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Type A Trichothecene Metabolic Profile Differentiation, Mechanisms, Biosynthetic Pathways, and Evolution in Fusarium Species—A Mini Review

Jianhua Wang, Mengyuan Zhang, Junhua Yang, Xianli Yang, Jiahui Zhang, Zhihui Zhao

2023Toxins21 citationsDOIOpen Access PDF

Abstract

Trichothecenes are the most common Fusarium toxins detected in grains and related products. Type A trichothecenes are among the mycotoxins of greatest concern to food and feed safety due to their high toxicity. Recently, two different trichothecene genotypes within Fusarium species were reported. The available information showed that Tri1 and Tri16 genes are the key determinants of the trichothecene profiles of T-2 and DAS genotypes. In this review, polymorphisms in the Tri1 and Tri16 genes in the two genotypes were investigated. Meanwhile, the functions of genes involved in DAS and NEO biosynthesis are discussed. The possible biosynthetic pathways of DAS and NEO are proposed in this review, which will facilitate the understanding of the synthesis process of trichothecenes in Fusarium strains and may also inspire researchers to design and conduct further research. Together, the review provides insight into trichothecene profile differentiation and Tri gene evolutionary processes responsible for the structural diversification of trichothecene produced by Fusarium.

Topics & Concepts

TrichotheceneFusariumBiologyMycotoxinGeneGenotypeGeneticsBotanyMycotoxins in Agriculture and FoodPlant Pathogens and Fungal DiseasesPlant Disease Resistance and Genetics
Type A Trichothecene Metabolic Profile Differentiation, Mechanisms, Biosynthetic Pathways, and Evolution in Fusarium Species—A Mini Review | Litcius