Use of Competitive Filamentous Fungi as an Alternative Approach for Mycotoxin Risk Reduction in Staple Cereals: State of Art and Future Perspectives

Sarrocco, Sabrina; Mauro, Antonio; Battilani, Paola

doi:10.3390/toxins11120701

Cited by 54 publications

(48 citation statements)

References 123 publications

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“…In T. arundinaceum , tri gene expression is affected when grown in dual cultures with B. cinerea , while polyketides and harzianum A (HA) produced by the first induce changes in some B. cinerea genes linked to its virulence [ 23 ]. Since T. gamsii T6085 is able to suppress F. graminearum on wheat spikes and to reduce DON production by the pathogen [ 31 , 32 , 34 , 35 ], we investigated whether a differential expression of TS genes of T. gamsii T6085 occurs when the fungus interacts with F. graminearum on wheat spikes. However, our results show that the presence of the pathogen did not induce prominent changes in TS expression in T. gamsii T6085 when both fungi were on wheat spikes, although ts11 was found slightly up-regulated.…”

Section: Discussionmentioning

confidence: 99%

“…During the past 10 years, T. gamsii T6085 has been evaluated as BCA against Fusarium graminearum , the most aggressive causal agent of Fusarium Head Blight (FHB) on wheat. T6085 is able to reduce the growth of the pathogen as well as the production of deoxynivalenol (DON) [ 31 , 32 ], growing in the presence of high DON concentrations (50 ppm) and reducing FHB symptoms and the development of F. graminearum perithecia on wheat straw [ 33 , 34 , 35 , 36 ]. In addition, the fungus establishes a beneficial interaction with wheat roots, behaving as an endophyte and inducing the plant defense responses [ 36 ].…”

Section: Introductionmentioning

confidence: 99%

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Combined Comparative Genomics and Gene Expression Analyses Provide Insights into the Terpene Synthases Inventory in Trichoderma

et al. 2020

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Trichoderma is a fungal genus comprising species used as biocontrol agents in crop plant protection and with high value for industry. The beneficial effects of these species are supported by the secondary metabolites they produce. Terpenoid compounds are key players in the interaction of Trichoderma spp. with the environment and with their fungal and plant hosts; however, most of the terpene synthase (TS) genes involved in their biosynthesis have yet not been characterized. Here, we combined comparative genomics of TSs of 21 strains belonging to 17 Trichoderma spp., and gene expression studies on TSs using T. gamsii T6085 as a model. An overview of the diversity within the TS-gene family and the regulation of TS genes is provided. We identified 15 groups of TSs, and the presence of clade-specific enzymes revealed a variety of terpenoid chemotypes evolved to cover different ecological demands. We propose that functional differentiation of gene family members is the driver for the high number of TS genes found in the genomes of Trichoderma. Expression studies provide a picture in which different TS genes are regulated in many ways, which is a strong indication of different biological functions.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Combined Comparative Genomics and Gene Expression Analyses Provide Insights into the Terpene Synthases Inventory in Trichoderma

et al. 2020

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“…Competitive interactions between pathogenic and beneficial microorganisms include both exploitation and interference competition [ 89 ]. When Aspergillus flavus and Aspergillus parasiticus are co-cultured with Salmonella, the colony diameter and spore formation of Aspergillus flavus and Aspergillus parasiticus are decreased, and the contents of AFs (AFB 1 , AFB 2 , AFG 1 , and AFG 2 ) are reduced [ 86 ].…”

Section: Decontamination Mechanism Of Afsmentioning

confidence: 99%

Aflatoxin Detoxification Using Microorganisms and Enzymes

Guan

Chen

Nepovimová

et al. 2021

Toxins

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Mycotoxin contamination causes significant economic loss to food and feed industries and seriously threatens human health. Aflatoxins (AFs) are one of the most harmful mycotoxins, which are produced by Aspergillus flavus, Aspergillus parasiticus, and other fungi that are commonly found in the production and preservation of grain and feed. AFs can cause harm to animal and human health due to their toxic (carcinogenic, teratogenic, and mutagenic) effects. How to remove AF has become a major problem: biological methods cause no contamination, have high specificity, and work at high temperature, affording environmental protection. In the present research, microorganisms with detoxification effects researched in recent years are reviewed, the detoxification mechanism of microbes on AFs, the safety of degrading enzymes and reaction products formed in the degradation process, and the application of microorganisms as detoxification strategies for AFs were investigated. One of the main aims of the work is to provide a reliable reference strategy for biological detoxification of AFs.

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“…Sarrocco and Vannacci [ 27 ] described useful preharvest application of beneficial fungi in field, which afterwards resulted in a good management and prevention of accumulation of mycotoxins during storage. Later, Sarrocco et al [ 31 ] examined the history of implementation of non-aflatoxigenic isolates of Aspergillus flavus aimed for prevention of aflatoxin contamination of corn and also provided an overview of the prospective usage of competitive filamentous fungi beneficial in counteracting Fusarium head blight in wheat and alleviating Fusaria toxin synthesis. Their analysis focused on the exploitation of fungi that could compete for nutrients and space (competitive exploitation) and/or fight pathogens (intervening competition).…”

Section: Pre-harvest Biological Controlmentioning

confidence: 99%

Possibilities for the Biological Control of Mycotoxins in Food and Feed

Nešić

Habschied

2021

Toxins

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Seeking useful biological agents for mycotoxin detoxification has achieved success in the last twenty years thanks to the participation of many multidisciplinary teams. We have recently witnessed discoveries in the fields of bacterial genetics (inclusive of next-generation sequencing), protein encoding, and bioinformatics that have helped to shape the latest perception of how microorganisms/mycotoxins/environmental factors intertwine and interact, so the road is opened for new breakthroughs. Analysis of literature data related to the biological control of mycotoxins indicates the ability of yeast, bacteria, fungi and enzymes to degrade or adsorb mycotoxins, which increases the safety and quality of susceptible crops, animal feed and, ultimately, food of animal origin (milk, meat and eggs) by preventing the presence of residues. Microbial detoxification (transformation and adsorption) is becoming a trustworthy strategy that leaves no or less toxic compounds and contributes to food security. This review summarizes the data and highlights the importance and prospects of these methods.

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Use of Competitive Filamentous Fungi as an Alternative Approach for Mycotoxin Risk Reduction in Staple Cereals: State of Art and Future Perspectives

Cited by 54 publications

References 123 publications

Combined Comparative Genomics and Gene Expression Analyses Provide Insights into the Terpene Synthases Inventory in Trichoderma

Combined Comparative Genomics and Gene Expression Analyses Provide Insights into the Terpene Synthases Inventory in Trichoderma

Aflatoxin Detoxification Using Microorganisms and Enzymes

Possibilities for the Biological Control of Mycotoxins in Food and Feed

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