Journal
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Volume 24, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/ijms24010352
Keywords
Hypericum perforatum; WRKY gene family; expression patterns; drought resistance
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WRKY is a large transcription factor family in plants, playing an important regulatory role in plant responses to various stresses, especially drought stress. However, there is no comprehensive analysis of this family in H. perforatum, which is widely studied and known for its medicinal properties. In this study, 86 HpWRKY genes were identified, classified and analyzed. It was found that HpWRKY85 showed significant responses to drought treatment, and its overexpression in Arabidopsis enhanced root growth and scavenging of reactive oxygen species. These findings provide insights into the molecular mechanism of drought resistance in H. perforatum.
WRKY, named for its special heptapeptide conserved sequence WRKYGOK, is one of the largest transcription factor families in plants and is widely involved in plant responses to biotic, abiotic, and hormonal stresses, especially the important regulatory function in response to drought stress. However, there is no complete comprehensive analysis of this family in H. perforatum, which is one of the most extensively studied plants and is probably the best-known herbal medicine on the market today, serving as an antidepressant, neuroprotective, an antineuralgic, and an antiviral. Here, we identified 86 HpWRKY genes according to the whole genome database of H. perforatum, and classified them into three groups through phylogenetic analysis. Gene structure, conserved domain, motif, cis-elements, gene ontology, and expression profiling were performed. Furthermore, it was found that HpWRKY85, a homologous gene of AtWRKY75, showed obvious responses to drought treatment. Subcellular localization analysis indicated that this protein was localized in the nucleus by the Arabidopsis protoplasts transient transfection. Meanwhile, HpWRKY85-overexpressing Arabidopsis plants showed a stronger ability of root growth and scavenging endogenous reactive oxygen species. The results provide a reference for further understanding the role of HpWRKY85 in the molecular mechanism of drought resistance of H. perforatum.
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