Herbivore-induced ethylene suppresses a direct defense but not a putative indirect defense against an adapted herbivore

Kahl, Johannes; Siemens, David H.; Aerts, Rob J.; Gäbler, R.; Kühnemann, Frank; Preston, Catherine A.; Baldwin, Ian T.

doi:10.1007/pl00008142

Cited by 311 publications

(244 citation statements)

References 39 publications

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“…Using detached lima bean leaves (Phaseoluslunatus L), [71] demonstrated that exogenous applications of the ethylene precursor, 1-aminocyclopropane-1-carboxylic acid, enhance JA-induced VTC emission. However, in tobacco (Nicotiana attenuata), [72] did not detect any significant interactions between exogenous methyl jasmonate and ethylene upon in- Current study contradicts reports of VTC-dependent ethylene senescence or vice versa. In a study to determine the effect of ethylene on VTC synthesis and how their interaction affect postharvest balsam fir needle abscission through the inhibition of ethylene synthesis using aminoethoxyvinylglycine (AVG), it was discovered that although AVG was effective in inhibiting ethylene synthesis and delaying postharvest needle abscission there was no changes in the type and amount of VTCs synthesized compared to the control [15].…”

Section: Stress Senescence and The Role Of Vtcscontrasting

confidence: 56%

Plant Senescence: The Role of Volatile Terpene Compounds (VTCs)

Korankye¹,

Lada²,

Asiedu³

2017

AJPS

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Senescence is a natural, energy-dependent, physiological, developmental and an ecological process that is controlled by the plant's own genetic program, allowing maximum recovery of nutrients from older organs for the survival of the plant, as such; it is classified as essential component of the growth and development of plants. In some cases, under one or many environmental stresses, senescence is triggered in plants. Despite many studies in the area, less consideration has been given to plant secondary metabolites, especially the role of VTCs on plant senescence. This review seeks to capture the biosynthesis and signal transduction of VTCs, the physiology of VTCs in plant development and how that is linked to some phytohormones to induce senescence. Much progress has been made in the elucidation of metabolic pathways leading to the biosynthesis of VTCs. In addition to the classical cytosolic mevalonic acid (MVA) pathway from acetyl-CoA, the 2-C-methyl-D-erythritol 4-phosphate (MEP) pathway, originating from glyceraldehyde-3-phosphate (GAP) and pyruvate, leads to the biosynthesis of isoprenoid precursors, isopentenyl diphosphate and dimethyl allyl diphosphate. VTCs synthesis and emission are believed to be tightly regulated by photosynthetic carbon supply into MEP pathway. Thus, under abiotic stresses such as drought, high salinity, high and low temperature, and low CO 2 that directly affect stomatal conductance and ultimately biochemical limitation to photosynthesis, there has been observed induction of VTC synthesis and emissions, reflecting the elicitation of MEP pathway. This reveals the possibility of important function(s) of VTCs in plant defense against stress by mobilizing resources from components of plants and therefore, senescence. Our current understanding of the relationship between environmental responses and senescence mostly comes from the study of senescence response to phytohormones such as abscisic acid, jasmonic acid, ethylene and salicylic acid, which are extensively involved in response to various abiotic and biotic stresses. These stresses affect synthesis and/or signaling pathways of phytohormones to eventually trigger expression of stress-responsive genes, which in turn appears to affect leaf senescence.Comparison of plant response to stresses in relation to patterns of VTCs and phytohormones biosynthesis indicates a considerable crosstalk between these metabolic processes and their signal to plant senescence.

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Section: Stress Senescence and The Role Of Vtcscontrasting

confidence: 56%

Plant Senescence: The Role of Volatile Terpene Compounds (VTCs)

Korankye¹,

Lada²,

Asiedu³

2017

AJPS

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“…9) Fatty acid-amino acid conjugates in the oral secretions of two Manduca species elicited bursts in the production of jasmonic acid 5) and ethylene. 5,10) These results clearly show that volicitin-related compounds evoked some plant defense responses.…”

mentioning

confidence: 65%

Absolute Configuration of Volicitin from the Regurgitant of Lepidopteran Caterpillars and Biological Activity of Volicitin-Related Compounds

Sawada

Yoshinaga

Fujisaki

et al. 2006

Bioscience, Biotechnology, and Biochemistry

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“…The induced increase in JA levels that are normally proportional to the amount of mechanical wounding erupts into a JA burst that increases concentrations two to 10 times wound-induced levels (McCloud and Kahl et al, 2000;Ziegler et al, 2001) and is propagated throughout the damaged leaf ahead of the rapidly foraging herbivore (Schittko et al, 1999). Wounding and JA-elicitation do not result in ethylene emissions, but tobacco hornworm attack produces a rapid ethylene burst, which is sustained during larval feeding .…”

Section: Why Does N Attenuata Alter Its Wound-and Ja-elicited Responmentioning

confidence: 99%

An Ecologically Motivated Analysis of Plant-Herbivore Interactions in Native Tobacco

2001

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Herbivore-induced ethylene suppresses a direct defense but not a putative indirect defense against an adapted herbivore

Cited by 311 publications

References 39 publications

Plant Senescence: The Role of Volatile Terpene Compounds (VTCs)

Plant Senescence: The Role of Volatile Terpene Compounds (VTCs)

Absolute Configuration of Volicitin from the Regurgitant of Lepidopteran Caterpillars and Biological Activity of Volicitin-Related Compounds

An Ecologically Motivated Analysis of Plant-Herbivore Interactions in Native Tobacco

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