Zuying Du scite author profile

Zuying Du

3Publications

17Citation Statements Received

89Citation Statements Given

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Guangzhou University of Chinese Medicine

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Discovery and Functional Characterization of a Diverse Diterpene Synthase Family in the Medicinal HerbIsodon lophanthoidesVar.gerardiana

Yang

Qiu

et al. 2021

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Isodon lophanthoides var. gerardiana (Lamiaceae), also named xihuangcao, is a traditional Chinese medicinal herb that exhibits a broad range of pharmacological activities. Abietane-type diterpenoids are the characteristic constituents of I. lophanthoides, yet their biosynthesis has not been elucidated. Although the aerial parts are the most commonly used organs of I. lophanthoides, metabolite profiling by GC-MS showed the underground parts also contain large amounts of labdane diterpenoids including abietatriene, miltiradiene and ferruginol, which is distinct from the 13-hydroxy-8(14)-abietene detected in the aerial parts. Comparative transcriptome analysis of root and leaf samples identified a diverse diterpene synthase (diTPS) family including 6 copalyl diphosphate synthase (IlCPS1-6) and 5 kaurene synthase-like (IlKSL1-5). Here we report the functional characterization of six of these enzymes using yeast heterologous expression system. Both IlCPS1 and IlCPS3 yielded (+)-CPP, in combination with IlKSL1 resulted in miltiradiene, precursor of abietane-type diterpenoids, while coupling with IlKSL5 led to the formation of hydroxylated diterpene scaffold nezukol. Expression profiling and phylogenetic analysis further support the distinct evolutionary relationship and spatial distribution of IlCPS1 and IlCPS3. IlCPS2 converted geranylgeranyl diphosphate (GGPP) into labda-7, 13E-dien-15-ol diphosphate (7,13-CPP). IlCPS6 was identified as ent-CPS, indicating a role in gibberellin metabolism. We further identified a single residue determined the water addition of nezukol synthase IlKSL5. Substitution of alanine 513 with isoleucine completely altered the product outcome from hydroxylated nezukol to isopimara-7,15-diene. Together, these findings elucidated the early steps of bioactive abietane-type diterpenoid biosynthesis in I. lophanthoides and the catalytic mechanism of nezukol synthase.

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Tandem duplication and sub‐functionalization of clerodane diterpene synthase originate the blooming of clerodane diterpenoids in Scutellaria barbata

Qiu

et al. 2023

The Plant Journal

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SUMMARYScutellaria barbata is a traditional Chinese herb medicine and a major source of bioactive clerodane diterpenoids. However, barely clerodanes have been isolated from the closely related S. baicalensis. Here we assembled a chromosome‐level genome of S. barbata and identified three class II clerodane diterpene synthases (SbarKPS1, SbarKPS2 and SbaiKPS1) from these two organisms. Using in vitro and in vivo assays, SbarKPS1 was characterized as a monofunctional (−)‐kolavenyl diphosphate synthases ((−)‐KPS), while SbarKPS2 and SbaiKPS1 produced major neo‐cleroda‐4(18),13E‐dienyl diphosphate with small amount of (−)‐KPP. SbarKPS1 and SbarKPS2 shared a high protein sequence identity and formed a tandem gene pair, indicating tandem duplication and sub‐functionalization probably led to the evolution of monofunctional (−)‐KPS in S. barbata. Additionally, SbarKPS1 and SbarKPS2 were primarily expressed in the leaves and flowers of S. barbata, which was consistent with the distribution of major clerodane diterpenoids scutebarbatine A and B. In contrast, SbaiKPS1 was barely expressed in any tissue of S. baicalensis. We further explored the downstream class I diTPS by functional characterizing of SbarKSL3 and SbarKSL4. Unfortunately, no dephosphorylated product was detected in the coupled assays with SbarKSL3/KSL4 and four class II diTPSs (SbarKPS1, SbarKPS2, SbarCPS2 and SbarCPS4) when a phosphatase inhibitor cocktail was included. Co‐expression of SbarKSL3/KSL4 with class II diTPSs in yeast cells did not increase the yield of the corresponding dephosphorylated products, either. Together, these findings elucidated the involvement of two class II diTPSs in clerodane biosynthesis in S. barbata, while the class I diTPS is likely not responsible for the subsequent dephosphorylation step.

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Identification and functional characterization of three cytochrome P450 genes for the abietane diterpenoid biosynthesis in Isodon lophanthoides

Peng

et al. 2023

Planta

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Zuying Du

Discovery and Functional Characterization of a Diverse Diterpene Synthase Family in the Medicinal HerbIsodon lophanthoidesVar.gerardiana

Tandem duplication and sub‐functionalization of clerodane diterpene synthase originate the blooming of clerodane diterpenoids in Scutellaria barbata

Identification and functional characterization of three cytochrome P450 genes for the abietane diterpenoid biosynthesis in Isodon lophanthoides

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