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Pest Manag Sci


Title:Production of pyrrolizidine alkaloids and shikonins in Echium plantagineum L. in response to various plant stressors
Author(s):Skoneczny D; Zhu X; Weston PA; Gurr GM; Callaway RM; Weston LA;
Address:"Graham Centre for Agricultural Innovation, Charles Sturt University, Wagga Wagga, New South Wales, Australia. Graham Centre for Agricultural Innovation, Charles Sturt University, Orange, New South Wales, Australia. Institute of Applied Ecology, Fujian Agriculture & Forestry University, Fuzhou, China. Division of Biological Science, University of Montana, Missoula, MT, USA"
Journal Title:Pest Manag Sci
Year:2019
Volume:20190729
Issue:9
Page Number:2530 - 2541
DOI: 10.1002/ps.5540
ISSN/ISBN:1526-4998 (Electronic) 1526-498X (Linking)
Abstract:"BACKGROUND: Echium plantagineum, a native of Europe and Africa, is a noxious invasive weed in Australia forming monocultural stands in pastures and rangelands. It produces a complex mixture of bioactive secondary metabolites, including toxic pyrrolizidine alkaloids (PAs), that protect the plant from insect and livestock herbivory and naphthoquinones (NQs), which suppress competition from weeds, insects and pathogens, and also influence invasion success. However, the extent to which allelochemical production is impacted by environmental factors, thereby influencing plant defense against pests, remains unclear. RESULTS: Following plant stress induced by drought, herbivory and high temperature, extracts of E. plantagineum shoots and roots were subjected to metabolic profiling by UPLC-MS-DAD- QToF mass spectrometry. Abundance of NQs, especially deoxyshikonin, shikonin and dimethylacrylshikonin, rapidly increased in roots exposed to elevated temperatures. Water withholding initially increased NQ abundance, but prolonged drought resulted in reduced total PAs and NQs. Intraspecific competition elevated the production of NQs, whereas simulated herbivory had no initial effect on NQs. Following herbivory, the abundance of the PA 3'-O-acetylechimidine-N-oxide in seedling shoots was increased. CONCLUSIONS: Differential accumulation of defense metabolites by E. plantagineum following exposure to various stressors suggested stress-dependent biosynthetic regulation, particularly with respect to NQ production, which was rapidly induced following drought, intraspecific competition and high temperature treatment, thereby positively impacting resistance or defense against herbivores, weeds and pathogens. We propose that trade-offs between above- and below-ground metabolism in E. plantagineum may facilitate allelochemical production in response to stress, rendering plants with an enhanced ability to defend against other neighboring plants, insects and microbes, with allelochemical production further facilitated by catabolic recycling following lengthier exposure to stress. (c) 2019 Society of Chemical Industry"
Keywords:"Echium/*metabolism Naphthoquinones/*metabolism Plant Weeds/*metabolism Pyrrolizidine Alkaloids/*metabolism Stress, Physiological allelopathy herbivory mass spectrometry phytotoxicity plant defense plant invasion secondary plant products;"
Notes:"MedlineSkoneczny, Dominik Zhu, Xiaocheng Weston, Paul A Gurr, Geoff M Callaway, Ragan M Weston, Leslie A eng Charles Sturt University/ National Science Foundation/ DP130104346/Australian Research Council/ England 2019/07/04 Pest Manag Sci. 2019 Sep; 75(9):2530-2541. doi: 10.1002/ps.5540. Epub 2019 Jul 29"

 
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