Journal ArticleDOI
Trichoderma species--opportunistic, avirulent plant symbionts.
TLDR
Root colonization by Trichoderma spp.Abstract:
Trichoderma spp. are free-living fungi that are common in soil and root ecosystems. Recent discoveries show that they are opportunistic, avirulent plant symbionts, as well as being parasites of other fungi. At least some strains establish robust and long-lasting colonizations of root surfaces and penetrate into the epidermis and a few cells below this level. They produce or release a variety of compounds that induce localized or systemic resistance responses, and this explains their lack of pathogenicity to plants. These root-microorganism associations cause substantial changes to the plant proteome and metabolism. Plants are protected from numerous classes of plant pathogen by responses that are similar to systemic acquired resistance and rhizobacteria-induced systemic resistance. Root colonization by Trichoderma spp. also frequently enhances root growth and development, crop productivity, resistance to abiotic stresses and the uptake and use of nutrients.read more
Citations
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The root endophytic fungus Trichoderma atroviride induces foliar herbivory resistance in maize plants
TL;DR: Results provide new insight into the role of T. atroviride in plant health in terms of induction of resistance to insect herbivory and production of antifeedant secondary metabolites.
Journal ArticleDOI
Multiple criteria-based screening of Trichoderma isolates for biological control of Botrytis cinerea on tomato
TL;DR: This study suggests that the multiple criteria-based procedure is rational for screening of Trichoderma isolates against B. cinerea, and T. koningiopsis T-51 is a promising biocontrol agent.
Journal ArticleDOI
Antagonism of Trichoderma spp. against Macrophomina phaseolina: Evaluation of Coiling and Cell Wall Degrading Enzymatic Activities
TL;DR: The growth inhibitions of pathogen during antagonism was positively correlated with coiling pattern of antagonists at 14 DAI, and induction of chitinase, β-1, 3 glucanase and total phenol content.
Journal ArticleDOI
Trichoderma harzianum elicits defence response genes in roots of potato plantlets challenged by Rhizoctonia solani
TL;DR: Results suggest that in the presence of T. harzianum Rifai MUCL 29707, the expression of Lox and GST1 genes are primed in potato plantlets infected with R. solani at an early stage of infection.
Journal ArticleDOI
Antagonistic Potential of Native Trichoderma viride Strain against Potent Tea Fungal Pathogens in North East India.
Ashok Naglot,Sanjeev Goswami,I. Rahman,D. D. Shrimali,Kamlesh K. Yadav,Vikas Kumar Gupta,Aprana Jyoti Rabha,H. K. Gogoi,Vijay Veer +8 more
TL;DR: The antifungal activity of the filtrate was significantly reduced but not entirely after heat or proteinase K treatment, demonstrating substantial role of certain unknown thermostable antIFungal compound(s) in the inhibitory activity.
References
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Journal ArticleDOI
Systemic resistance induced by rhizosphere bacteria
TL;DR: Rhizobacteria-mediated induced systemic resistance (ISR) is effective under field conditions and offers a natural mechanism for biological control of plant disease.
Journal ArticleDOI
Microbial interactions and biocontrol in the rhizosphere
TL;DR: Multiple microbial interactions involving bacteria and fungi in the rhizosphere are shown to provide enhanced biocontrol in many cases in comparison with biocOntrol agents used singly.
Journal ArticleDOI
Mechanisms Employed by Trichoderma Species in the Biological Control of Plant Diseases: The History and Evolution of Current Concepts.
TL;DR: Past research indicates that the mechanisms are many and varied, even within the genus Trichoderma, and in order to make the most effective use of biocontrol agents for the control of plant diseases, it must understand how the agents work and what their limitations are.
Journal ArticleDOI
Bacterial volatiles promote growth in Arabidopsis.
Choong-Min Ryu,Mohamed A. Farag,Chia-Hui Hu,Munagala S. Reddy,Han-Xun Wei,Paul W. Paré,Joseph W. Kloepper +6 more
TL;DR: The demonstration that PGPR strains release different volatile blends and that plant growth is stimulated by differences in these volatile blends establishes an additional function for volatile organic compounds as signaling molecules mediating plant–microbe interactions.