Ye-Ryun Lee scite author profile

SummaryZearalenone (ZEA) is a polyketide mycotoxin produced by some species of Gibberella/Fusarium and causes hyperestrogenic syndrome in animals. ZEA occurs naturally in cereals infected by Gibberella zeae in temperate regions and threatens animal health. In this study, we report on a set of genes that participate in the biosynthesis of ZEA in G. zeae . Focusing on the non-reducing polyketide synthase (PKS) genes of the G. zeae genome, we demonstrated that PKS13 is required for ZEA production. Subsequent analyses revealed that a continuous, 50 kb segment of DNA carrying PKS13 consisted of three additional open reading frames that were coexpressed as a cluster during the condition for ZEA biosynthesis. These genes, in addition to PKS13 , were essential for the ZEA biosynthesis. They include another PKS gene ( PKS4 ) encoding a fungal reducing PKS; zearalenone biosynthesis gene 1 ( ZEB1 ), which shows a high similarity to putative isoamyl alcohol oxidase genes; and ZEB2 whose deduced product carries a conserved, basic-region leucine zipper domain. ZEB1 is responsible for the chemical conversion of β β β β -zearalenonol ( β β β β -ZOL) to ZEA in the biosynthetic pathway, and ZEB2 controls transcription of the cluster members. Transcription of these genes was strongly influenced by different culture conditions such as nutrient starvations and ambient pH. Furthermore, the same set of genes regulated by ZEB2 was dramatically repressed in the transgenic G. zeae strain with the deletion of PKS13 or PKS4 but not in the ZEB1 deletion strain, suggesting that ZEA or β β β β -ZOL may be involved in transcriptional activation of the gene cluster required for ZEA biosynthesis in G. zeae . This is the first published report on the molecular characterization of genes required for ZEA biosynthesis.

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A putative ABC transporter gene, ZRA1, is required for zearalenone production in Gibberella zeae

Lee

Son

Lee

et al. 2011

Curr Genet

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Zearalenone (ZEA) is a secondary metabolite produced by various Fusarium species and causes estrogenic disorders in humans and animals. Recent studies have identified the ZEA biosynthesis gene cluster in F. graminearum, but other genes such as transporters responsible for ZEA export have not been identified in the cluster. In this study, we performed microarray analyses from the wild-type strain with and without ZEA supplementation and ZEA-nonproducing strain zeb2 to discover other genes responsible for ZEA biosynthesis. Three putative ABC transporters were significantly down-regulated in the zeb2 and were under positive regulation of the ZEB2 gene, which functions as a transcriptional activator for ZEA production in this fungus. However, only one gene (ZRA1) was found to be up-regulated by 20-fold in the wild-type strain supplemented with ZEA, and deletion of ZRA1 resulted in reduced ZEA production. Deletions of the other two genes showed similar ZEA productions as the wild-type strain. ZRA1 localized to the plasma membrane and vacuoles indicating possible roles of ZRA1 as a transporter. This study indicated that ZRA1 is involved in ZEA production and shares a common regulatory mode with ZEA cluster genes by ZEB2.

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Ye-Ryun Lee

Two different polyketide synthase genes are required for synthesis of zearalenone in Gibberella zeae

A putative ABC transporter gene, ZRA1, is required for zearalenone production in Gibberella zeae

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