Effects of 5-azaC on Iridoid Glycoside Accumulation and DNA Methylation in Rehmannia glutinosa

Dong, Tianyu; Song, Siyuan; Wang, Ying; Yang, Ruixue; Chen, Peilei; Su, Jiuchang; Ding, Xinru; Liu, Yongkang; Duan, Hongying

doi:10.3389/fpls.2022.913717

Cited by 3 publications

(1 citation statement)

References 51 publications

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“…The cytochrome P450s is a class of enzymes necessary for the functionalization of monoterpenes, among which CYP76B6 catalyze the hydroxylation of geraniol at their C-10 position to generate 8-oxogeraniol [46]. The 10HGO was a key gene of iridoid glycoside synthesis, oxidizing 10-oxogeraniol to 10-oxogeranial, which was a NAPDHdependent cytochrome P450 monoterpene oxidase [47,48]. In our study, enhanced CbCYP76B6 and Cb10HGO activity due to increased substrate as a result of increased geraniol content.…”

Section: Terpene Biosynthesis Genes Related To the Formation Of Citralsupporting

confidence: 49%

Identification of key genes controlling monoterpene biosynthesis of Citral-type Cinnamomum bodinieri Levl. Based on transcriptome and metabolite profiling

Ling,

Zhang,

Wang

et al. 2024

BMC Genomics

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The citral-type is the most common chemotype in Cinnamomum bodinieri Levl (C. bodinieri), which has been widely used in the daily necessities, cosmetics, biomedicine, and aromatic areas due to their high citral content. Despite of this economic prospect, the possible gene-regulatory roles of citral biosynthesis in the same geographic environment remains unknown. In this study, the essential oils (EOs) of three citral type (B1, B2, B3) and one non-citral type (B0) varieties of C. bodinieri were identified by GC-MS after hydrodistillation extraction in July. 43 components more than 0.10% were identified in the EOs, mainly composed of monoterpenes (75.8–91.84%), and high content citral (80.63–86.33%) were identified in citral-type. Combined transcriptome and metabolite profiling analysis, plant-pathogen interaction(ko04626), MAPK signaling pathway-plant(ko04016), starch and sucrose metabolism(ko00500), plant hormone signal transduction(ko04075), terpenoid backbone biosynthesis (ko00900) and monoterpenoid biosynthesis (ko00902) pathways were enriched significantly. The gene expression of differential genes were linked to the monoterpene content, and the geraniol synthase (CbGES), alcohol dehydrogenase (CbADH), geraniol 8-hydroxylase-like (CbCYP76B6-like) and 8-hydroxygeraniol dehydrogenase (Cb10HGO) were upregulated in the citral-type, indicating that they were associated with high content of geraniol and citral. The activities of CbGES and CbADH in citral type were higher than in non-citral type, which was corroborated by enzyme-linked immunosorbent assay (ELISA). This study on the accumulation mechanism of citral provides a theoretical basis for the development of essential oil of C. bodinieri.

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Section: Terpene Biosynthesis Genes Related To the Formation Of Citralsupporting

confidence: 49%

Identification of key genes controlling monoterpene biosynthesis of Citral-type Cinnamomum bodinieri Levl. Based on transcriptome and metabolite profiling

Ling,

Zhang,

Wang

et al. 2024

BMC Genomics

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Revealing the effects of two DNA methyltransferase inhibitors on DNA methylation and carotenoid metabolism in Chlamydomonas reinhardtii by comparative transcriptome and physiological analysis

Dai,

Chen,

Liang

et al. 2024

Algal Research

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Dynamic DNA methylation modification in catechins and terpenoids biosynthesis during tea plant (Camellia sinensis) leaf development

Chen,

Hu,

Zhu

et al. 2024

Horticultural Plant Journal

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Effects of 5-azaC on Iridoid Glycoside Accumulation and DNA Methylation in Rehmannia glutinosa

Cited by 3 publications

References 51 publications

Identification of key genes controlling monoterpene biosynthesis of Citral-type Cinnamomum bodinieri Levl. Based on transcriptome and metabolite profiling

Identification of key genes controlling monoterpene biosynthesis of Citral-type Cinnamomum bodinieri Levl. Based on transcriptome and metabolite profiling

Revealing the effects of two DNA methyltransferase inhibitors on DNA methylation and carotenoid metabolism in Chlamydomonas reinhardtii by comparative transcriptome and physiological analysis

Dynamic DNA methylation modification in catechins and terpenoids biosynthesis during tea plant (Camellia sinensis) leaf development

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