants of the International Space Station (ISS). It forms highly pigmented, airborne spores that have thick cell walls and low metabolic activity, enabling them to withstand harsh conditions and colonize spacecraft surfaces. Whether A. nige r spores are resistant to space radiation, and to what extent, is not yet known. In this study, spore suspensions of a wild-type and three mutant strains (with defects in pigmentation, DNA repair, and polar growth control) were exposed to X-rays, cosmic radiation (helium- and iron-ions) and UV-C (254 nm). To assess the level of resistance and survival limits of fungal spores in a long-term interplanetary mission scenario, we tested radiation doses up to 1000 Gy and 4000 J/m 2 . For comparison, a 360-day round-trip to Mars yields a dose of 0.66 ± 0.12 Gy. Overall, wild-type spores of A. niger were able to withstand high doses of X-ray (LD 90 = 360 Gy) and cosmic radiation (helium-ion LD 90 = 500 Gy; and iron-ion LD 90 = 100 Gy). Drying the spores before irradiation made them more susceptible toward X-ray radiation. Notably, A. niger spores are highly resistant to UV-C radiation (LD 90 = 1038 J/m 2 ), which is significantly higher than that of other radiation-resistant microorganisms (e.g., Deinococcus radiodurans ). In all strains, UV-C treated spores (1000 J/m 2 ) were shown to have decreased biofilm formation (81% reduction in wild-type spores). This study suggests that A. niger spores might not be easily inactivated by exposure to space radiation alone and that current planetary protection guidelines should be revisited, considering the high resistance of fungal spores., (Copyright © 2020 Cortesão, de Haas, Unterbusch, Fujimori, Schütze, Meyer and Moeller.)

Published
2020
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29. Comparative genomics of the aconidial Aspergillus niger strain LDM3 predicts genes associated with its high protein secretion capacity.

Author

Sui YF, Ouyang LM, Schütze T, Cheng S, Meyer V, and Zhuang YP

Subjects
Computational Biology, Computer Simulation, Fungal Proteins metabolism, Gene Expression Regulation, Fungal, Genome, Fungal, Protein Transport, Sequence Analysis, DNA, Aspergillus niger genetics, Fungal Proteins genetics, Genomics, Secretory Pathway genetics
Abstract

Aspergillus niger is widely used as a cell factory for homologous and heterologous protein production. As previous studies reported that reduced sporulation favors protein secretion in A. niger, in this study, we conducted a comparative genomic analysis of the non-sporulating industrially exploited A. niger strain LDM3 in China and the reference protein secretion strain CBS 513.88 to predict the key genes that might define the genetic basis of LDM3's high protein-producing potential in silico. After sequencing using a hybrid approach combining Illumina and PacBio sequencing platforms, a high-quality genome sequence of LDM3 was obtained which harbors 11,209 open reading frames (ORFs). LDM3 exhibits large chromosomal rearrangements in comparison to CBS 513.88. An alignment of the two genome sequences revealed that the majority of the 457 ORFs uniquely present in LDM3 possessed predicted functions in redox pathways, protein transport, and protein modification processes. In addition, bioinformatic analyses revealed the presence of 656 ORFs in LDM3 with non-synonymous mutations encoding for proteins related to protein translation, protein modification, protein secretion, metabolism, and energy production. We studied the impact of two of these on protein production in the established lab strain N402. Both tupA and prpA genes were selected because available literature suggested their involvement in asexual sporulation of A. niger. Our co-expression network analysis supportively predicted the role of tupA in protein secretion and the role of prpA in energy generation, respectively. By knockout experiments, we showed that the ΔtupA mutant displayed reduced sporulation (35%) accompanied by higher total protein secretion (65%) compared to its parental strain. Such an effect was, however, not observed in the ΔprpA mutant.

Published
2020
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30. Local responses in restrictive national policy contexts: welfare provisions for non-removed rejected asylum seekers in Amsterdam, Stockholm and Vienna.

Author

Ataç I, Schütze T, and Reitter V

Abstract

This paper examines municipal responses to restrictive national policies by focussing on welfare provision for non-removed rejected asylum seekers. Using an analytical framework of multi-level governance, we investigate processes of conflict and cooperation and the demarcation of responsibilities between government tiers at the intersection of migration and welfare policy. In an in-depth analysis of the cases of Amsterdam, Vienna and Stockholm, we argue that in order to explain the divergences of public welfare provisions for non-removed rejected asylum seekers, it is necessary to look into their respective legal-institutional framework and formal competences, but also beyond, meaning into the relations of those municipalities with civil society actors and other local governments. We find that, on the one hand, the relationship between local NGOs and the municipality has an influence on the scope of services provided and that, on the other hand, alliance-building between municipalities is crucial for strengthening a political standing., (© 2020 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.)

Published
2020
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32. Practical guidance for the implementation of the CRISPR genome editing tool in filamentous fungi.

Author

Kwon MJ, Schütze T, Spohner S, Haefner S, and Meyer V

Abstract

Background: Within the last years, numerous reports described successful application of the CRISPR nucleases Cas9 and Cpf1 for genome editing in filamentous fungi. However, still a lot of efforts are invested to develop and improve protocols for the fungus and genes of interest with respect to applicability, scalability and targeting efficiencies. These efforts are often hampered by the fact that-although many different protocols are available-none have systematically analysed and compared different CRISPR nucleases and different application procedures thereof for the efficiency of single- and multiplex-targeting approaches in the same fungus., Results: We present here data for successful genome editing in the cell factory Thermothelomyces thermophilus , formerly known as Myceliophthora thermophila , using the three different nucleases SpCas9, FnCpf1, AsCpf1 guided to four different gene targets of our interest. These included a polyketide synthase ( pks4.2 ), an alkaline protease ( alp1 ), a SNARE protein ( snc1 ) and a potential transcription factor ( ptf1 ). For all four genes, guide RNAs were developed which enabled successful single-targeting and multiplex-targeting. CRISPR nucleases were either delivered to T. thermophilus on plasmids or preassembled with in vitro transcribed gRNA to form ribonucleoproteins (RNPs). We also evaluated the efficiency of single oligonucleotides for site-directed mutagenesis. Finally, we were able to scale down the transformation protocol to microtiter plate format which generated high numbers of positive transformants and will thus pave the way for future high-throughput investigations., Conclusion: We provide here the first comprehensive analysis and evaluation of different CRISPR approaches for a filamentous fungus. All approaches followed enabled successful genome editing in T. thermophilus ; however, with different success rates. In addition, we show that the success rate depends on the respective nuclease and on the targeted gene locus. We finally present a practical guidance for experimental considerations aiming to guide the reader for successful implementation of CRISPR technology for other fungi., Competing Interests: Competing interestsThe authors declare they have no competing interests., (© The Author(s) 2019.)

Published
2019
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33. RNAi-mediated knockdown of the Rhau helicase preferentially depletes proteins with a Guanine-quadruplex motif in the 5'-UTR of their mRNA.

Author

Vester K, Eravci M, Serikawa T, Schütze T, Weise C, and Kurreck J

Subjects
Cell Survival, Down-Regulation genetics, GTP Phosphohydrolases metabolism, HEK293 Cells, Humans, Membrane Proteins metabolism, Protein Biosynthesis, Proto-Oncogene Proteins c-bcl-2 metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, RNA, Small Interfering metabolism, 5' Untranslated Regions genetics, DEAD-box RNA Helicases genetics, G-Quadruplexes, Gene Knockdown Techniques, RNA Interference
Abstract

Guanine-quadruplex (G-quadruplex) structures in mRNAs have been shown to modulate gene expression. However, the overall biological relevance of this process is under debate, as cellular helicases unwind G-quadruplex structures. The helicase Rhau (encoded by the DHX36 gene) was reported to be the major source of RNA G-quadruplex resolving activity in lysates of human cells. In the current study, we depleted Rhau by RNAi-mediated silencing and analyzed the effect on proteins whose mRNAs harbor a G-quadruplex motif in their 5'-UTRs. A targeted investigation of the proto-oncogenes Bcl-2 and NRAS, which are well-known examples for the translational repression of G-quadruplex structures, did not reveal effects caused by Rhau silencing. We therefore carried out a global analysis of changes in protein levels by label-free quantification using liquid chromatography-electrospray ionization-tandem mass spectrometry (LC-ESI-MS/MS). Following Rhau knockdown, of all the identified proteins, only 1.9% were significantly downregulated to at least 70%. According to a bioinformatic analysis with the QGRS mapper, 33% of the downregulated proteins were predicted to harbor a G-quadruplex motif in the 5'-UTR of their respective mRNAs, compared to only 11% in the complete dataset. This indicates that in an unexpectedly small set of genes, in which G-quadruplex motifs are unusually common in the 5'-UTR of their mRNAs, Rhau helicase is responsible for the regulation of their expression., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2019
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35. Aspergillus niger is a superior expression host for the production of bioactive fungal cyclodepsipeptides.

Author

Boecker S, Grätz S, Kerwat D, Adam L, Schirmer D, Richter L, Schütze T, Petras D, Süssmuth RD, and Meyer V

Abstract

Background: Fungal cyclodepsipeptides (CDPs) are non-ribosomally synthesized peptides produced by a variety of filamentous fungi and are of interest to the pharmaceutical industry due to their anticancer, antimicrobial and anthelmintic bioactivities. However, both chemical synthesis and isolation of CDPs from their natural producers are limited due to high costs and comparatively low yields. These challenges might be overcome by heterologous expression of the respective CDP-synthesizing genes in a suitable fungal host. The well-established industrial fungus Aspergillus niger was recently genetically reprogrammed to overproduce the cyclodepsipeptide enniatin B in g/L scale, suggesting that it can generally serve as a high production strain for natural products such as CDPs. In this study, we thus aimed to determine whether other CDPs such as beauvericin and bassianolide can be produced with high titres in A. niger , and whether the generated expression strains can be used to synthesize new-to-nature CDP derivatives., Results: The beauvericin and bassianolide synthetases were expressed under control of the tuneable Tet-on promoter, and titres of about 350-600 mg/L for bassianolide and beauvericin were achieved when using optimized feeding conditions, respectively. These are the highest concentrations ever reported for both compounds, whether isolated from natural or heterologous expression systems. We also show that the newly established Tet-on based expression strains can be used to produce new-to-nature beauvericin derivatives by precursor directed biosynthesis, including the compounds 12-hydroxyvalerate-beauvericin and bromo-beauvericin. By feeding deuterated variants of one of the necessary precursors (d-hydroxyisovalerate), we were able to purify deuterated analogues of beauvericin and bassianolide from the respective A. niger expression strains. These deuterated compounds could potentially be used as internal standards in stable isotope dilution analyses to evaluate and quantify fungal spoilage of food and feed products., Conclusion: In this study, we show that the product portfolio of A. niger can be expanded from enniatin to other CDPs such as beauvericin and bassianolide, as well as derivatives thereof. This illustrates the capability of A. niger to produce a range of different peptide natural products in titres high enough to become industrially relevant.

Published
2018
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36. Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus.

Author

de Vries RP, Riley R, Wiebenga A, Aguilar-Osorio G, Amillis S, Uchima CA, Anderluh G, Asadollahi M, Askin M, Barry K, Battaglia E, Bayram Ö, Benocci T, Braus-Stromeyer SA, Caldana C, Cánovas D, Cerqueira GC, Chen F, Chen W, Choi C, Clum A, Dos Santos RA, Damásio AR, Diallinas G, Emri T, Fekete E, Flipphi M, Freyberg S, Gallo A, Gournas C, Habgood R, Hainaut M, Harispe ML, Henrissat B, Hildén KS, Hope R, Hossain A, Karabika E, Karaffa L, Karányi Z, Kraševec N, Kuo A, Kusch H, LaButti K, Lagendijk EL, Lapidus A, Levasseur A, Lindquist E, Lipzen A, Logrieco AF, MacCabe A, Mäkelä MR, Malavazi I, Melin P, Meyer V, Mielnichuk N, Miskei M, Molnár ÁP, Mulé G, Ngan CY, Orejas M, Orosz E, Ouedraogo JP, Overkamp KM, Park HS, Perrone G, Piumi F, Punt PJ, Ram AF, Ramón A, Rauscher S, Record E, Riaño-Pachón DM, Robert V, Röhrig J, Ruller R, Salamov A, Salih NS, Samson RA, Sándor E, Sanguinetti M, Schütze T, Sepčić K, Shelest E, Sherlock G, Sophianopoulou V, Squina FM, Sun H, Susca A, Todd RB, Tsang A, Unkles SE, van de Wiele N, van Rossen-Uffink D, Oliveira JV, Vesth TC, Visser J, Yu JH, Zhou M, Andersen MR, Archer DB, Baker SE, Benoit I, Brakhage AA, Braus GH, Fischer R, Frisvad JC, Goldman GH, Houbraken J, Oakley B, Pócsi I, Scazzocchio C, Seiboth B, vanKuyk PA, Wortman J, Dyer PS, and Grigoriev IV

Subjects
Aspergillus metabolism, Biomass, Carbon metabolism, Computational Biology methods, Cytochrome P-450 Enzyme System genetics, Cytochrome P-450 Enzyme System metabolism, DNA Methylation, Fungal Proteins genetics, Gene Expression Regulation, Fungal, Gene Regulatory Networks, Humans, Metabolic Networks and Pathways, Molecular Sequence Annotation, Multigene Family, Oxidoreductases metabolism, Phylogeny, Plants metabolism, Plants microbiology, Secondary Metabolism genetics, Signal Transduction, Stress, Physiological genetics, Adaptation, Biological, Aspergillus classification, Aspergillus genetics, Biodiversity, Genome, Fungal, Genomics methods
Abstract

Background: The fungal genus Aspergillus is of critical importance to humankind. Species include those with industrial applications, important pathogens of humans, animals and crops, a source of potent carcinogenic contaminants of food, and an important genetic model. The genome sequences of eight aspergilli have already been explored to investigate aspects of fungal biology, raising questions about evolution and specialization within this genus., Results: We have generated genome sequences for ten novel, highly diverse Aspergillus species and compared these in detail to sister and more distant genera. Comparative studies of key aspects of fungal biology, including primary and secondary metabolism, stress response, biomass degradation, and signal transduction, revealed both conservation and diversity among the species. Observed genomic differences were validated with experimental studies. This revealed several highlights, such as the potential for sex in asexual species, organic acid production genes being a key feature of black aspergilli, alternative approaches for degrading plant biomass, and indications for the genetic basis of stress response. A genome-wide phylogenetic analysis demonstrated in detail the relationship of the newly genome sequenced species with other aspergilli., Conclusions: Many aspects of biological differences between fungal species cannot be explained by current knowledge obtained from genome sequences. The comparative genomics and experimental study, presented here, allows for the first time a genus-wide view of the biological diversity of the aspergilli and in many, but not all, cases linked genome differences to phenotype. Insights gained could be exploited for biotechnological and medical applications of fungi.

Published
2017
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37. Scaffolding in the Spliceosome via Single α Helices.

Author

Ulrich AKC, Seeger M, Schütze T, Bartlick N, and Wahl MC

Subjects
Binding Sites, Circular Dichroism, Crystallography, X-Ray, Humans, Models, Molecular, Protein Binding, Protein Structure, Secondary, Thermodynamics, Contractile Proteins chemistry, Extracellular Matrix Proteins chemistry, RNA Splicing Factors chemistry, Ribonucleoproteins, Small Nuclear chemistry, Spliceosomes chemistry
Abstract

The spliceosomal B complex-specific protein Prp38 forms a complex with the intrinsically unstructured proteins MFAP1 and Snu23. Our binding and crystal structure analyses show that MFAP1 and Snu23 contact Prp38 via ER/K motif-stabilized single α helices, which have previously been recognized only as rigid connectors or force springs between protein domains. A variant of the Prp38-binding single α helix of MFAP1, in which ER/K motifs not involved in Prp38 binding were mutated, was less α-helical in isolation and showed a reduced Prp38 affinity, with opposing tendencies in interaction enthalpy and entropy. Our results indicate that the strengths of single α helix-based interactions can be tuned by the degree of helix stabilization in the unbound state. MFAP1, Snu23, and several other spliceosomal proteins contain multiple regions that likely form single α helices via which they might tether several binding partners and act as intermittent scaffolds that facilitate remodeling steps during assembly of an active spliceosome., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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38. Contributing factors and outcomes of treatment refusal in pediatric oncology in Germany.

Author

Zuzak TJ, Kameda G, Schütze T, Kaatsch P, Seifert G, Bailey R, and Längler A

Subjects
Adolescent, Child, Child, Preschool, Female, Humans, Infant, Male, Neoplasms mortality, Parents, Physician-Patient Relations, Retrospective Studies, Surveys and Questionnaires, Neoplasms therapy, Treatment Refusal
Abstract

Background: In Germany, about 1,800 new cases of pediatric cancer under 15 years of age are diagnosed each year and survival rates approach 80%. Although treatment is covered by health insurance and is thus available for all patients at no cost, treatment refusal and treatment discontinuation have been observed. However, no data providing numbers and outcomes for developed countries have been published thus far., Procedure: A questionnaire-based survey was performed among German pediatric oncology centers to ascertain the number of treatment refusals among pediatric patients who were diagnosed between January 2008 and December 2009 in Germany., Results: Questionnaires from 70 of 73 centers were available, and of these 13 centers reported a total of 15 cases of treatment refusal or discontinuation within this 2-year period. Five of the 15 patients died, 7 of 15 were still alive, and the current status of 3 of 15 patients was unknown. Diseases were heterogeneous. Six of the 15 parents refused treatment for their children initially, 8 of 15 discontinued during the course of treatment. Five patients were treated after parental custody had been withdrawn due to the lack of compliance. All these five patients survived. Parents' reasons given for refusal or discontinuation of treatment were related to personal health beliefs and coping strategies., Conclusions: Although treatment refusal or discontinuation is rare, it is accompanied by a high mortality rate. Parents' personal health beliefs play a primary role in treatment refusal or discontinuation in Germany. This emphasizes the importance of sustaining a functioning and mutually communicative physician-parent-patient relationship., (© 2016 Wiley Periodicals, Inc.)

Published
2016
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39. Use of complementary and alternative medicine by pediatric oncology patients during palliative care.

Author

Schütze T, Längler A, Zuzak TJ, Schmidt P, and Zernikow B

Subjects
Adolescent, Child, Cross-Sectional Studies, Female, Humans, Male, Complementary Therapies methods, Neoplasms therapy, Palliative Care methods
Abstract

Purpose: Although the popularity of complementary and alternative medicine (CAM) has risen in the last decade, information about its use by pediatric patients in palliative care is still scarce. The purpose of the study was to assess the frequency and types of CAM administered by parents with children suffering from cancer during the palliative phase., Methods: All parents who lost their child due to cancer in the federal state North Rhine Westfalia/Germany were eligible for the study. The first group of eligible parents was contacted in 1999-2000 and a second group of parents in 2005-2006. Upon agreement, parents were asked to complete a semi-structured questionnaire about the frequency of CAM use and the specific treatments that had been used. The types of CAM were categorized according to the National Center for Complementary and Alternative Medicine (NCCAM)., Results: A total of 96 parents participated in the study (48 in each cohort). Forty-three percent of all parents in both groups reported CAM use. The results show an increase of CAM use from 38 % in the first group to 49 % in the second cohort of pediatric patients during palliative care. The most common types of CAM used in both groups were homeopathy and treatment with mistletoe preparations., Conclusions: The study provides information about usage of CAM in children suffering from cancer during the palliative phase of the disease. Further research is required to investigate benefits, potential adverse effects, and the potential efficacy of CAM in this population.

Published
2016
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40. Structural Basis for the Functional Coupling of the Alternative Splicing Factors Smu1 and RED.

Author

Ulrich AKC, Schulz JF, Kamprad A, Schütze T, and Wahl MC

Subjects
Animals, Binding Sites, Caenorhabditis elegans chemistry, Caenorhabditis elegans metabolism, Caenorhabditis elegans Proteins metabolism, Intracellular Signaling Peptides and Proteins, Molecular Docking Simulation, Nuclear Proteins metabolism, Protein Binding, Protein Multimerization, Caenorhabditis elegans Proteins chemistry, Nuclear Proteins chemistry
Abstract

The proteins Smu1 and RED have been jointly implicated in the regulation of alternative splicing, mitosis, and influenza virus infection, but how they interact and whether their diverse cellular functions are coupled is unknown. We identified an N-terminal region of Smu1 and a central region of RED that stably interact. Structural analyses revealed that the RED-binding region of Smu1 contains an N-terminal LisH motif linked to a core domain and a C-terminal α helix that folds back onto the LisH motif. Smu1 dimerizes via its LisH motif and C-terminal α helix and undergoes global conformational changes upon RED binding. In the ensuing hetero-tetrameric Smu1-RED complex, two molecules of RED use short α helices to bind hydrophobic grooves of two Smu1 core domains. Our results show how Smu1 and RED form a functional module that exhibits intriguing similarities to transcriptional co-repressor complexes, arranging multiple additional protein-protein interaction sites for contacting splicing and/or chromatin factors., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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41. Multiple protein-protein interactions converging on the Prp38 protein during activation of the human spliceosome.

Author

Schütze T, Ulrich AK, Apelt L, Will CL, Bartlick N, Seeger M, Weber G, Lührmann R, Stelzl U, and Wahl MC

Subjects
Amino Acid Sequence, Animals, Arabidopsis genetics, Arabidopsis metabolism, Binding Sites, Crystallography, X-Ray, Escherichia coli genetics, Escherichia coli metabolism, Gene Expression, Humans, Models, Molecular, Molecular Sequence Data, Nucleic Acid Conformation, Protein Binding, Protein Structure, Secondary, Protein Structure, Tertiary, Protein Subunits genetics, Protein Subunits metabolism, RNA Precursors genetics, RNA Precursors metabolism, RNA Splicing Factors, RNA, Messenger genetics, RNA, Messenger metabolism, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins genetics, Saccharomyces cerevisiae Proteins metabolism, Sequence Alignment, Sequence Homology, Amino Acid, Spliceosomes genetics, Spliceosomes metabolism, Protein Subunits chemistry, RNA Precursors chemistry, RNA Splicing, RNA, Messenger chemistry, Saccharomyces cerevisiae Proteins chemistry, Spliceosomes chemistry
Abstract

Spliceosomal Prp38 proteins contain a conserved amino-terminal domain, but only higher eukaryotic orthologs also harbor a carboxy-terminal RS domain, a hallmark of splicing regulatory SR proteins. We show by crystal structure analysis that the amino-terminal domain of human Prp38 is organized around three pairs of antiparallel α-helices and lacks similarities to RNA-binding domains found in canonical SR proteins. Instead, yeast two-hybrid analyses suggest that the amino-terminal domain is a versatile protein-protein interaction hub that possibly binds 12 other spliceosomal proteins, most of which are recruited at the same stage as Prp38. By quantitative, alanine surface-scanning two-hybrid screens and biochemical analyses we delineated four distinct interfaces on the Prp38 amino-terminal domain. In vitro interaction assays using recombinant proteins showed that Prp38 can bind at least two proteins simultaneously via two different interfaces. Addition of excess Prp38 amino-terminal domain to in vitro splicing assays, but not of an interaction-deficient mutant, stalled splicing at a precatalytic stage. Our results show that human Prp38 is an unusual SR protein, whose amino-terminal domain is a multi-interface protein-protein interaction platform that might organize the relative positioning of other proteins during splicing., (© 2016 Schütze et al.; Published by Cold Spring Harbor Laboratory Press for the RNA Society.)

Published
2016
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43. Complementary and alternative medicine in pediatrics in Turkey.

Author

Ozturk C, Karatas H, Längler A, Schütze T, Bailey R, and Zuzak TJ

Subjects
Child, Humans, Turkey, Complementary Therapies
Abstract

Background: Complementary and alternative medicine (CAM) is applied both to children and adults widely throughout the world. A previous pan-European survey showed a surprisingly high CAM-use in Turkish children. This review aimed to survey information on the use of CAM in pediatrics in Turkey., Data Sources: A narrative, non-systematic review was conducted by melding expert opinions with a thorough and balanced review of available evidence. An unrestricted literature search using the key words, "alternative", "complementary", "integrative", "prevalence" and "pediatric" or "children" and "Turkey" was performed by internet search in March, 2012 using PubMed and Google Scholar., Results: CAM use was examined in general pediatrics, pediatric oncology, patients with asthma, and patients with diabetes. A frequency of CAM use was 87% in Turkish pediatric patients, with a mean of 60%. The primary sources of information about CAM are family and friends. Communication with patients/parents and health care professionals showed that most parents do not speak about CAM use with their physicians or nurses., Conclusions: CAM is extensively used in Turkish pediatric patients. This might be due to Turkey's status as a developing country in which a traditional medical system still dominates in comparison to developed countries. Thus, larger studies are required to prove an extensive use of CAM in Turkey, as this review article does not have the capacity for in-depth analysis. Knowledge about CAM and its related topics is essential for physicians and nurses in order to meet the patients' wish for a competent consultation concerning all aspects of a possible therapy.

Published
2014
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44. Identification and characterization of RNA guanine-quadruplex binding proteins.

Author

von Hacht A, Seifert O, Menger M, Schütze T, Arora A, Konthur Z, Neubauer P, Wagner A, Weise C, and Kurreck J

Subjects
Actin-Related Protein 2 metabolism, HEK293 Cells, HeLa Cells, Humans, Matrix Metalloproteinase 16 metabolism, Protein Biosynthesis, RNA-Binding Proteins analysis, 5' Untranslated Regions, Actin-Related Protein 2 genetics, G-Quadruplexes, Matrix Metalloproteinase 16 genetics, RNA-Binding Proteins metabolism
Abstract

Guanine quadruplex (G-quadruplex) motifs in the 5' untranslated region (5'-UTR) of mRNAs were recently shown to influence the efficiency of translation. In the present study, we investigate the interaction between cellular proteins and the G-quadruplexes located in two mRNAs (MMP16 and ARPC2). Formation of the G-quadruplexes was confirmed by biophysical characterization and the inhibitory activity on translation was shown by luciferase reporter assays. In experiments with whole cell extracts from different eukaryotic cell lines, G-quadruplex-binding proteins were isolated by pull-down assays and subsequently identified by matrix-assisted laser desorption ionization-time of flight mass spectrometry. The binding partners of the RNA G-quadruplexes we discovered included several heterogeneous nuclear ribonucleoproteins, ribosomal proteins, and splicing factors, as well as other proteins that have previously not been described to interact with nucleic acids. While most of the proteins were specific for either of the investigated G-quadruplexes, some of them bound to both motifs. Selected candidate proteins were subsequently produced by recombinant expression and dissociation constants for the interaction between the proteins and RNA G-quadruplexes in the low nanomolar range were determined by surface plasmon resonance spectroscopy. The present study may thus help to increase our understanding of the mechanisms by which G-quadruplexes regulate translation., (© The Author(s) 2014. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published
2014
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45. Class III peroxidases.

Author

Lüthje S, Meisrimler CN, Hopff D, Schütze T, Köppe J, and Heino K

Subjects
Cell Fractionation, Cell Membrane metabolism, Electrophoresis, Gel, Two-Dimensional, Plant Proteins metabolism, Solubility, Vacuoles metabolism, Peroxidases metabolism, Proteomics methods, Zea mays enzymology
Abstract

Class III peroxidases are heme-containing proteins of the secretory pathway with an extremely high number of isoenzymes, indicating the tremendous and important functions of this protein family. This chapter describes fractionation of the cell in subproteomes, their separation by polyacrylamide gel electrophoresis (PAGE) and visualization of peroxidase isoenzymes by heme and specific in-gel staining procedures. Soluble and membrane-bound peroxidases were separated by differential centrifugation. Aqueous polymer two-phase partitioning and discontinuous sucrose density gradient were applied to resolve peroxidase profiles of plasma membranes and tonoplast. Peroxidase isoenzymes of subproteomes were further separated by PAGE techniques such as native isoelectric focussing (IEF), high resolution clear native electrophoresis (hrCNE), and modified sodium dodecyl sulfate (modSDS)-PAGE. These techniques were used as stand-alone method or in combination for two-dimensional PAGE.

Published
2014
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46. Human immune cells' behavior and survival under bioenergetically restricted conditions in an in vitro fracture hematoma model.

Author

Hoff P, Maschmeyer P, Gaber T, Schütze T, Raue T, Schmidt-Bleek K, Dziurla R, Schellmann S, Lohanatha FL, Röhner E, Ode A, Burmester GR, Duda GN, Perka C, and Buttgereit F

Subjects
Aged, Cell Survival immunology, Cells, Cultured, Chemokine CCL2 metabolism, Female, Femur surgery, Fractures, Bone metabolism, Hematoma metabolism, Humans, Interferon-gamma metabolism, Interleukin-6 metabolism, Interleukin-8 metabolism, Male, Middle Aged, Vascular Endothelial Growth Factor A metabolism, Wound Healing immunology, Arthroplasty, Replacement, Hip methods, Energy Metabolism immunology, Fractures, Bone immunology, Fractures, Bone pathology, Hematoma immunology, Hematoma pathology
Abstract

The initial inflammatory phase of bone fracture healing represents a critical step for the outcome of the healing process. However, both the mechanisms initiating this inflammatory phase and the function of immune cells present at the fracture site are poorly understood. In order to study the early events within a fracture hematoma, we established an in vitro fracture hematoma model: we cultured hematomas forming during an osteotomy (artificial bone fracture) of the femur during total hip arthroplasty (THA) in vitro under bioenergetically controlled conditions. This model allowed us to monitor immune cell populations, cell survival and cytokine expression during the early phase following a fracture. Moreover, this model enabled us to change the bioenergetical conditions in order to mimic the in vivo situation, which is assumed to be characterized by hypoxia and restricted amounts of nutrients. Using this model, we found that immune cells adapt to hypoxia via the expression of angiogenic factors, chemoattractants and pro-inflammatory molecules. In addition, combined restriction of oxygen and nutrient supply enhanced the selective survival of lymphocytes in comparison with that of myeloid derived cells (i.e., neutrophils). Of note, non-restricted bioenergetical conditions did not show any similar effects regarding cytokine expression and/or different survival rates of immune cell subsets. In conclusion, we found that the bioenergetical conditions are among the crucial factors inducing the initial inflammatory phase of fracture healing and are thus a critical step for influencing survival and function of immune cells in the early fracture hematoma.

Published
2013
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47. Analysis of different DNA vaccines for protection of experimental influenza A virus infection.

Author

Wiesener N, Schütze T, Lapp S, Lehmann M, Jarasch-Althof N, Wutzler P, and Henke A

Subjects
Animals, Cloning, Molecular, Disease Models, Animal, Influenza A virus genetics, Influenza A virus pathogenicity, Influenza Vaccines administration & dosage, Influenza Vaccines genetics, Lung pathology, Lung virology, Male, Mice, Mice, Inbred BALB C, Plasmids, Rodent Diseases prevention & control, Survival Analysis, Vaccines, DNA administration & dosage, Vaccines, DNA genetics, Viral Proteins genetics, Influenza A virus immunology, Influenza Vaccines immunology, Orthomyxoviridae Infections prevention & control, Vaccines, DNA immunology, Viral Proteins immunology
Abstract

Influenza viruses cause acute respiratory infections in humans that result in significant excessive morbidity and mortality rates every year. Current vaccines are limited in several aspects, including laborious manufacturing technology, non-sufficient efficacy, and time-consuming adjustments to new emerging virus variants. An alternative vaccine approach utilizes plasmid DNA encoding influenza virus antigens. Previous experiments have evaluated the protective efficacy of DNA vaccines expressing variable as well as conserved antigens. In this present study, several different combinations of influenza A virus (IAV) HA, NA, M1, M2, NS1, NS2, and NP sequences were cloned into the plasmid pVIVO, which allows the independent expression of two genes separately. These DNA vaccines were administered to induce protection against a lethal IAV infection, and to reduce immunopathology in lung tissue of surviving animals. The highest efficacy was provided by vaccines expressing HA and NA, as well as a mixture of plasmids encoding HA, NA, M1, M2, NS1, NS2, and NP (Mix). Three days post-infection, more than a 99.99% reduction of viral load and no inflammation was achieved in lung tissue of pVIVO/HA-NA-vaccinated mice. Animals vaccinated with pVIVO/HA-NA, pVIVO/HA-M2, or vaccine Mix, survived a lethal challenge with minor or no obvious pathologic abnormities in the lungs. All other surviving mice revealed extensive changes in the lung tissue, indicating possibly an ongoing bronchiolitis obliterans. In addition, pVIVO/HA-NA and the vaccine Mix were also protective against a heterologous IAV infection. Taken together, next to all combinations of different DNA vaccines, the intramuscular application of pVIVO/HA-NA was the most efficient procedure to decrease virus replication and to prevent immunopathology in lung tissue of IAV-infected mice.

Published
2011
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48. Diversity visualization by endonuclease: a rapid assay to monitor diverse nucleotide libraries.

Author

Lim TS, Schütze T, Lehrach H, Glökler J, and Konthur Z

Subjects
Base Sequence, Immunoglobulin Variable Region immunology, Molecular Sequence Data, Polymerase Chain Reaction, Temperature, Time Factors, Titrimetry, Biological Assay methods, Endonucleases metabolism, Gene Library, Nucleotides genetics, Sequence Analysis, DNA methods
Abstract

Many experiments require a fast and cost-effective method to monitor nucleic acid sequence diversity. Here we describe a method called diversity visualization by endonuclease (DiVE) that allows rapid visualization of sequence diversity of polymerase chain reaction (PCR) products based on DNA hybridization kinetics coupled with the activity of a single-strand specific nuclease. The assay involves only a limited number of steps and can be performed in less than 4h, including the initial PCR. After PCR, the homoduplex double-stranded DNA (dsDNA) is denatured and reannealed under stringent conditions. During the reannealing process, incubation with S1 nuclease removes single-stranded loops of formed heteroduplexes and the resulting digest is visualized on agarose gel. The sequence diversity is inversely proportional to the band intensities of S1 nuclease surviving dsDNA molecules of expected size. As an example, we employed DiVE to monitor the diversity of panning rounds from a single-framework, semisynthetic single-chain antibody fragment (scFv) phage display library. The results are in good agreement with the observed decrease in diversity in phage display panning rounds toward the selection of monoclonal scFv. We conclude that the DiVE assay allows rapid and cost-effective monitoring of diversities of various nucleotide libraries and proves to be particularly suitable for scaffold-based randomized libraries., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published
2011
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49. A streamlined protocol for emulsion polymerase chain reaction and subsequent purification.

Author

Schütze T, Rubelt F, Repkow J, Greiner N, Erdmann VA, Lehrach H, Konthur Z, and Glökler J

Subjects
Emulsions, Humans, Time Factors, Chemical Fractionation methods, DNA genetics, DNA isolation & purification, Oils chemistry, Polymerase Chain Reaction methods, Water chemistry
Abstract

Compartmentalization of polymerase chain reaction (PCR) reduces artifacts, especially when complex libraries are amplified. It allows clonal amplification of templates from complex mixtures in a bias-free manner. Here we describe a rapid, straightforward, and easy protocol for PCR in a water-in-oil emulsion (ePCR) including sample recovery by DNA purification. Furthermore, no special laboratory equipment is needed and inexpensive components are used. Therefore, our flexible protocol allows ePCR to be readily implemented in daily routine experiments for a broad range of applications., (2010 Elsevier Inc. All rights reserved.)

Published
2011
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50. Probing the SELEX process with next-generation sequencing.

Author

Schütze T, Wilhelm B, Greiner N, Braun H, Peter F, Mörl M, Erdmann VA, Lehrach H, Konthur Z, Menger M, Arndt PF, and Glökler J

Subjects
Aptamers, Nucleotide genetics, Base Sequence, Fluorescent Dyes metabolism, Molecular Sequence Data, Nucleic Acid Renaturation genetics, Oligonucleotides genetics, Protein Binding, Streptavidin metabolism, Surface Plasmon Resonance, SELEX Aptamer Technique methods, Sequence Analysis, DNA methods
Abstract

Background: SELEX is an iterative process in which highly diverse synthetic nucleic acid libraries are selected over many rounds to finally identify aptamers with desired properties. However, little is understood as how binders are enriched during the selection course. Next-generation sequencing offers the opportunity to open the black box and observe a large part of the population dynamics during the selection process., Methodology: We have performed a semi-automated SELEX procedure on the model target streptavidin starting with a synthetic DNA oligonucleotide library and compared results obtained by the conventional analysis via cloning and Sanger sequencing with next-generation sequencing. In order to follow the population dynamics during the selection, pools from all selection rounds were barcoded and sequenced in parallel., Conclusions: High affinity aptamers can be readily identified simply by copy number enrichment in the first selection rounds. Based on our results, we suggest a new selection scheme that avoids a high number of iterative selection rounds while reducing time, PCR bias, and artifacts.

Published
2011
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