Feng Ming scite author profile

ORCID IDs: 0000-0002-6288-7917 (Y.J.); 0000-0002-5972-7963 (C.-Z.J.); 0000-0002-3866-0894 (C.M.); 0000-0002-9285-2539 (J.G.).In many plant species, including rose (Rosa hybrida), flower senescence is promoted by the gaseous hormone ethylene and inhibited by the cytokinin (CTK) class of hormones. However, the molecular mechanisms underlying these antagonistic effects are not well understood. In this study, we characterized the association between a pathogenesis-related PR-10 family gene from rose (RhPR10.1) and the hormonal regulation of flower senescence. Quantitative reverse transcription PCR analysis showed that RhPR10.1 was expressed at high levels during senescence in different floral organs, including petal, sepal, receptacle, stamen, and pistil, and that expression was induced by ethylene treatment. Silencing of RhPR10.1 expression in rose plants by virusinduced gene silencing accelerated flower senescence, which was accompanied by a higher ion leakage rate in the petals, as well as increased expression of the senescence marker gene RhSAG12. CTK content and the expression of three CTK signaling pathway genes were reduced in RhPR10.1-silenced plants, and the accelerated rate of petal senescence that was apparent in the RhPR10.1-silenced plants was restored to normal levels by CTK treatment. Finally, RhHB6, a homeodomain-Leu zipper I transcription factor, was observed to bind to the RhPR10.1 promoter, and silencing of its expression also promoted flower senescence. Our results reveal an ethylene-induced RhHB6-RhPR10.1 regulatory module that functions as a brake of ethylenepromoted senescence through increasing the CTK content.

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The circadian-controlled PIF8–BBX28 module regulates petal senescence in rose flowers by governing mitochondrial ROS homeostasis at night

Zhang

Ming

et al. 2021

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Reactive oxygen species (ROS) are unstable reactive molecules that are toxic to cells. Regulation of ROS homeostasis is crucial to protect cells from dysfunction, senescence and death. In plant leaves, ROS are mainly generated from chloroplasts and are tightly temporally restricted by the circadian clock. However, little is known about how ROS homeostasis is regulated in non-photosynthetic organs, such as petals. Here, we showed that H2O2 levels exhibit typical circadian rhythmicity in rose (Rosa hybrida) petals, consistent with the measured respiratory rate. RNA-seq and functional screening identified a B-box gene, RhBBX28, whose expression was associated with H2O2 rhythms. Silencing RhBBX28 accelerated flower senescence and promoted H2O2 accumulation at night in petals, while overexpression of RhBBX28 had the opposite effects. RhBBX28 influenced the expression of various genes related to respiratory metabolism, including the TCA cycle and glycolysis, and directly repressed the expression of SUCCINATE DEHYDROGENASE 1, which plays a central role in mitochondrial ROS homeostasis. We also found that PHYTOCHROME INTERACTING FACTOR8 (RhPIF8) could activate RhBBX28 expression to control H2O2 levels in petals and thus flower senescence. Our results indicate that the circadian- controlled RhPIF8-RhBBX28 module is a critical player that controls flower senescence by governing mitochondrial ROS homeostasis in rose.

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Characterization of silencing suppressor p24 of Grapevine leafroll‐associated virus 2

Zhang

Ming

et al. 2017

Molecular Plant Pathology

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Grapevine leafroll-associated virus 2 (GLRaV-2) p24 has been reported to be an RNA silencing suppressor (RSS). However, the mechanisms underlying p24's suppression of RNA silencing are unknown. Using Agrobacterium infiltration-mediated RNA silencing assays, we showed that GLRaV-2 p24 is a strong RSS triggered by positive-sense green fluorescent protein (GFP) RNA, and that silencing suppression by p24 effectively blocks the accumulation of small interfering RNAs. Deletion analyses showed that the region of amino acids 1-188, which contains all predicted α-helices and β-strands, is required for the RSS activity of p24. Hydrophobic residues I35/F38/V85/V89/W149 and V162/L169/L170, previously shown to be critical for p24 self-interaction, are also crucial for silencing suppression, and western blotting results suggested that a lack of self-interaction ability results in decreased p24 accumulation in plants. The mutants showed greatly weakened or a lack of RSS activity. Substitution with two basic residues at positions 2 or 86, putatively involved in RNA binding, totally abolished the RSS activity of p24, suggesting that p24 uses an RNA-binding strategy to suppress RNA silencing. Our results also showed that W54 in the WG/GW-like motif (W54/G55) is crucial for the RSS activity of p24, whereas p24 does not physically interact with AGO1 of Nicotiana benthamiana. Furthermore, p24 did not promote AGO1 degradation, but significantly up-regulated AGO1 mRNA expression, and this effect was correlated with the RSS activity of p24, indicating that p24 may interfere with microRNA-directed processes. The presented results contribute to our understanding of viral suppression of RNA silencing and the molecular mechanisms underlying GLRaV-2 infection.

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Critical regions and residues for self-interaction of grapevine leafroll-associated virus 2 protein p24

Liu

Guo

et al. 2016

Virus Research

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Feng Ming

In rose, transcription factor PTM balances growth and drought survival via PIP2;1 aquaporin

An Ethylene-Induced Regulatory Module Delays Flower Senescence by Regulating Cytokinin Content

The circadian-controlled PIF8–BBX28 module regulates petal senescence in rose flowers by governing mitochondrial ROS homeostasis at night

Characterization of silencing suppressor p24 of Grapevine leafroll‐associated virus 2

Critical regions and residues for self-interaction of grapevine leafroll-associated virus 2 protein p24

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