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1. Screening of highly cellulolytic fungi and the purification, identification and isolation of the cellulase and xylanase enzymes from these fungi as a prerequisite for future cloning studies
and Forintek Canada Corp. Eastern LaboratoryCanadian Forestry Service
1983, 32 leaves.
Trichoderma harziznum | Trichoderma reesei
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2. Full Text Trichoderma : the genomics of opportunistic success
by Zeilinger, Susanne and Druzhinina, Irina S and Monte, Enrique and Seidl-Seiboth, Verena and Mukherjee, Prasun K and Grigoriev, Igor V and Horwitz, Benjamin A and Kubicek, Christian P and Herrera-Estrella, Alfredo and Kenerley, Charles M and Joint Genome Institute (JGI)
Nature Reviews Microbiology, ISSN 1740-1526, 10/2011, Volume 9, Issue 10, pp. 749 - 759
Trichoderma is a genus of common filamentous fungi that display a remarkable range of lifestyles and interactions with other fungi, animals and plants. Because... 
PLANT DEFENSE RESPONSES | ACTIVATED PROTEIN-KINASE | CELL-WALL | MYCOPARASITIC FUNGUS TRICHODERMA | COTTON SEEDLING DISEASES | HARZIANUM CECT-2413 | GLIOCLADIUM-VIRENS | MICROBIOLOGY | BIOLOGICAL-CONTROL | INDUCED SYSTEMIC RESISTANCE | ETHYLENE BIOSYNTHESIS | Hypocrea - physiology | Symbiosis | Trichoderma - physiology | Plant Development | Trichoderma - pathogenicity | Soil Microbiology | Plant Diseases - microbiology | Plants - microbiology | Nematoda - microbiology | Trichoderma - genetics | Rhizosphere | Animals | Trichoderma - growth & development | Genome, Fungal | Genes, Fungal | Fungi | Genomics | Physiological aspects | Evolution | Genetic aspects | Research | Plants
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3. Trichoderma
: identification and agricultural applications
by Samuels, Gary J and Hebbar, Prakash K
2015, ISBN 9780890544846, vi, 196 pages
Scientific applications | Trichoderma | Applications scientifiques
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4. Full Text Engineering of the Trichoderma reesei xylanase3 promoter for efficient enzyme expression
by Hirasawa, Hiroki and Shioya, Koki and Furukawa, Takanori and Tani, Shuji and Sumitani, Jun-ichi and Kawaguchi, Takashi and Morikawa, Yasushi and Shida, Yosuke and Ogasawara, Wataru
Applied Microbiology and Biotechnology, ISSN 0175-7598, 3/2018, Volume 102, Issue 6, pp. 2737 - 2752
The GH10 xylanase XYNIII is expressed in the hyper-cellulase-producing mutant PC-3-7, but not in the standard strain QM9414 of Trichoderma reesei. The GH11... 
Life Sciences | Biotechnology | β-Glucosidase | Microbiology | Xylanase | Cellulase | Microbial Genetics and Genomics | Promoter modification | Trichoderma reesei | FUNGUS TRICHODERMA-REESEI | BIOMASS CONVERSION | L-SORBOSE | CELLULASE INDUCTION | EXTRACELLULAR BETA-GLUCOSIDASE | ASPERGILLUS-ORYZAE | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | beta-Glucosidase | CATABOLITE REPRESSION | HYPOCREA-JECORINA | TRANSCRIPTIONAL REGULATION | XYLANASE-III GENE | Gene Expression Regulation, Fungal | Promoter Regions, Genetic | Metabolic Engineering - methods | Xylans - metabolism | Trichoderma - genetics | Trichoderma - enzymology | beta-Glucosidase - genetics | Xylosidases - genetics | beta-Glucosidase - metabolism | Aspergillus - genetics | Aspergillus - enzymology | Cellulose - metabolism | Trichoderma - metabolism | Ascomycota | Fungi | Genetic aspects | Genetic engineering | Methods | Xylanases | Trichoderma | Enzymes | EXG1 protein | Cellobiase | Saccharification | Carbon | Carbon sources
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5. Full Text Biology and biotechnology of Trichoderma
by Schuster, André and Schmoll, Monika
Applied Microbiology and Biotechnology, ISSN 0175-7598, 7/2010, Volume 87, Issue 3, pp. 787 - 799
Fungi of the genus Trichoderma are soilborne, green-spored ascomycetes that can be found all over the world. They have been studied with respect to various... 
Biotechnology | Trichoderma | Microbiology | Heterologous protein expression | Hypocrea | Biodiversity | Biofuels | Biocontrol | Chemistry | Emerging human pathogen | Cellulase | Microbial Genetics and Genomics | Green mold disease | Application | Cellulase Biocontrol | Biodiversity Application | SECONDARY METABOLITES | DEFENSE RESPONSES | ACTIVATED PROTEIN-KINASE | TRANSFORMATION SYSTEM | CELLULASE GENE-EXPRESSION | IN-VITRO | RHIZOCTONIA-SOLANI | BIOCONTROL MECHANISMS | HYPOCREA-JECORINA ANAMORPH | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | PLANT-PATHOGENS | Gene Expression Regulation, Fungal | Industrial Microbiology | Trichoderma - classification | Trichoderma - genetics | Fungal Proteins - genetics | Trichoderma - enzymology | Fungal Proteins - metabolism | Trichoderma - metabolism | Enzymes | Fungicides | Biomass energy | Biological control | Genetically modified organisms | Pests | Plant metabolites | Production processes | Studies | Fungi | Proteins | Biodiesel fuels | Genomics | Pesticides | Research | Antibiotics | Mini-Review
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6. Full Text Trichoderma research in the genome era
by Mukherjee, Prasun K and Horwitz, Benjamin A and Herrera-Estrella, Alfredo and Schmoll, Monika and Kenerley, Charles M
Annual Review of Phytopathology, ISSN 0066-4286, 08/2013, Volume 51, pp. 105 - 129
Trichoderma species are widely used in agriculture and industry as biopesticides and sources of enzymes, respectively. These fungi reproduce asexually by... 
Fungal-plant interactions | Morphogenesis | Mycoparasitism | Secondary metabolism | Biocontrol | PHOTOINDUCED SPORULATION | ARABIDOPSIS-THALIANA | ACTIVATED PROTEIN-KINASE | FILAMENTOUS FUNGUS TRICHODERMA | fungal-plant interactions | FUNCTIONAL-CHARACTERIZATION | BLUE-LIGHT | PLANT SCIENCES | morphogenesis | BENEFICIAL FUNGUS | secondary metabolism | HYPOCREA-JECORINA | mycoparasitism | biocontrol | INDUCED SYSTEMIC RESISTANCE | Biological Evolution | Host-Pathogen Interactions | Trichoderma - physiology | Biological Control Agents | Multigene Family | Trichoderma - growth & development | Genome, Fungal - genetics | Genomics | Trichoderma - cytology | Plants - microbiology | Trichoderma - genetics | Fungal Proteins - genetics | Fungi, Pathogenic | Microbial genetics | Genetic aspects | Research | Health aspects | Agriculture
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7. Full Text Engineering enhanced cellobiohydrolase activity
by Taylor, Larry E and Knott, Brandon C and Baker, John O and Alahuhta, P. Markus and Hobdey, Sarah E and Linger, Jeffrey G and Lunin, Vladimir V and Amore, Antonella and Subramanian, Venkataramanan and Podkaminer, Kara and Xu, Qi and Vanderwall, Todd A and Schuster, Logan A and Chaudhari, Yogesh B and Adney, William S and Crowley, Michael F and Himmel, Michael E and Decker, Stephen R and Beckham, Gregg T and National Renewable Energy Lab. (NREL), Golden, CO (United States)
Nature Communications, ISSN 2041-1723, 12/2018, Volume 9, Issue 1, pp. 1186 - 10
Glycoside Hydrolase Family 7 cellobiohydrolases (GH7 CBHs) catalyze cellulose depolymerization in cellulolytic eukaryotes, making them key discovery and... 
STRUCTURE-GUIDED RECOMBINATION | FAMILY 7 CELLOBIOHYDROLASE | TRICHODERMA-REESEI CELLOBIOHYDROLASE | PHANEROCHAETE-CHRYSOSPORIUM | CARBOHYDRATE-BINDING MODULE | ACIDOTHERMUS-CELLULOLYTICUS | CRYSTAL-STRUCTURE | MULTIDISCIPLINARY SCIENCES | PENICILLIUM-FUNICULOSUM | CELLULOSE HYDROLYSIS | FUNGAL CELLULASES | Fungal Proteins - chemistry | Catalytic Domain | Cellulose 1,4-beta-Cellobiosidase - genetics | Trichoderma - genetics | Fungal Proteins - genetics | Trichoderma - enzymology | Molecular Dynamics Simulation | Cellulose 1,4-beta-Cellobiosidase - chemistry | Penicillium - genetics | Cellulose 1,4-beta-Cellobiosidase - metabolism | Penicillium - chemistry | Protein Engineering | Protein Conformation | Kinetics | Penicillium - enzymology | Trichoderma - chemistry | Fungal Proteins - metabolism | Carbohydrates | Trichoderma | Hydrolase | Penicillium | Cellulose | Cellobiohydrolase | Trichoderma reesei | Mutants | Depolymerization | Engineering | Eukaryotes | Enzymatic activity | Penicillium funiculosum | Catalysis | Chimeras | Glycoside hydrolase | Crystal structure | polysaccharides | hydrolases | x-ray crystallography | 09 BIOMASS FUELS | protein design
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8. Full Text Tracking the Roots of Cellulase Hyperproduction by the Fungus Trichoderma Reesei Using Massively Parallel DNA Sequencing
by Stéphane Le Crom and Wendy Schackwitz and Len Pennacchio and Jon K. Magnuson and David E. Culley and James R. Collett and Joel Martin and Irina S. Druzhinina and Hugues Mathis and Frédéric Monot and Bernhard Seiboth and Barbara Cherry and Michael Rey and Randy Berka and Christian P. Kubicek and Scott E. Baker and Antoine Margeot and Joan Wennstrom Bennett and Pacific Northwest National Lab. (PNNL), Richland, WA (United States)
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 9/2009, Volume 106, Issue 38, pp. 16151 - 16156
Trichoderma reesei (teleomorph Hypocrea jecorina) is the main industrial source of cellulases and hemicellulases harnessed for the hydrolysis of biomass to... 
Fungi | Trichoderma | Messenger RNA | Mutagenesis | Genes | Genomics | Genomes | Biofuels | Genetic mutation | Sequencing | Biotechnology | WILD-TYPE | MUTANT | LOCALIZATION | biotechnology | 2-DEOXYGLUCOSE | MULTIDISCIPLINARY SCIENCES | biofuels | GLYCOSYLATION | GENOME | GENE | SUGAR MODIFICATIONS | HYPOCREA-JECORINA | STRAIN | DNA, Fungal - genetics | Species Specificity | Cellulase - genetics | Trichoderma - classification | DNA, Fungal - chemistry | Trichoderma - genetics | Fungal Proteins - genetics | Trichoderma - enzymology | Cellulase - metabolism | Genome, Fungal - genetics | Base Composition | Genes, Fungal | Polymorphism, Single Nucleotide | Mutation | Sequence Analysis, DNA - methods | Fungal Proteins - metabolism | Ascomycota | Genetic aspects | Nucleotide sequence | Observations | Transcription | Roots | Biomass | Gene deletion | Clear cutting | genomics | Sugar | Ethanol | Secretion | Industrial applications | Fuel technology | Metabolism | Carbon | Chemicals | Nuclear transport | Mutants | Hydrolysis | Perfect state | Cellulase | DNA | DNA sequencing | mRNA stability | Index Medicus | SACCHARIDES | STRAINS | MUTAGENESIS | CARBON | DNA SEQUENCING | TRANSCRIPTION | HYDROLYSIS | PHENOTYPE | 09 BIOMASS FUELS | TRICHODERMA VIRIDE | CELLULASE | BIOFUELS | NUCLEOTIDES | MUTANTS | METABOLISM | BIOMASS | GENES | ETHANOL | MUTATIONS | FUNCTIONALS | Trichoderma, cellulase, fungi, genomics | Biological Sciences
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9. Full Text Bioaccumulation of copper by Trichoderma viride
by Anand, Purnima and Isar, Jasmine and Saran, Saurabh and Saxena, Rajendra Kumar
Bioresource Technology, ISSN 0960-8524, 2006, Volume 97, Issue 8, pp. 1018 - 1025
Studies were carried out on interaction of with copper and reports bioaccumulation as a mechanism of copper tolerance during growth. There was a marked... 
Copper | Bioaccumulation | Trichoderma viride | Heavy metal | STRAINS | INDUSTRIAL WASTE-WATER | MECHANISM | ENERGY & FUELS | TOLERANCE | bioaccumulation | SACCHAROMYCES-CEREVISIAE | METAL RESISTANCE | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | AUREOBASIDIUM-PULLULANS | heavy metal | copper | BIOSORPTION | ACCUMULATION | NEUROSPORA-CRASSA | Cell Fractionation | Temperature | Sodium Azide - toxicity | Biomass | Dose-Response Relationship, Drug | Trichoderma - drug effects | Culture Media - analysis | Trichoderma - cytology | Cell Wall - ultrastructure | Trichoderma - isolation & purification | Trichoderma - ultrastructure | Copper - pharmacokinetics | Soil Microbiology | Copper - pharmacology | 2,4-Dinitrophenol - toxicity | Chelating Agents - pharmacology | Uncoupling Agents - toxicity | Egtazic Acid - pharmacology | Trichoderma - growth & development | Bioreactors | Cell Wall - metabolism | Mycelium - chemistry | Kinetics | Hydrogen-Ion Concentration | Trichoderma - metabolism | Sodium azide | Cell research
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10. Full Text The relation between xyr1 overexpression in Trichoderma harzianum and sugarcane bagasse saccharification performance
by da Silva Delabona, Priscila and Rodrigues, Gisele Nunes and Zubieta, Mariane Paludetti and Ramoni, Jonas and Codima, Carla Aloia and Lima, Deise Juliana and Farinas, Cristiane Sanchez and da Cruz Pradella, José Geraldo and Seiboth, Bernhard
Journal of Biotechnology, ISSN 0168-1656, 03/2017, Volume 246, pp. 24 - 32
This work investigates the influence of the positive regulator XYR1 of on the production of cellulolytic enzymes, using sugarcane bagasse as carbon source.... 
Trichoderma harzianum | XYR1 | Biomass saccharification | Sugarcane bagasse | Cellulases - genetics | Batch Cell Culture Techniques | Promoter Regions, Genetic | Up-Regulation | Transcriptional Activation | Trichoderma - genetics | Biomass | Fungal Proteins - genetics | Transcription Factors - genetics | Fermentation | Transcription Factors - metabolism | Cellulose - chemistry | Cellulases - metabolism | Trichoderma - growth & development | Bioreactors | Mutation | Fungal Proteins - metabolism | Trichoderma - metabolism | Gene expression | Enzymes | Sugarcane
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11. Full Text Camptothecin-producing endophytic fungus Trichoderma atroviride LY357: isolation, identification, and fermentation conditions optimization for camptothecin production
by Pu, Xiang and Qu, Xixing and Chen, Fei and Bao, Jinku and Zhang, Guolin and Luo, Yinggang
Applied Microbiology and Biotechnology, ISSN 0175-7598, 11/2013, Volume 97, Issue 21, pp. 9365 - 9375
Camptothecin (CPT), the third largest anticancer drug, is produced mainly by Camptotheca acuminata and Nothapodytes foetida. CPT itself is the starting... 
Life Sciences | Biotechnology | Camptothecin | Microbiology | Adsorbent resin | Microbial Genetics and Genomics | Endophytic fungi | Trichoderma atroviride LY357 | Fermentation | Elicitor | SECONDARY METABOLITES | ACUMINATA | HAIRY ROOTS | TAXUS-BREVIFOLIA | BIOACTIVE NATURAL-PRODUCTS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | NOTHAPODYTES-FOETIDA | PACIFIC YEW | TAXOL | BIOREACTOR | ALKALOIDS | Aspergillus - classification | Camptothecin - metabolism | Endophytes - classification | Temperature | DNA, Fungal - genetics | Trichoderma - classification | Endophytes - genetics | Molecular Sequence Data | DNA, Fungal - chemistry | Trichoderma - genetics | Aspergillus - metabolism | Sequence Analysis, DNA | Endophytes - metabolism | Antineoplastic Agents - metabolism | Time Factors | Aspergillus - isolation & purification | Endophytes - isolation & purification | Aspergillus - genetics | Camptotheca - microbiology | Culture Media - chemistry | Trichoderma - isolation & purification | Hydrogen-Ion Concentration | Trichoderma - metabolism | Ascomycota | Fungi | Physiological aspects | Research | Identification and classification | Studies | Analysis | Biosynthesis | Resins
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12. Full Text Cellulose crystallinity – a key predictor of the enzymatic hydrolysis rate
by Hall, Mélanie and Bansal, Prabuddha and Lee, Jay H and Realff, Matthew J and Bommarius, Andreas S
The FEBS Journal, ISSN 1742-464X, 03/2010, Volume 277, Issue 6, pp. 1571 - 1582
The enzymatic hydrolysis of cellulose encounters various limitations that are both substrate‐ and enzyme‐related. Although the crystallinity of pure cellulosic... 
cellulose crystallinity | Cel7A | cellulases | hydrolysis | Trichoderma reesei | Hydrolysis | Cellulose crystallinity | Trichoderma reesei | Cellulases | FINE-STRUCTURE | TRICHODERMA-REESEI | BIOCHEMISTRY & MOLECULAR BIOLOGY | KINETIC-MODEL | INSOLUBLE CELLULOSE | ADSORPTION | CELLOBIOHYDROLASE-I | MICROCRYSTALLINE CELLULOSE | PHOSPHORIC-ACID | MAJOR STRUCTURAL FEATURES | Cellulose - chemistry | Cellulase - metabolism | Adsorption | Hydrolysis - drug effects | Magnetic Resonance Spectroscopy | Crystallography, X-Ray | Trichoderma - enzymology | Phosphoric Acids - pharmacology | Cellulose - metabolism | Enzymes | Cellulose | Biochemistry | Kinetics | Catalysis | Crystallography
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