| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2180885 | Fungal Genetics and Biology | 2013 | 8 Pages |
Fumonisins, toxic secondary metabolites produced by some Fusarium spp. and Aspergillus niger, have strong agro-economic and health impacts. The genes needed for their biosynthesis, named FUM, are clustered and co-expressed in fumonisin producers.In eukaryotes, coordination of transcription can be attained through shared transcription factors, whose specificity relies on the recognition of cis-regulatory elements on target promoters. A bioinformatic analysis on FUM promoters in the maize pathogens Fusarium verticillioides and Aspergillus niger identified a degenerated, over-represented motif potentially involved in the cis-regulation of FUM genes, and of fumonisin biosynthesis. The same motif was not found in various FUM homologues of fungi that do not produce fumonisins. Comparison of the transcriptional strength of the intact FUM1 promoter with a synthetic version, where the motif had been mutated, was carried out in vivo and in planta for F. verticillioides. The results showed that the motif is important for efficient transcription of the FUM1 gene.
► Fumonisin-biosynthetic genes FUM are clustered and co-expressed in toxin producers. ► An over-represented motif CGGMTA was found in promoters of clustered FUM genes. ► Deletion of the main 6-mer in FvFUM1 promoter compromises gene expression. ► The motif may be important for coordinated transcription of clustered FUM genes. ► The motif may be the core of a transcription factor-binding site for a Zn-finger protein.
