Abstract
Hypericum perforatum L. is an important medicinal plant for the treatment of depression. The plant contains bioactive hypericins that accumulate in dark glands present especially in reproductive parts of the plant. In this study, pathogenesis-related class 10 (PR-10) family genes were identified in H. perforatum, including three previously unidentified members with sequence homology to hyp-1, a phenolic coupling protein that has earlier been suggested to participate in biosynthesis and binding/transportation of hypericin. The PR-10 genes showed constitutive but variable expression patterns in different H. perforatum tissues. They were all expressed at relatively high levels in leaves, variably in roots and low levels in stem and reproductive parts of the plant with no specific association with dark glands. The gene expression was up-regulated in leaves after salicylic acid, abscisic acid and wounding treatments but with variable levels. To study exact location of the gene expression, in situ hybridization of hyp-1 transcripts was performed and the accumulation of the Hyp-1 protein was examined in various tissues. The presence of Hyp-1 protein in H. perforatum tissues mostly paralleled with the mRNA levels. In situ RNA hybridization localized the hyp-1 transcripts predominantly in vascular tissues in root and stem, while in leaf the mRNA levels were high also in mesophyll cells in addition to vasculature. Our results indicate that the studied PR-10 genes are likely to contribute to the defense responses in H. perforatum. Furthermore, despite the location of the hyp-1 transcripts in vasculature, no support for the transportation of the Hyp-1 protein to dark glands was found in the current study. The present results together with earlier data question the role of the hyp-1 as a key gene responsible for the hypericin biosynthesis in dark glands of H. perforatum.
Highlights
Pathogenesis-related (PR) proteins constitute of a large group of proteins in higher plants often associated in plant defense responses
We examined the presence of Hyp-1 at protein level by immunoblotting analysis in the same H. perforatum tissues used for quantitative reverse transcription PCR (qRT-PCR) analysis
We found that all the three newly isolated pathogenesis-related class 10 (PR-10) genes were up-regulated in leaves of H. perforatum by wounding as well as by treatment with abscisic acid (ABA) and salicylic acid (SA) suggesting a role for the genes in plant defense
Summary
Pathogenesis-related (PR) proteins constitute of a large group of proteins in higher plants often associated in plant defense responses. Association of the PR-10 proteins in plant defense has been suggested since many of the proteins are induced or their expression is up-regulated under various biotic or abiotic stress conditions, and some members exhibit antimicrobial or ribonuclease activity (Liu and Ekramoddoullah, 2006; Fernandes et al, 2013; Agarwal and Agarwal, 2014). Structural studies have implied that the role of PR-10 proteins could be related to the binding and transportation of various hydrophobic ligands involved in plant development and defense-related signaling (Radauer et al, 2008; Fernandes et al, 2009, 2013). Few PR10 members have been proposed to perform an enzymatic condensation reaction between the ligands they bind (Bais et al, 2003; Lee and Facchini, 2010)
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