Stress-induced expression and structure of the putative gene hyp-1 for hypericin biosynthesis

Abstract

The phenolic oxidative coupling protein (Hyp-1) with proposed activity in the biosynthesis of hypericin in Hypericum perforatum shares about 50 % sequence similarity with Bet.v.1-like/PR-10 proteins. In our previous study, we showed that this protein is not a limiting factor in hypericin biosynthesis. To ascertain the role of Hyp-1 in defense mechanisms, we have analyzed some structural features of the hyp-1 gene in 14 Hypericum species with different abilities to synthesise hypericin. We show that the hyp-1 gene possesses characteristics typical for genes encoding plant PR-10 proteins. The coding sequence of the hyp-1 gene is interrupted by a single 86- to 125-bp intron localised strictly in codon 62, which is a typical feature of the dicot PR-10 subfamily. The localisation of the intron is conserved in all 14 tested Hypericum species indicating a common evolutionary history with genes encoding PR-10 proteins. In addition, we report that the hyp-1 gene exhibits a similar response to stress conditions as the PR-10 proteins encoding genes. Following either wounding or infection by Agrobacterium tumefaciens, all analysed Hypericum species exhibited rapid and significant upregulation of hyp-1 gene expression; this was particularly observed in hypericin-producing species. On the other hand, in the presence of high levels of abscisic acid, different levels of gene expression were observed.