Dual catalytic potential of isoeugenol synthase in Asarum sieboldii Miq. (AsIGS): Unveiling isoeugenol preference in vitro and eugenol production in vivo, with insights into hydrogen bonding influence
[Display omitted] •Isoeugenol synthase was newly cloned and characterized from Asarum sieboldii Miq.•The candidate phenylpropene synthase favored isoeugenol production in vitro.•The candidate phenylpropene synthase was involved in the synthesis of eugenol in vivo.•Molecular docking predicted the dua...
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Veröffentlicht in: | Gene 2025-01, Vol.933, p.148919, Article 148919 |
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•Isoeugenol synthase was newly cloned and characterized from Asarum sieboldii Miq.•The candidate phenylpropene synthase favored isoeugenol production in vitro.•The candidate phenylpropene synthase was involved in the synthesis of eugenol in vivo.•Molecular docking predicted the dual catalytic mechanism of the isoeugenol synthase.
Asarum sieboldii Miq. is an important medicinal plant valued for its diverse health benefits in the pharmaceutical industry. In the present study, we isolated and characterized isoeugenol synthase from A. sieboldii (AsIGS), an essential enzyme involved in the biosynthesis of volatile phenylpropenes. We hoped to elucidate the secondary metabolic network of eugenol in A. sieboldii plants, which constructed the prerequisite for quality improvement of the well-known TCM Asari Radix et Rhizoma. Bioinformatics analysis revealed high similarity between the DNA sequences of AsIGS and isoeugenol synthase genes from other plants, and that the association of the candidate protein AsIGS with the PIP reductase family. Moreover, the AsIGS protein displayed a molecular weight of about 34.96 kDa, with a theoretical isoelectric point of 6.01 and an average hydrophobicity of −0.092, indicating the protein’s partial acidity, stability, and hydrophilic nature. Phylogenetic analysis showed that AsIGS had a close relationship with isoeugenol synthases and fewer eugenol synthases found in other species. Alphafold2 predicted the structure of the AsIGS protein, and CB-Dock2 predicted the binding sites of the ASIGS-NADPH-coniferyl acetate ternary complex. In vitro enzymatic assay results demonstrated that the optimal temperature of the AsIGS-involved catalysis for coniferyl acetate was 30 °C, and several kinetics parameters were Km (12.21 mM), Vmax (27.9 U/mg), kcat (76.26 s-1), and kcat/Km (6.49 s-1·mM-1). Furthermore, it was also determined that the AsIGS protein had varying performance at different pH levels. While the candidate protein converted coniferyl acetate into both isoeugenol and eugenol at pH 5.5, it just catalyzed the production of isoeugenol at pH 6.5. However, isoeugenol has never been detected in A. sieboldii. Altering AsIGS expression in transgenic plants impacted only eugenol contents. Compared with wild type, overexpression of AsIGS increased eugenol content by 23.3 %, while RNAi-induced down-regulation of AsIGS decreased it by 25.3 %. Taken together, these results confirmed that the AsIGS gene was involved in the bios |
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ISSN: | 0378-1119 1879-0038 1879-0038 |
DOI: | 10.1016/j.gene.2024.148919 |