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4. Continuous pilot scale process demonstrating waste fibre as a feasible feedstock to ethanol and biogas production

Author

Kemppainen, Katariina, Ranta, L., Sipilä, E., Östman, A., Vehmaanperä, J., Puranen, T., Langfelder, K., Hannula, J., Kallioinen, Anne, Siika-aho, Matti, Sipilä, Kai, and von Weymarn, Niklas

Abstract

Production processes for lignocellulosic bioethanol face challenges with increasing feedstock costs, high investment costs due to e.g. expensive pretreatment technologies and finding ideal ways to integrate the process to existing facilities. The FibreEtOH process was developed to tackle these challenges and run in pilot scale to demonstrate a profitable ethanol production process from waste fibre. The FibreEtOH process integrated to a pulp and paper mill consists of fractionation of solid recovered fuel, sanitation of the material by heat treatment, continuous liquefaction (prehydrolysis) of the waste fibre, simultaneous saccharification and fermentation of C6 sugars and biogas production from the fermented residue. Waste fibre fractionated from solid recovered fuel is a stable all-year-round feedstock with high hexose content (44-56%) and acceptable ash content (13-14%). Thermal or chemical pretreatment is not required for this material as experimental work showed reduction rather than improvement in hydrolysis yield and rate after pretreatment. Hydrolysis of glucan was found to be fast but recalcitrant mannose- and glucose-containing soluble oligo- and polysaccharides were produced that would require additional helper enzymes for hydrolysis to C6 sugars. The whole process from fractionation to biogas production was demonstrated in pilot-scale with promising results. Continuous runs in pilot-scale were operated for up to 12 days with efficient ethanol production and without major problems from bacterial contamination. The results presented here demonstrate the feasibility of the FibreEtOH concept as a potential production process for lignocellulosic bioethanol.

Published
2012

5. Methods for identifying lipoxygenase producing microorganisms on agar plates

Author

Nyyssola, A., Heshof, R., Haarmann, T., Eidner, J., Westerholm-Parvinen, A., Langfelder, K., Kruus, K., de Graaff, L.H., Buchert, J., Nyyssola, A., Heshof, R., Haarmann, T., Eidner, J., Westerholm-Parvinen, A., Langfelder, K., Kruus, K., de Graaff, L.H., and Buchert, J.

Abstract

Plate assays for lipoxygenase producing microorganisms on agar plates have been developed. Both potassium iodide-starch and indamine dye formation methods were effective for detecting soybean lipoxygenase activity on agar plates. A positive result was also achieved using the beta-carotene bleaching method, but the sensitivity of this method was lower than the other two methods. The potassium iodide-starch and indamine dye formation methods were also applied for detecting lipoxygenase production by Trichoderma reesei and Pichia pastoris transformants expressing the lipoxygenase gene of the fungus Gaeumannomyces graminis. In both cases lipoxygenase production in the transformants could be identified. For detection of the G. graminis lipoxygenase produced by Aspergillus nidulans the potassium iodide-starch method was successful. When Escherichia coli was grown on agar and soybean lipoxygenase was applied on the culture lipoxygenase activity could clearly be detected by the indamine dye formation method. This suggests that the method has potential for screening of metagenomic libraries in E. coli for lipoxygenase activity

Published
2012

7. Interaction of human phagocytes with pigmentless Aspergillus conidia.

Author

Jahn, B, Boukhallouk, F, Lotz, J, Langfelder, K, Wanner, G, and Brakhage, A A

Abstract

A defect in the pksP gene of Aspergillus fumigatus is associated with the loss of conidial pigmentation, a profound change of the conidial surface structure, and reduced virulence. The structural change of the conidial surface structure was not observed in similar A. nidulans wA mutants. Our data indicate that the pigment of both species is important for scavenging reactive oxygen species and for protection of conidia against oxidative damage.

Published
2000

8. Characterization of a GDS(L)-like hydrolase from Pleurotus sapidus with an unusual SGNH motif.

Author

Fingerhut MA, Henrich L, Lauber C, Broel N, Ghezellou P, Karrer D, Spengler B, Langfelder K, Stressler T, Zorn H, and Gand M

Abstract

The GDS(L)-like lipase from the Basidiomycota Pleurotus sapidus (PSA_Lip) was heterologously expressed using Trichoderma reesei with an activity of 350 U L -1 . The isoelectric point of 5.0 was determined by isoelectric focusing. The novel PSA_Lip showed only 23.8-25.1%, 25.5%, 26.6% and 28.4% identity to the previously characterized GDSL-like enzymes phospholipase, plant lipase, acetylcholinesterase and acetylxylan esterase, from the carbohydrate esterase family 16, respectively. Therefore, the enzyme was purified from the culture supernatant and the catalytic properties and the substrate specificity of the enzyme were investigated using different assays to reveal its potential function. While no phospholipase, acetylcholinesterase and acetylxylan esterase activities were detected, studies on the hydrolysis of ferulic acid methyl ester (~ 8.3%) and feruloylated carbohydrate 5-O-transferuloyl-arabino-furanose (~ 0.8%) showed low conversions of these substrates. By investigating the hydrolytic activity towards p-nitrophenyl-(pNP)-esters with various chain-lengths, the highest activity was determined for medium chain-length pNP-octanoate at 65 °C and a pH value of 8, while almost no activity was detected for pNP-hexanoate. The enzyme is highly stable when stored at pH 10 and 4 °C for at least 7 days. Moreover, using consensus sequence analysis and homology modeling, we could demonstrate that the PSA_Lip does not contain the usual SGNH residues in the actives site, which are usually present in GDS(L)-like enzymes., (© 2024. The Author(s).)

Published
2024
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9. Methods for identifying lipoxygenase producing microorganisms on agar plates.

Author

Nyyssölä A, Heshof R, Haarmann T, Eidner J, Westerholm-Parvinen A, Langfelder K, Kruus K, de Graaff L, and Buchert J

Abstract

Plate assays for lipoxygenase producing microorganisms on agar plates have been developed. Both potassium iodide-starch and indamine dye formation methods were effective for detecting soybean lipoxygenase activity on agar plates. A positive result was also achieved using the β-carotene bleaching method, but the sensitivity of this method was lower than the other two methods. The potassium iodide-starch and indamine dye formation methods were also applied for detecting lipoxygenase production by Trichoderma reesei and Pichia pastoris transformants expressing the lipoxygenase gene of the fungus Gaeumannomyces graminis. In both cases lipoxygenase production in the transformants could be identified. For detection of the G. graminis lipoxygenase produced by Aspergillus nidulans the potassium iodide-starch method was successful. When Escherichia coli was grown on agar and soybean lipoxygenase was applied on the culture lipoxygenase activity could clearly be detected by the indamine dye formation method. This suggests that the method has potential for screening of metagenomic libraries in E. coli for lipoxygenase activity.

Published
2012
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10. Biosynthesis of fungal melanins and their importance for human pathogenic fungi.

Author

Langfelder K, Streibel M, Jahn B, Haase G, and Brakhage AA

Subjects
Cryptococcus neoformans metabolism, Cryptococcus neoformans pathogenicity, Fungi genetics, Fungi pathogenicity, Humans, Levodopa metabolism, Melanins metabolism, Naphthols metabolism, Signal Transduction physiology, Virulence physiology, Fungi metabolism, Melanins biosynthesis
Abstract

For more than 40 years fungi have been known to produce pigments known as melanins. Predominantly these have been dihydroxyphenylalanine (DOPA)-melanin and dihydroxynaphthalene (DHN)-melanin. The biochemical and genetical analysis of the biosynthesis pathways have led to the identification of the genes and corresponding enzymes of the pathways. Only recently have both these types of melanin been linked to virulence in some human pathogenic and phytopathogenic fungi. The absence of melanin in human pathogenic and phytopathogenic fungi often leads to a decrease in virulence. In phytopathogenic fungi such as Magnaporthe grisea and Colletotrichum lagenarium, besides other possible functions in pathogenicity, DHN-melanin plays an essential role in generating turgor for plant appressoria to penetrate plant leaves. While the function of melanin in human pathogenic fungi such as Cryptococcus neoformans, Wangiella dermatitidis, Sporothrix schenckii, and Aspergillus fumigatus is less well defined, its role in protecting fungal cells has clearly been shown. Specifically, the ability of both DOPA- and DHN-melanins to quench free radicals is thought to be an important factor in virulence. In addition, in several fungi the production of fungal virulence factors, such as melanin, has been linked to a cAMP-dependent signaling pathway. Many of the components involved in the signaling pathway have been identified.

Published
2003
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11. PKSP-dependent reduction of phagolysosome fusion and intracellular kill of Aspergillus fumigatus conidia by human monocyte-derived macrophages.

Author

Jahn B, Langfelder K, Schneider U, Schindel C, and Brakhage AA

Subjects
Acridine Orange, Aspergillosis microbiology, Aspergillus fumigatus enzymology, Cell Fusion, Cells, Cultured, Humans, Macrophages immunology, Monocytes microbiology, Multienzyme Complexes genetics, Multienzyme Complexes metabolism, Phagosomes physiology, Aspergillus fumigatus growth & development, Aspergillus fumigatus pathogenicity, Macrophages microbiology, Phagocytosis, Phagosomes pathology
Abstract

Previously, we described the isolation of an Aspergillus fumigatus mutant producing non-pigmented conidia, as a result of a defective polyketide synthase gene, pksP (polyketide synthase involved in pigment biosynthesis). The virulence of the pksP mutant was attenuated in a murine animal infection model and its conidia showed enhanced susceptibility towards damage by monocytes in vitro. Because macrophage-mediated killing is critical for host resistance to aspergillosis, the interaction of both grey-green wild-type conidia and white pksP mutant conidia with human monocyte-derived macrophages (MDM) was studied with respect to intracellular processing of ingested conidia. After phagocytosis, the percentage of wild-type conidia residing in an acidic environment was approximately fivefold lower than that observed for non-pigmented pksP mutant conidia. The phagolysosome formation, as assessed by co-localization of LAMP-1 and cathepsin D with ingested conidia, was significantly lower for wild-type conidia compared with pksP mutant conidia. Furthermore, the intracellular kill of pksP mutant conidia was significantly higher than of wild-type conidia, which was markedly increased by chloroquine, a known enhancer of phagolysosome fusion. Taken together, these findings suggest that the presence of a functional pksP gene in A. fumigatus conidia is associated with an inhibition of phagolysosome fusion in human MDM. These data show for the first time that a fungus has the capability to inhibit the fusion of the phagosome with the lysosome. This finding might help explain the attenuated virulence of pksP mutant strains in a murine animal model and provides a conceptual frame to understand the virulence of A. fumigatus.

Published
2002
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12. A novel method used to delete a new Aspergillus fumigatus ABC transporter-encoding gene.

Author

Langfelder K, Gattung S, and Brakhage AA

Subjects
ATP-Binding Cassette Transporters physiology, Amino Acid Sequence, Aspergillus fumigatus physiology, Cosmids, DNA, Fungal, Escherichia coli genetics, Fungal Proteins chemistry, Genes, Fungal, Mutation, Protein Structure, Tertiary, Recombination, Genetic, Sequence Homology, Amino Acid, ATP-Binding Cassette Transporters genetics, Aspergillus fumigatus genetics, Gene Deletion, Gene Targeting methods
Abstract

Aspergillus fumigatus is an important opportunistic human pathogenic fungus. In severely immunocompromised patients, the fungus causes life-threatening diseases, such as pneumonia and invasive aspergillosis. In order to obtain a better understanding of the key elements involved in A. fumigatus virulence and for identifying possible drug targets, it is essential to be able to generate gene-deletion strains. Until recently, the molecular techniques available did not provide a rapid method for gene deletion. A novel method described for A. nidulans was adapted for A. fumigatus. This method is quick and produces an increased homologous recombination efficiency. By using an Escherichia coli strain expressing the lambda red operon, it is possible to induce an in vivo recombination of a PCR fragment flanked by >50-bp regions with a cosmid containing the gene of interest. This produces cosmids in which the gene of interest has been replaced by a bi-functional marker. Such cosmids have large flanking regions surrounding the selectable marker pyrG of A. fumigatus used here, which result in high recombination efficiencies in A. fumigatus. Here, we identified a new ABC transporter-encoding gene in A. fumigatus, designated abcA. By using this method, an A. fumigatus knock-out mutant was generated, providing evidence that this method of generating gene deletions can also be used in A. fumigatus and significantly broadens our repertoire of molecular techniques to study A. fumigatus.

Published
2002
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13. Menacing mold: the molecular biology of Aspergillus fumigatus.

Author

Brakhage AA and Langfelder K

Subjects
Aspergillus fumigatus physiology, Genes, Reporter physiology, Genome, Fungal, Models, Genetic, Mutation, Transformation, Genetic, Aspergillus fumigatus genetics
Abstract

Infections with mold pathogens have emerged as an increasing risk faced by patients under sustained immunosuppression. Species of the Aspergillus family account for most of these infections, and in particular Aspergillus fumigatus may be regarded as the most important airborne pathogenic fungus. The improvement in transplant medicine and the therapy of hematological malignancies is often complicated by the threat of invasive aspergillosis. Specific diagnostic methods are still limited as are the possibilities of therapeutic intervention, leading to the disappointing fact that invasive aspergillosis is still associated with a high mortality rate that ranges from 30% to 90%. In recent years considerable progress has been made in understanding the genetics of A. fumigatus, and molecular techniques for the manipulation of the fungus have been developed. Molecular genetics offers not only approaches for the detailed characterization of gene products that appear to be key components of the infection process but also selection strategies that combine classical genetics and molecular biology to identify virulence determinants of A. fumigatus. Moreover, these methods have a major impact on the development of novel strategies leading to the identification of antimycotic drugs. This review summarizes the current knowledge on the biology, molecular genetics, and genomics of A. fumigatus.

Published
2002
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14. Differential expression of the Aspergillus fumigatus pksP gene detected in vitro and in vivo with green fluorescent protein.

Author

Langfelder K, Philippe B, Jahn B, Latgé JP, and Brakhage AA

Subjects
Amino Acid Sequence, Artificial Gene Fusion, Aspergillus fumigatus genetics, Base Sequence, DNA, Fungal, Green Fluorescent Proteins, Molecular Sequence Data, Orotidine-5'-Phosphate Decarboxylase genetics, Aspergillus fumigatus enzymology, Gene Expression, Genes, Fungal, Genes, Reporter, Luminescent Proteins genetics, Multienzyme Complexes genetics
Abstract

Aspergillus fumigatus is an important pathogen of immunocompromised hosts, causing pneumonia and invasive disseminated disease with high mortality. To be able to analyze the expression of putative virulence-associated genes of A. fumigatus, the use of the enhanced green fluorescent protein (EGFP) as a reporter was established. Two 5' sequences, containing the putative promoters of the pyrG gene, encoding orotidine-5'-phosphate decarboxylase, and the pksP gene, encoding a polyketide synthase involved in both pigment biosynthesis and virulence of A. fumigatus, were fused with the egfp gene. The PpksP-egfp construct was integrated via homologous recombination into the genomic pksP locus. EGFP production was analyzed by fluorescence spectrometry, Western blot analysis, and fluorescence microscopy. Differential gene expression in A. fumigatus was observed. Fluorescence derived from the PYRG-EGFP fusion protein was detected during all developmental stages of the fungus, i.e., during germination, during vegetative growth, in conidiophores, and weakly in conidia. In addition, it was also detected in germinating conidia when isolated from the lungs of immunocompromised mice. By contrast, PKSP-EGFP-derived fluorescence was not found in hyphae or stalks of conidiophores but was found in phialides and conidia in vitro when the fungus was grown under standard conditions, indicating a developmentally controlled expression of the gene. Interestingly, pksP-egfp expression was also detected in hyphae of germinating conidia isolated from the lungs of immunocompromised mice. This finding indicates that the pksP gene can also be expressed in hyphae under certain conditions and, furthermore, that the pksP gene might also contribute to invasive growth of the fungus.

Published
2001
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