Hongxia Cui scite author profile

Hongxia Cui

3Publications

96Citation Statements Received

254Citation Statements Given

How they've been cited

109

How they cite others

187

241

Affiliations

Hubei Academy of Forestry, Institute of Botany, Chinese Academy of Sciences

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Time-series transcriptome provides insights into the gene regulation network involved in the volatile terpenoid metabolism during the flower development of lavender

Dong

et al. 2019

BMC Plant Biol

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Background Essential oils (EOs) of Lavandula angustifolia , mainly consist of monoterpenoids and sesquiterpenoids, are of great commercial value. The multi-flower spiciform thyrse of lavender not only determines the output of EOs but also reflects an environmental adaption strategy. With the flower development and blossom in turn, the fluctuation of the volatile terpenoids displayed a regular change at each axis. However, the molecular mechanism underlying the regulation of volatile terpenoids during the process of flowering is poorly understood in lavender. Here, we combine metabolite and RNA-Seq analyses of flowers of five developmental stages at first- and second-axis (FFDSFSA) and initial flower bud (FB0) to discover the active terpenoid biosynthesis as well as flowering-related genes. Results A total of 56 mono- and sesquiterpenoids were identified in the EOs of L. angustifolia ‘JX-2’. FB0’ EO consists of 55 compounds and the two highest compounds, β -trans-ocimene (20.57%) and (+)-R-limonene (17.00%), can get rid of 74.71 and 78.41% aphids in Y-tube olfactometer experiments, respectively. With sequential and successive blossoms, temporally regulated volatiles were linked to pollinator attraction in field and olfaction bioassays. In three characteristic compounds of FFDSFSA’ EOs, linalyl acetate (72.73%) and lavandulyl acetate (72.09%) attracted more bees than linalool (45.35%). Many transcripts related to flowering time and volatile terpenoid metabolism expressed differently during the flower development. Similar metabolic and transcriptomic profiles were observed when florets from the two axes were maintained at the same maturity grade. Besides both compounds and differentially expressed genes were rich in FB0, most volatile compounds were significantly correlated with FB0-specific gene module. Most key regulators related to flowering and terpenoid metabolism were interconnected in the subnetwork of FB0-specific module, suggesting the cross-talk between the two biological processes to some degree. Conclusions Characteristic compounds and gene expression profile of FB0 exhibit ecological value in pest control. The precise control of each-axis flowering and regular emissions at transcriptional and metabolic level are important to pollinators attraction for lavender. Our study sheds new light on lavender maximizes its fitness from “gene-volatile terpenoid-insect” three layers. Electronic supplementary material The online version of this article (10.1186/s12870-019-1908-6) contains supplementary material, which is available to authorized users.

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Evolution of leaf structure and drought tolerance in species of Californian Ceanothus

Fletcher

Cui

Callahan

et al. 2018

American J of Botany

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The study of these mechanisms and their evolution gains in urgency because in many ecosystems plant drought tolerance is of major and growing importance for survival (Sheffield and Wood, 2008). California is projected to become drier and to increase by several degrees in mean annual temperature by the end of the 21st century, affecting seasonal water availability, and contributing to summer drought (

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Multidimensional exploration of essential oils generated via eight oregano cultivars: Compositions, chemodiversities, and antibacterial capacities

et al. 2022

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Hongxia Cui

Time-series transcriptome provides insights into the gene regulation network involved in the volatile terpenoid metabolism during the flower development of lavender

Evolution of leaf structure and drought tolerance in species of Californian Ceanothus

Multidimensional exploration of essential oils generated via eight oregano cultivars: Compositions, chemodiversities, and antibacterial capacities

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