The Circadian Clock Gene <i>PHYTOCLOCK1</i> Mediates the Diurnal Emission of the Anti-Insect Volatile Benzyl Nitrile from Damaged Tea (<i>Camellia sinensis</i>) Plants

Qian, Jiajia; Zhu, Chen; Li, Jianlong; Yang, Yuhua; Gu, Dachuan; Liao, Yinyin; Zeng, Lanting; Yang, Ziyin

doi:10.1021/acs.jafc.4c01919

J. Agric. Food Chem.

2024

DOI: 10.1021/acs.jafc.4c01919

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The Circadian Clock Gene PHYTOCLOCK1 Mediates the Diurnal Emission of the Anti-Insect Volatile Benzyl Nitrile from Damaged Tea (Camellia sinensis) Plants

Jiajia Qian,

Chen Zhu,

Jianlong Li

et al.

Abstract: Benzyl nitrile from tea plants attacked by various pests displays a diurnal pattern, which may be closely regulated by the endogenous circadian clock. However, the molecular mechanism by the circadian clock of tea plants that regulates the biosynthesis and release of volatiles remains unclear. In this study, the circadian clock gene CsPCL1 can activate both the expression of the benzyl nitrile biosynthesis-related gene CsCYP79 and the jasmonic acid signaling-related transcription factor CsMYC2 involved in upre… Show more

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From trade-off to synergy: how nutrient status modulates plant resistance to herbivorous insects?

Li,

Tan,

Yao

et al. 2024

Adv. Biotechnol.

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The principle of the “growth-defense trade-off” governs how plants adjust their growth and defensive strategies in response to external factors, impacting interactions among plants, herbivorous insects, and their natural enemies. Mineral nutrients are crucial in modulating plant growth and development through their bottom-up effects. Emerging evidence has revealed complex regulatory networks that link mineral nutrients to plant defense responses, influencing the delicate balance between growth and defense against herbivores. This review aims to summarize recent advances that elucidate the impact of nutrient availability on plant defense responses. Particularly, we focus on how nutrient status shapes plant resistance to herbivores, delving into the molecular mechanisms underlying this physiological process. Moreover, the interplay between mineral nutrients and various herbivore defense mechanisms, including physical protection, plant hormone signaling, defensive metabolite production, and volatile organic compound emissions that deter herbivores or attract their natural enemies, are discussed. This comprehensive review sets the stage for future investigations into the intricate crosstalk between nutrient signaling and plant defense responses, which serves as a central mechanism to guide sustainable pest management approaches, thereby promoting balanced agroecosystem health and enhancing plant ecosystem productivity and resilience.

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From trade-off to synergy: how nutrient status modulates plant resistance to herbivorous insects?

Li,

Tan,

Yao

et al. 2024

Adv. Biotechnol.

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show abstract

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The Circadian Clock Gene PHYTOCLOCK1 Mediates the Diurnal Emission of the Anti-Insect Volatile Benzyl Nitrile from Damaged Tea (Camellia sinensis) Plants

Cited by 1 publication

References 45 publications

From trade-off to synergy: how nutrient status modulates plant resistance to herbivorous insects?

From trade-off to synergy: how nutrient status modulates plant resistance to herbivorous insects?

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