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289 results on '"Fekete, Erzsébet"'

1. GalR, GalX and AraR co‐regulate d‐galactose and l‐arabinose utilization in Aspergillus nidulans

Author

Meng, Jiali, Németh, Zoltán, Peng, Mao, Fekete, Erzsébet, Garrigues, Sandra, Lipzen, Anna, Ng, Vivian, Savage, Emily, Zhang, Yu, Grigoriev, Igor V, Mäkelä, Miia R, Karaffa, Levente, and de Vries, Ronald P

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, 1.1 Normal biological development and functioning, Underpinning research, Arabinose, Aspergillus nidulans, Galactose, Gene Expression Regulation, Fungal, Polysaccharides, Transcription Factors, Microbiology, Industrial biotechnology
Abstract

Filamentous fungi produce a wide variety of enzymes in order to efficiently degrade plant cell wall polysaccharides. The production of these enzymes is controlled by transcriptional regulators, which also control the catabolic pathways that convert the released monosaccharides. Two transcriptional regulators, GalX and GalR, control d-galactose utilization in the model filamentous fungus Aspergillus nidulans, while the arabinanolytic regulator AraR regulates l-arabinose catabolism. d-Galactose and l-arabinose are commonly found together in polysaccharides, such as arabinogalactan, xylan and rhamnogalacturonan I. Therefore, the catabolic pathways that convert d-galactose and l-arabinose are often also likely to be active simultaneously. In this study, we investigated the interaction between GalX, GalR and AraR in d-galactose and l-arabinose catabolism. For this, we generated single, double and triple mutants of the three regulators, and analysed their growth and enzyme and gene expression profiles. Our results clearly demonstrated that GalX, GalR and AraR co-regulate d-galactose catabolism in A. nidulans. GalX has a prominent role on the regulation of genes of d-galactose oxido-reductive pathway, while AraR can compensate for the absence of GalR and/or GalX.

Published
2022

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

Author

de Vries, Ronald P, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Amillis, Sotiris, Uchima, Cristiane Akemi, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna A, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo C, Chen, Fusheng, Chen, Wanping, Choi, Cindy, Clum, Alicia, dos Santos, Renato Augusto Corrêa, Damásio, André Ricardo de Lima, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María Laura, Henrissat, Bernard, Hildén, Kristiina S, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen L, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio F, MacCabe, Andrew, Mäkelä, Miia R, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos P, Mulé, Giuseppina, Ngan, Chew Yee, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean Paul, Overkamp, Karin M, Park, Hee-Soo, Perrone, Giancarlo, Piumi, Francois, Punt, Peter J, Ram, Arthur FJ, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego Mauricio, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Salih, Nadhira S, Samson, Rob A, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio M, Sun, Hui, Susca, Antonia, Todd, Richard B, Tsang, Adrian, Unkles, Shiela E, van de Wiele, Nathalie, van Rossen-Uffink, Diana, Oliveira, Juliana Velasco de Castro, Vesth, Tammi C, Visser, Jaap, Yu, Jae-Hyuk, Zhou, Miaomiao, and Andersen, Mikael R

Subjects
Human Genome, Genetics, Biotechnology, Emerging Infectious Diseases, Infectious Diseases, Adaptation, Biological, Aspergillus, Biodiversity, Biomass, Carbon, Computational Biology, Cytochrome P-450 Enzyme System, DNA Methylation, Fungal Proteins, Gene Expression Regulation, Fungal, Gene Regulatory Networks, Genome, Fungal, Genomics, Humans, Metabolic Networks and Pathways, Molecular Sequence Annotation, Multigene Family, Oxidoreductases, Phylogeny, Plants, Secondary Metabolism, Signal Transduction, Stress, Physiological, Genome sequencing, Comparative genomics, Fungal biology, Environmental Sciences, Biological Sciences, Information and Computing Sciences, Bioinformatics
Abstract

BackgroundThe 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.ResultsWe 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.ConclusionsMany 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

4. Hybrid Vitis Cultivars with American or Asian Ancestries Show Higher Tolerance towards Grapevine Trunk Diseases

Author

Csótó, András, primary, Nagy, Antal, additional, Laurinyecz, Nóra, additional, Nagy, Zóra Annamária, additional, Németh, Csaba, additional, Németh, Erzsébet Krisztina, additional, Csikász-Krizsics, Anna, additional, Rakonczás, Nándor, additional, Fontaine, Florence, additional, Fekete, Erzsébet, additional, Flipphi, Michel, additional, Karaffa, Levente, additional, and Sándor, Erzsébet, additional

Published
2023
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7. Generation, Transfer, and Loss of Alternative Oxidase Paralogues in the Aspergillaceae Family.

Author

Flipphi, Michel, Márton, Alexandra, Bíró, Vivien, Ág, Norbert, Sándor, Erzsébet, Fekete, Erzsébet, and Karaffa, Levente

Subjects
ASPERGILLUS niger, ORGANIC acids, PENICILLIUM, ELECTRON transport, CHROMOSOME duplication, ASPERGILLUS
Abstract

Alternative oxidase (Aox) is a terminal oxidase operating in branched electron transport. The activity correlates positively with overflow metabolisms in certain Aspergilli, converting intracellular glucose by the shortest possible path into organic acids, like citrate or itaconate. Aox is nearly ubiquitous in fungi, but aox gene multiplicity is rare. Nevertheless, within the family of the Aspergillaceae and among its various species of industrial relevance—Aspergillus niger, A. oryzae, A. terreus, Penicillium rubens—paralogous aox genes coexist. Paralogous genes generally arise from duplication and are inherited vertically. Here, we provide evidence of four independent duplication events along the lineage that resulted in aox paralogues (aoxB) in contemporary Aspergillus and Penicillium taxa. In some species, three aox genes are co-expressed. The origin of the A. niger paralogue is different than that of the A. terreus paralogue, but all paralogous clades ultimately arise from ubiquitous aoxA parent genes. We found different patterns of uncorrelated gene losses reflected in the Aspergillus pedigree, albeit the original aoxA orthologues persist everywhere and are never replaced. The loss of acquired paralogues co-determines the contemporary aox gene content of individual species. In Aspergillus calidoustus, the two more ancient paralogues have, in effect, been replaced by two aoxB genes of distinct origins. [ABSTRACT FROM AUTHOR]

Published
2023
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15. GalR, GalX and AraR co-regulate d-galactose and l-arabinose utilization in Aspergillus nidulans

Author

Molecular Plant Physiology, Sub Molecular Plant Physiology, Meng, Jiali, Németh, Zoltán, Peng, Mao, Fekete, Erzsébet, Garrigues, Sandra, Lipzen, Anna, Ng, Vivian, Savage, Emily, Zhang, Yu, Grigoriev, Igor V., Mäkelä, Miia R., Karaffa, Levente, de Vries, Ronald P., Molecular Plant Physiology, Sub Molecular Plant Physiology, Meng, Jiali, Németh, Zoltán, Peng, Mao, Fekete, Erzsébet, Garrigues, Sandra, Lipzen, Anna, Ng, Vivian, Savage, Emily, Zhang, Yu, Grigoriev, Igor V., Mäkelä, Miia R., Karaffa, Levente, and de Vries, Ronald P.

Published
2022

21. The Biocontrol Potential of Endophytic Trichoderma Fungi Isolated from Hungarian Grapevines, Part II, Grapevine Stimulation.

Author

Csótó, András, Kovács, Csilla, Pál, Károly, Nagy, Antal, Peles, Ferenc, Fekete, Erzsébet, Karaffa, Levente, Kubicek, Christian P., and Sándor, Erzsébet

Subjects
ENDOPHYTIC fungi, SUSTAINABLE agriculture, GRAPES, TRICHODERMA, PLANT growth, PLANT colonization
Abstract

In the first part of this two-piece publication, the isolation, identification and in vitro characterization of ten endophytic Trichoderma isolates were reported. Here we report the ability of two different mixes of some of these isolates (Trichoderma simmonsii, Trichoderma orientale and Trichoderma gamsii as well as of Trichoderma afroharzianum and T. simmonsii) to colonize and stimulate the growth of grapevines. Two commercial vineyards about 400 km away from the site of isolation were used as experimental fields, from which the strains of three Trichoderma species were re-isolated up to four years after rootstock soaking treatment with conidiospores, performed before planting. The treatments decreased the overall percentage of lost plants of about 30%, although a low number of lost plants (about 5%) were observed also in the control plot. For all cultivars and clones, the Trichoderma treatments significantly increased both the bud burst ratio and bud burst vigor index. In addition, the grape must parameters such as the Brix degrees, as well as the extract, the D-glucose and the D-fructose concentrations all appeared to be improved, suggesting a potentially higher ethanol content of the produced wine. We conclude that grapevine-endophytic Trichoderma isolates promote plant growth, which could be a useful feature for sustainable agriculture in general and integrated plant production in particular. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Carbon-Source Dependent Interplay of Copper and Manganese Ions Modulates the Morphology and Itaconic Acid Production in Aspergillus terreus

Author

Sándor, Erzsébet, Kolláth, István S., Fekete, Erzsébet, Bíró, Vivien, Flipphi, Michel, Kovács, Béla, Kubicek, Christian P., and Karaffa, Levente

Subjects
inorganic chemicals, mycelial pellets, manganese(II) ions, Aspergillus terreus, pentose, hexose, itaconic acid overflow, Microbiology, divalent cation antagonism, Original Research, copper(II) ions
Abstract

The effects of the interplay of copper(II) and manganese(II) ions on growth, morphology and itaconic acid formation was investigated in a high-producing strain of Aspergillus terreus (NRRL1960), using carbon sources metabolized either mainly via glycolysis (D-glucose, D-fructose) or primarily via the pentose phosphate shunt (D-xylose, L-arabinose). Limiting Mn2+ concentration in the culture broth is indispensable to obtain high itaconic acid yields, while in the presence of higher Mn2+ concentrations yield decreases and biomass formation is favored. However, this low yield in the presence of high Mn2+ ion concentrations can be mitigated by increasing the Cu2+ concentration in the medium when D-glucose or D-fructose is the growth substrate, whereas this effect was at best modest during growth on D-xylose or L-arabinose. A. terreus displays a high tolerance to Cu2+ which decreased when Mn2+ availability became increasingly limiting. Under such conditions biomass formation on D-glucose or D-fructose could be sustained at concentrations up to 250 mg L–1 Cu2+, while on D-xylose- or L-arabinose biomass formation was completely inhibited at 100 mg L–1. High (>75%) specific molar itaconic acid yields always coincided with an “overflow-associated” morphology, characterized by small compact pellets (

Published
2021

26. Additional file 2 of The effects of external Mn2+ concentration on hyphal morphology and citric acid production are mediated primarily by the NRAMP-family transporter DmtA in Aspergillus niger

Author

Fejes, Balázs, Ouedraogo, Jean-Paul, Fekete, Erzsébet, Sándor, Erzsébet, Flipphi, Michel, Soós, Áron, Molnár, Ákos, Kovács, Béla, Kubicek, Christian, Tsang, Adrian, and Karaffa, Levente

Abstract

Additional file 2: Table S1. Distribution of Mn2+ ions in a liquid culture of Aspergillus niger NRRL 2270.

Published
2020
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27. Additional file 1 of The effects of external Mn2+ concentration on hyphal morphology and citric acid production are mediated primarily by the NRAMP-family transporter DmtA in Aspergillus niger

Author

Fejes, Balázs, Ouedraogo, Jean-Paul, Fekete, Erzsébet, Sándor, Erzsébet, Flipphi, Michel, Soós, Áron, Molnár, Ákos, Kovács, Béla, Kubicek, Christian, Tsang, Adrian, and Karaffa, Levente

Abstract

Additional file 1: Figure S1. Validation of the Mn2+-determination assay: linearity of measured Mn2+ content with increasing biomass.

Published
2020
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28. Additional file 7 of The effects of external Mn2+ concentration on hyphal morphology and citric acid production are mediated primarily by the NRAMP-family transporter DmtA in Aspergillus niger

Author

Fejes, Balázs, Ouedraogo, Jean-Paul, Fekete, Erzsébet, Sándor, Erzsébet, Flipphi, Michel, Soós, Áron, Molnár, Ákos, Kovács, Béla, Kubicek, Christian, Tsang, Adrian, and Karaffa, Levente

Abstract

Additional file 7: Figure S2: Schematic illustration of construction of NRRL3_07789 promoter replacement cassette.

Published
2020
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29. Additional file 5 of The effects of external Mn2+ concentration on hyphal morphology and citric acid production are mediated primarily by the NRAMP-family transporter DmtA in Aspergillus niger

Author

Fejes, Balázs, Ouedraogo, Jean-Paul, Fekete, Erzsébet, Sándor, Erzsébet, Flipphi, Michel, Soós, Áron, Molnár, Ákos, Kovács, Béla, Kubicek, Christian, Tsang, Adrian, and Karaffa, Levente

Abstract

Additional file 5: Table S4: Primers used for constructing the linear fragments.

Published
2020
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30. Additional file 6 of The effects of external Mn2+ concentration on hyphal morphology and citric acid production are mediated primarily by the NRAMP-family transporter DmtA in Aspergillus niger

Author

Fejes, Balázs, Ouedraogo, Jean-Paul, Fekete, Erzsébet, Sándor, Erzsébet, Flipphi, Michel, Soós, Áron, Molnár, Ákos, Kovács, Béla, Kubicek, Christian, Tsang, Adrian, and Karaffa, Levente

Abstract

Additional file 6: Table S5: CRISPR guide sequences used for targeting dmtA (= NRRL3_07789).

Published
2020
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31. Additional file 4 of The effects of external Mn2+ concentration on hyphal morphology and citric acid production are mediated primarily by the NRAMP-family transporter DmtA in Aspergillus niger

Author

Fejes, Balázs, Ouedraogo, Jean-Paul, Fekete, Erzsébet, Sándor, Erzsébet, Flipphi, Michel, Soós, Áron, Molnár, Ákos, Kovács, Béla, Kubicek, Christian, Tsang, Adrian, and Karaffa, Levente

Subjects
parasitic diseases, fungi
Abstract

Additional file 4: Table S3: Gene-specific probes used for the transcript analysis of Aspergillus niger dmtA (NRRL3_07789).

Published
2020
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32. Additional file 3 of The effects of external Mn2+ concentration on hyphal morphology and citric acid production are mediated primarily by the NRAMP-family transporter DmtA in Aspergillus niger

Author

Fejes, Balázs, Ouedraogo, Jean-Paul, Fekete, Erzsébet, Sándor, Erzsébet, Flipphi, Michel, Soós, Áron, Molnár, Ákos, Kovács, Béla, Kubicek, Christian, Tsang, Adrian, and Karaffa, Levente

Subjects
parasitic diseases, fungi, skin and connective tissue diseases
Abstract

Additional file 3: Table S2: Aspergillus niger strains used in this study.

Published
2020
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35. Manganese Deficiency Is Required for High Itaconic Acid Production From D-Xylose in Aspergillus terreus

Author

Kolláth, István Sándor, Molnár, Ákos Péter, Soós, Áron, Fekete, Erzsébet, Karaffa, Erzsébet Mónika, Kovács, Béla, Kubicek, Christian P., and Karaffa, Levente

Subjects
D-xylose, Természettudományok, specific yield, Aspergillus terreus, lcsh:QR1-502, volumetric yield, Biológiai tudományok, itaconic acid, fermentation, lcsh:Microbiology
Abstract

Itaconic acid is used as a bio-based, renewable building block in the polymer industry. It is produced by submerged fermentations of the filamentous fungus Aspergillus terreus from molasses or starch, but research over the efficient utilization of non-food, lignocellulosic plant biomass is soaring. The objective of this study was to test whether the application of two key cultivation parameters for obtaining itaconic acid from D-glucose in high yields – Mn2+ ion deficiency and high concentration of the carbon source – would also occur on D-xylose, the principal monomer of lignocellulose. To this end, a carbon and energy balance for itaconic acid formation was established, which is 0.83 moles/mole D-xylose. The effect of Mn2+ ions on itaconic acid formation was indeed similar to that on D-glucose and maximal yields were obtained below 3 μg L–1 Mn2+ ions, which were, however, only 0.63 moles of itaconic acid per mole D-xylose. In contrast to the case on D-glucose, increasing D-xylose concentration over 50 g L–1 did not change the above yield. By-products such as xylitol and α-ketoglutarate were found, but in total they remained below 2% of the concentration of D-xylose. Mass balance of the fermentation with 110 g L–1D-xylose revealed that >95% of the carbon from D-xylose was accounted as biomass, itaconic acid, and the carbon dioxide released in the last step of itaconic acid biosynthesis. Our data show that the efficiency of biomass formation is the critical parameter for itaconic acid yield from D-xylose under otherwise optimal conditions.

Published
2019

36. l-Arabinose induces d-galactose catabolism via the Leloir pathway in Aspergillus nidulans

Author

Németh, Zoltán, Kulcsár, László, Flipphi, Michel, Orosz, Anita, Aguilar-Pontes, Maria Victoria, de Vries, Ronald P, Karaffa, Levente, Fekete, Erzsébet, Sub Molecular Plant Physiology, Molecular Plant Physiology, Westerdijk Fungal Biodiversity Institute - Fungal Physiology, Westerdijk Fungal Biodiversity Institute, Sub Molecular Plant Physiology, and Molecular Plant Physiology

Subjects
Mixed carbon source synergism, Galactokinase gene, Induction of transcription, Pentose, Biológiai tudományok, Pentose phosphate pathway, Xylitol, Microbiology, Galactans, Aspergillus nidulans, 03 medical and health sciences, chemistry.chemical_compound, UDPglucose 4-Epimerase, Természettudományok, Polysaccharides, Gene Expression Regulation, Fungal, Genetics, Glycoside hydrolase, d-Galactose, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Xylose, biology, 030306 microbiology, Catabolism, Galactose, biology.organism_classification, Galactokinase, Arabinose, Leloir pathway, Metabolism, chemistry, Biochemistry, l-Arabinose, Pectins, Galactose 1-epimerase gene, Metabolic Networks and Pathways
Abstract

l-Arabinose and d-galactose are the principal constituents of l-arabinogalactan, and also co-occur in other hemicelluloses and pectins. In this work we hypothesized that similar to the induction of relevant glycoside hydrolases by monomers liberated from these plant heteropolymers, their respective catabolisms in saprophytic and phytopathogenic fungi may respond to the presence of the other sugar to promote synergistic use of the complex growth substrate. We showed that these two sugars are indeed consumed simultaneously by Aspergillus nidulans, while l-arabinose is utilised faster in the presence than in the absence of d-galactose. Furthermore, the first two genes of the Leloir pathway for d-galactose catabolism - encoding d-galactose 1-epimerase and galactokinase - are induced more rapidly by l-arabinose than by d-galactose eventhough deletion mutants thereof grow as well as a wild type strain on the pentose. d-Galactose 1-epimerase is hyperinduced by l-arabinose, d-xylose and l-arabitol but not by xylitol. The results suggest that in A. nidulans, l-arabinose and d-xylose - both requiring NADPH for their catabolisation - actively promote the enzyme infrastructure necessary to convert β-d-galactopyranose via the Leloir pathway with its α-anomer specific enzymes, into β-d-glucose-6-phosphate (the starting substrate of the oxidative part of the pentose phosphate pathway) even in the absence of d-galactose.

Published
2019

37. MOESM2 of Comparative genome sequence analysis underscores mycoparasitism as the ancestral life style of Trichoderma

Author

Kubicek, Christian, Herrera-Estrella, Alfredo, Seidl-Seiboth, Verena, Martinez, Diego, Druzhinina, Irina, Thon, Michael, Zeilinger, Susanne, Casas-Flores, Sergio, Horwitz, Benjamin, Prasun Mukherjee, Mukherjee, Mala, Kredics, László, Alcaraz, Luis, Aerts, Andrea, Antal, Zsuzsanna, Atanasova, Lea, Cervantes-Badillo, Mayte, Challacombe, Jean, Chertkov, Olga, McCluskey, Kevin, Coulpier, Fanny, Deshpande, Nandan, Döhren, Hans Von, Ebbole, Daniel, Esquivel-Naranjo, Edgardo, Fekete, Erzsébet, Flipphi, Michel, Glaser, Fabian, Gómez-Rodríguez, Elida, Gruber, Sabine, Han, Cliff, Henrissat, Bernard, Hermosa, Rosa, Hernández-Oñate, Miguel, Karaffa, Levente, Kosti, Idit, Crom, Stéphane Le, Lindquist, Erika, Lucas, Susan, Lübeck, Mette, Lübeck, Peter, Margeot, Antoine, Metz, Benjamin, Misra, Monica, Nevalainen, Helena, Omann, Markus, Packer, Nicolle, Perrone, Giancarlo, Uresti-Rivera, Edith, Salamov, Asaf, Schmoll, Monika, Seiboth, Bernhard, Shapiro, Harris, Sukno, Serenella, Tamayo-Ramos, Juan, Tisch, Doris, Wiest, Aric, Wilkinson, Heather, Zhang, Michael, Coutinho, Pedro, Kenerley, Charles, Monte, Enrique, Baker, Scott, and Grigoriev, Igor

Subjects
body regions, surgical procedures, operative, education, health care economics and organizations, humanities
Abstract

Additional file 2: Additional information on selected gene groups of Trichoderma , methods used for genome sequencing, and legends for the figures in Additional file 3. Chapter 1: Carbohydrate-Active enzymes (CAZymes). Chapter 2: Aegerolysins and other toxins. Chapter 3: Small secreted cysteine rich proteins (SSCPs). Chapter 4: EST sequencing and analysis. Chapter 5: Legends to figures. (DOCX 38 KB)

Published
2019
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38. l-Arabinose induces d-galactose catabolism via the Leloir pathway in Aspergillus nidulans

Author

Sub Molecular Plant Physiology, Molecular Plant Physiology, Németh, Zoltán, Kulcsár, László, Flipphi, Michel, Orosz, Anita, Aguilar-Pontes, Maria Victoria, de Vries, Ronald P, Karaffa, Levente, Fekete, Erzsébet, Sub Molecular Plant Physiology, Molecular Plant Physiology, Németh, Zoltán, Kulcsár, László, Flipphi, Michel, Orosz, Anita, Aguilar-Pontes, Maria Victoria, de Vries, Ronald P, Karaffa, Levente, and Fekete, Erzsébet

Published
2019

42. Comparative genome sequence analysis underscores mycoparasitism as the ancestral life style of Trichoderma

Author

Kubicek, Christian P, Herrera-Estrella, Alfredo, Seidl-Seiboth, Verena, Martinez, Diego A, Druzhinina, Irina S, Thon, Michael, Zeilinger, Susanne, Casas-Flores, Sergio, Horwitz, Benjamin A, Mukherjee, Prasun K, Mukherjee, Mala, Kredics, László, Alcaraz, Luis D, Aerts, Andrea, Antal, Zsuzsanna, Atanasova, Lea, Cervantes-Badillo, Mayte G, Challacombe, Jean, Chertkov, Olga, McCluskey, Kevin, Coulpier, Fanny, Deshpande, Nandan, von Döhren, Hans, Ebbole, Daniel J, Esquivel-Naranjo, Edgardo U, Fekete, Erzsébet, Flipphi, Michel, Glaser, Fabian, Gómez-Rodríguez, Elida Y, Gruber, Sabine, Han, Cliff, Henrissat, Bernard, Hermosa, Rosa, Hernández-Oñate, Miguel, Karaffa, Levente, Kosti, Idit, Le Crom, Stéphane, Lindquist, Erika, Lucas, Susan, Lübeck, Mette, Lübeck, Peter S, Margeot, Antoine, Metz, Benjamin, Misra, Monica, Nevalainen, Helena, Omann, Markus, Packer, Nicolle, Perrone, Giancarlo, Uresti-Rivera, Edith E, Salamov, Asaf, Schmoll, Monika, Seiboth, Bernhard, Shapiro, Harris, Sukno, Serenella, Tamayo-Ramos, Juan Antonio, Tisch, Doris, Wiest, Aric, Wilkinson, Heather H, Zhang, Michael, Coutinho, Pedro M, Kenerley, Charles M, Monte, Enrique, Baker, Scott E, and Grigoriev, Igor V

Published
2011
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44. The CRE1 carbon catabolite repressor of the fungus Trichoderma reesei: a master regulator of carbon assimilation

Author

Seiboth Bernhard, Druzhinina Irina S, Karaffa Levente, Hartl Lukas, Sándor Erzsébet, Fekete Erzsébet, Atanasova Lea, Linke Rita, Margeot Antoine, Portnoy Thomas, Le Crom Stéphane, and Kubicek Christian P

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background The identification and characterization of the transcriptional regulatory networks governing the physiology and adaptation of microbial cells is a key step in understanding their behaviour. One such wide-domain regulatory circuit, essential to all cells, is carbon catabolite repression (CCR): it allows the cell to prefer some carbon sources, whose assimilation is of high nutritional value, over less profitable ones. In lower multicellular fungi, the C2H2 zinc finger CreA/CRE1 protein has been shown to act as the transcriptional repressor in this process. However, the complete list of its gene targets is not known. Results Here, we deciphered the CRE1 regulatory range in the model cellulose and hemicellulose-degrading fungus Trichoderma reesei (anamorph of Hypocrea jecorina) by profiling transcription in a wild-type and a delta-cre1 mutant strain on glucose at constant growth rates known to repress and de-repress CCR-affected genes. Analysis of genome-wide microarrays reveals 2.8% of transcripts whose expression was regulated in at least one of the four experimental conditions: 47.3% of which were repressed by CRE1, whereas 29.0% were actually induced by CRE1, and 17.2% only affected by the growth rate but CRE1 independent. Among CRE1 repressed transcripts, genes encoding unknown proteins and transport proteins were overrepresented. In addition, we found CRE1-repression of nitrogenous substances uptake, components of chromatin remodeling and the transcriptional mediator complex, as well as developmental processes. Conclusions Our study provides the first global insight into the molecular physiological response of a multicellular fungus to carbon catabolite regulation and identifies several not yet known targets in a growth-controlled environment.

Published
2011
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45. Additional file 8: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Subjects
body regions, inorganic chemicals, nervous system, fungi
Abstract

Effect of SHAM and KCN on fungal growth and sporulation. (PDF 252 kb)

Published
2017
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46. Additional file 27: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Abstract

Maximum likelihood rooted phylogeny of the FCY-like transporters of the aspergilli and some penicillia. (PDF 324 kb)

Published
2017
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47. Additional file 7: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Abstract

Comparative growth profiling of the aspergilli and selected other fungi. (PDF 8.65 kb)

Published
2017
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48. Additional file 6: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Subjects
body regions, animal structures, nervous system, fungi
Abstract

Overview of number of putative orthologs/paralogs in the compared fungal species related to primary carbon metabolism. (PDF 237 kb)

Published
2017
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49. Additional file 5: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Subjects
body regions, nervous system, fungi, behavior and behavior mechanisms, reproductive and urinary physiology
Abstract

Expression of mating and pheromone-signalling pathway genes in representative asexual aspergilli. (PDF 488 kb)

Published
2017
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50. Additional file 15: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Abstract

Extended analysis of stress tolerance of the aspergilli. (PDF 706 kb)

Published
2017
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