All Stories

  1. Biocontrol Potential of a Native Trichoderma Collection Against Fusarium oxysporum f. sp. cubense Subtropical Race 4
  2. The identification of a key gene highlights macrocyclic ring’s role in trichothecene toxicity
  3. TRI14 Is Critical for Fusarium graminearum Infection and Spread in Wheat
  4. Trichoderma carraovejensis: a new species from vineyard ecosystem with biocontrol abilities against grapevine trunk disease pathogens and ecological adaptation
  5. Analysis of substrate specificity of cytochrome P450 monooxygenases involved in trichothecene toxin biosynthesis
  6. NX Trichothecenes Are Required for Fusarium graminearum Infection of Wheat
  7. Native Trichoderma Isolates from Soil and Rootstock to Fusarium spp. Control and Growth Promotion of Humulus lupulus L. Plantlets
  8. Vineyard Management and Physicochemical Parameters of Soil Affect Native Trichoderma Populations, Sources of Biocontrol Agents against Phaeoacremonium minimum
  9. Effect of Farnesol in Trichoderma Physiology and in Fungal–Plant Interaction
  10. Spores of Trichoderma Strains over P. vulgaris Beans: Direct Effect on Insect Attacks and Indirect Effect on Agronomic Parameters
  11. Effects of trichothecene production by Trichoderma arundinaceum isolates from bean-field soils on the defense response, growth and development of bean plants (Phaseolus vulgaris)
  12. Identification of polyketide synthase genes required for aspinolide biosynthesis in Trichoderma arundinaceum
  13. Organic and Conventional Bean Pesticides in Development of Autochthonous Trichoderma Strains
  14. Volatile-mediated interactions between Trichoderma harzianum and Acanthoscelides obtectus: A novel in vitro methodology to evaluate the impact of microbial volatile compounds on dry grain storage pests
  15. Editorial: Designing Bio-Formulations Based on Organic Amendments, Beneficial Microbes and Their Metabolites
  16. Use of VOC Chambers to evaluate the impact of microbial volatile compounds on dry grain insect pests
  17. Distribution, Function, and Evolution of a Gene Essential for Trichothecene Toxin Biosynthesis in Trichoderma
  18. Germination and Agronomic Traits of Phaseolus vulgaris L. Beans Sprayed with Trichoderma Strains and Attacked by Acanthoscelides obtectus
  19. The Influence of Temperature on the Growth, Sporulation, Colonization, and Survival of Trichoderma spp. in Grapevine Pruning Wounds
  20. USO DE NUTRAGREEN® COMO TRANSPORTADOR COLOIDAL PARA REDUCIR EL USO DE FERTILIZANTES Y PESTICIDAS EN PERAL
  21. Volatile Organic Compound Chamber: A Novel Technology for Microbiological Volatile Interaction Assays
  22. Influence of Fungicide Application and Vine Age on Trichoderma Diversity as Source of Biological Control Agents
  23. Use of the volatile trichodiene to reduce Fusarium head blight and trichothecene contamination in wheat
  24. Influence of Physicochemical Characteristics of Bean Crop Soil in Trichoderma spp. Development
  25. Phylogenomic analysis of a 55.1 kb 19-gene dataset resolves a monophyletic Fusarium that includes the Fusarium solani Species Complex
  26. Self-Inhibitory Activity of Trichoderma Soluble Metabolites and Their Antifungal Effects on Fusarium oxysporum
  27. Colonization of Vitis vinifera L. by the Endophyte Trichoderma sp. Strain T154: Biocontrol Activity Against Phaeoacremonium minimum
  28. Influence of Substrates in the Development of Bean and in Pathogenicity of Rhizoctonia solani JG Kühn
  29. Evaluation of substrates and additives to Trichoderma harzianum development by qPCR
  30. Genetic bases for variation in structure and biological activity of trichothecene toxins produced by diverse fungi
  31. Synthesis of Trichodermin Derivatives and Their Antimicrobial and Cytotoxic Activities
  32. Identification of plant genes putatively involved in the perception of fungal ergosterol‐squalene
  33. A cytochrome P450 monooxygenase gene required for biosynthesis of the trichothecene toxin harzianum A in Trichoderma
  34. Effect of Trichoderma velutinum and Rhizoctonia solani on the Metabolome of Bean Plants (Phaseolus vulgaris L.)
  35. Role of Trichoderma arundinaceum tri10 in regulation of terpene biosynthetic genes and in control of metabolic flux
  36. Requirement of Two Acyltransferases for 4-O-Acylation during Biosynthesis of Harzianum A, an Antifungal Trichothecene Produced by Trichoderma arundinaceum
  37. Effect of deletion of a trichothecene toxin regulatory gene on the secondary metabolism transcriptome of the saprotrophic fungus Trichoderma arundinaceum
  38. Investigations of Trichoderma spp. and Beauveria bassiana as biological control agent for Xylotrechus arvicola, a major insect pest in Spanish vineyards
  39. Effect of trichodiene production by Trichoderma harzianum on Acanthoscelides obtectus
  40. Evolution of structural diversity of trichothecenes, a family of toxins produced by plant pathogenic and entomopathogenic fungi
  41. Relevance of the deletion of the Tatri4 gene in the secondary metabolome of Trichoderma arundinaceum
  42. Involvement of the Transcriptional Coactivator ThMBF1 in the Biocontrol Activity of Trichoderma harzianum
  43. Control of Xylotrechus arvicola (Coleoptera: Cerambycidae) larvae population by inoculating Trichoderma spp. in vine wood
  44. Effect of Farnesol, a compound produced by Trichoderma when growing on bean (Phaseolus vulgaris L.)
  45. Insecticidal activity of Trichoderma harzianum against Xylotrechus arvicola and Acanthoscelides obtectus inmature stages
  46. Inhibitory activity of Beauveria bassiana and Trichoderma spp. on the insect pests Xylotrechus arvicola (Coleoptera: Cerambycidae) and Acanthoscelides obtectus (Coleoptera: Chrisomelidae: Bruchinae)
  47. Development of a qPCR Strategy to Select Bean Genes Involved in Plant Defense Response and Regulated by the Trichoderma velutinum – Rhizoctonia solani Interaction
  48. Nitrogen Metabolism and Growth Enhancement in Tomato Plants Challenged with Trichoderma harzianum Expressing the Aspergillus nidulans Acetamidase amdS Gene
  49. Trichothecenes and aspinolides produced by Trichoderma arundinaceum regulate expression of Botrytis cinerea genes involved in virulence and growth
  50. Botrydial and botcinins produced byBotrytis cinerearegulate the expression ofTrichoderma arundinaceumgenes involved in trichothecene biosynthesis
  51. The Cerato-Platanin protein Epl-1 from Trichoderma harzianum is involved in mycoparasitism, plant resistance induction and self cell wall protection
  52. The importance of chorismate mutase in the biocontrol potential of Trichoderma parareesei
  53. Trichodiene Production in a Trichoderma harzianum erg1- Silenced Strain Provides Evidence of the Importance of the Sterol Biosynthetic Pathway in Inducing Plant Defense-Related Gene Expression
  54. Influence of Rhizoctonia solani and Trichoderma spp. in growth of bean (Phaseolus vulgaris L.) and in the induction of plant defense-related genes
  55. Gutierrez S
  56. Trichoderma Transformation Methods
  57. Overexpression of erg1 gene in Trichoderma harzianum CECT 2413: effect on the induction of tomato defence-related genes
  58. Novel aspinolide production byTrichoderma arundinaceumwith a potential role inBotrytis cinereaantagonistic activity and plant defence priming
  59. Production of trichodiene by T richoderma harzianum alters the perception of this biocontrol strain by plants and antagonized fungi
  60. Secondary Metabolism and Antimicrobial Metabolites of Trichoderma
  61. Relevance of trichothecenes in fungal physiology: Disruption of tri5 in Trichoderma arundinaceum
  62. Involvement of Trichoderma Trichothecenes in the Biocontrol Activity and Induction of Plant Defense-Related Genes
  63. Overexpression of the Trichoderma brevicompactum tri5 Gene: Effect on the Expression of the Trichodermin Biosynthetic Genes and on Tomato Seedlings
  64. Identification of Loci and Functional Characterization of Trichothecene Biosynthesis Genes in Filamentous Fungi of the Genus Trichoderma
  65. Functional Analysis of theTrichoderma harzianum nox1Gene, Encoding an NADPH Oxidase, Relates Production of Reactive Oxygen Species to Specific Biocontrol Activity against Pythium ultimum
  66. Overexpression of the trichodiene synthase gene tri5 increases trichodermin production and antimicrobial activity in Trichoderma brevicompactum
  67. Transgenic expression of the Trichoderma harzianum hsp70 gene increases Arabidopsis resistance to heat and other abiotic stresses
  68. TvDim1 of Trichoderma virens is involved in redox-processes and confers resistance to oxidative stresses
  69. The ThPG1 Endopolygalacturonase Is Required for the Trichoderma harzianum –Plant Beneficial Interaction
  70. Cloning and characterization of the Thcut1 gene encoding a cutinase of Trichoderma harzianum T34
  71. Overexpression of a Trichoderma HSP70 gene increases fungal resistance to heat and other abiotic stresses
  72. Age-Related Clinical, Serological, and Histopathological Features of Celiac Disease
  73. The heterologous overexpression of hsp23, a small heat-shock protein gene from Trichoderma virens, confers thermotolerance to T. harzianum
  74. Partial silencing of a hydroxy-methylglutaryl-CoA reductase-encoding gene in Trichoderma harzianum CECT 2413 results in a lower level of resistance to lovastatin and lower antifungal activity
  75. ThPTR2, a di/tri-peptide transporter gene from Trichoderma harzianum
  76. Detection of peptaibols and partial cloning of a putative peptaibol synthetase gene fromT. harzianum CECT 2413
  77. Cloning and characterization of the erg1 gene of Trichoderma harzianum: Effect of the erg1 silencing on ergosterol biosynthesis and resistance to terbinafine
  78. Screening of antimicrobial activities in Trichoderma isolates representing three Trichoderma sections
  79. Detection of putative peptide synthetase genes in Trichoderma species: Application of this method to the cloning of a gene from T. harzianum CECT 2413
  80. Co-transformation with autonomous replicating and integrative plasmids in Penicillium chrysogenum is highly efficient and leads in some cases to rescue of the intact integrative plasmid
  81. Stable transformants of the azaphilone pigment-producing Monascus purpureus obtained by protoplast transformation and Agrobacterium -mediated DNA transfer
  82. Expression of a synthetic copy of the bovine chymosin gene inAspergillus awamorifrom constitutive and pH-regulated promoters and secretion using two different pre-pro sequences
  83. The isopenicillin N acyltransferases of Aspergillus nidulans and Penicillium chrysogenum differ in their ability to maintain the 40-kDa alphabeta heterodimer in an undissociated form
  84. A Novel Epimerization System in Fungal Secondary Metabolism Involved in the Conversion of Isopenicillin N into Penicillin N inAcremonium chrysogenum
  85. Silencing of the Aspergillopepsin B (pepB) Gene of Aspergillus awamori by Antisense RNA Expression or Protease Removal by Gene Disruption Results in a Large Increase in Thaumatin Production
  86. The cefT gene of Acremonium chrysogenum C10 encodes a putative multidrug efflux pump protein that significantly increases cephalosporin C production
  87. Subcellular localization of the homocitrate synthase in Penicillium chrysogenum
  88. Characterization of the gdhA Gene from the Phytopathogen Botrytis cinerea
  89. Cloning and characterization of the gene cah B encoding a cephalosporin C acetylhydrolase from Acremonium chrysogenum
  90. Intrachromosomal recombination after targeted monocopy integration in Penicillium chrysogenum : stabilization of the direct repeats to prevent loss of the inserted gene
  91. Targeted Inactivation of the mecB Gene, Encoding Cystathionine-γ-Lyase, Shows that the Reverse Transsulfuration Pathway Is Required for High-Level Cephalosporin Biosynthesis inAcremonium chrysogenum C10 but Not for Methionine Induction of the Cephalosp...
  92. Characterization of the reverse transsulfuration gene mecB of Acremonium chrysogenum, which encodes a functional cystathionine-γ-lyase
  93. Overexpression and lack of degradation of thaumatin in an aspergillopepsin A-defective mutant of Aspergillus awamori containing an insertion in the pep  A gene
  94. Overexpression of the lys1 gene in Penicillium chrysogenum : homocitrate synthase levels, α-aminoadipic acid pool and penicillin production
  95. A Novel Heptameric Sequence (TTAGTAA) Is the Binding Site for a Protein Required for High Level Expression ofpcbAB, the First Gene of the Penicillin Biosynthesis inPenicillium chrysogenum
  96. Intrachromosomal recombination between direct repeats in Penicillium chrysogenum : gene conversion and deletion events
  97. Molecular characterization of the Acremonium chrysogenum cefG gene product: the native deacetylcephalosporin C acetyltransferase is not processed into subunits
  98. Characterization and lysine control of expression of the lys1 gene of Penicillium chrysogenum encoding homocitrate synthase
  99. Characterization of the lys2 gene of Penicillium chrysogenum encoding α -aminoadipic acid reductase
  100. Characterization and nitrogen-source regulation at the transcriptional level of the gdh A gene of Aspergillus awamori encoding an NADP-dependent glutamate dehydrogenase
  101. Expression of the cefG gene is limiting for cephalosporin biosynthesis in Acremonium chrysogenum
  102. Characterization of the bip gene of Aspergillus awamori encoding a protein with an HDEL retention signal homologous to the mammalian BiP involved in polypeptide secretion
  103. An autonomously replicating plasmid transforms Botrytis cinerea to phleomycin resistance
  104. Mutants blocked in penicillin biosynthesis show a deletion of the entire penicillin gene cluster at a specific site within a conserved hexanucleotide sequence
  105. The penicillin gene cluster is amplified in tandem repeats linked by conserved hexanucleotide sequences.
  106. Three genes hrdB, hrdD and hrdT of Streptomyces griseus IMRU 3570, encoding sigma factor-like proteins, are differentially expressed under specific nutritional conditions
  107. Genes for ?-lactam antibiotic biosynthesis
  108. Expression of genes and processing of enzymes for the biosynthesis of penicillins and cephalosporins
  109. Resolution of four large chromosomes in penicillin-producing filamentous fungi: the penicillin gene cluster is located on chromosome II (9.6 Mb) in Penicillium notatum and chromosome 1 (10.4 Mb) in Penicillium chrysogenum
  110. Expression of the penDE gene of Penicillium chrysogenum encoding isopenicillin N acyltransferase in Cephalosporium acremonium: production of benzylpenicillin by the transformants
  111. Cloning, characterization of the acyl-CoA : 6-amino penicillanic acid acyltransferase gene of Aspergillus nidulans and linkage to the isopenicillin N synthase gene