Abstract
Trichothecene mycotoxins are a class of secondary metabolites produced by multiple genera of fungi, including certain plant pathogenic Fusarium species. Functional variation in the TRI1 gene produces a novel Type A trichothecene called NX-2 in strains of F. graminearum. Using a bioinformatics approach, a systematic analysis of 52 translated TRI1 sequences of Fusarium species, including five F. graminearum NX-2 producers and four F. graminearum non-NX-2 producers, was conducted to explain the functional difference of TRI1p of FGNX-2. An assessment of several signature motifs of fungal P450s revealed amino acid substitutions in addition to the post-translational N-X-S/T sequons motif, which is indicative of N-linked glycosylation of this TRI1-encoded protein characteristic of NX-2 producers. There was evidence of selection bias, where TRI1 gene sequences were found to be under positive selection and, therefore, under functional constraints. The cumulative amino acid changes in the TRI1p sequences were reflected in the phylogenetic analyses which revealed species-specific clustering with a distinct separation of FGNX-2 from FG-non-NX-2 producers with high bootstrap support. Together, our findings provide insight into the amino acid sequence features responsible for the functional diversification of this TRI1p.
Highlights
Trichothecenes mycotoxins are a large class of sesquiterpene metabolites, which are produced by several genera of plant pathogenic fungi including several species of Fusarium
We present a study of 52 TRI1 peptide sequences (TRI1p) of Fusarium species including five F
TRI1 gene sequences are more divergent among different Fusarium species than among closely related species [14]
Summary
Trichothecenes mycotoxins are a large class of sesquiterpene metabolites, which are produced by several genera of plant pathogenic fungi including several species of Fusarium. Trichothecenes are considered to be virulence factors and their production improves the pathogenic potential of Fusarium species in a number of economically important plant host species [1,2,3,4]. Trichothecenes can be classified into four types based on (i) the carbonyl group at the 8-position, (ii) the position of macrolide rings, and (iii) the number of epoxy rings [5]. Depending on the Fusarium species, oxygenase (TRI1) and acyltransferase (TRI16) genes in addition to an Toxins 2019, 11, 689; doi:10.3390/toxins11120689 www.mdpi.com/journal/toxins
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