Priming of anti‐herbivore defence in <i>Nicotiana attenuata</i> by insect oviposition: herbivore‐specific effects

Bandoly, Michele; Grichnik, Roland; Hilker, Monika; Steppuhn, Anke

doi:10.1111/pce.12677

Cited by 48 publications

(54 citation statements)

References 58 publications

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“…We also observed a decline in foliar concentrations of malic acid, rutin and chlorgenic acid in EV plants, while the same compounds also in addition to fraxetin, caffeoylputrescine, scopolin and scopoletin increased in AMF‐inoculated ir CCaMK plants, though not all differences were significant for both inocula. This result at first is surprising as rutin and chlorogenic acid are typically induced by herbivory (Lou and Baldwin ), involved in priming against herbivores (Bandoly et al ) and bacterial pathogens (Yan et al ) and scopolin and scopoletin are known as antifungal compounds (Sun et al ). Moreover, AMF‐inoculated plants are usually considered to be better defended against leaf‐chewing herbivores than non‐colonized plants (Jung et al ).…”

Section: Discussionmentioning

confidence: 99%

Nicotiana attenuata's capacity to interact with arbuscular mycorrhiza alters its competitive ability and elicits major changes in the leaf transcriptome

Wang

Wilde

Baldwin

et al. 2018

JIPB

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To study the local and systemic effects of arbuscular mycorrhizal fungal (AMF) colonization, Nicotiana attenuata plants impaired in their interactions with AMF due to silencing of a calcium- and calmodulin dependent protein kinase (inverted repreat (ir)CCaMK) were grown competitively in pairs with empty vector (EV) plants, with and without two different types of inoculum. When inoculated, EV plants strongly outperformed irCCaMK plants. Foliar transcript profiling revealed that AMF colonization significantly changed gene expression of P-starvation and -transporter genes in irCCaMK plants. The Pht1 family phosphate transporter NaPT5 was not only specifically induced in roots after AMF colonization, but also in leaves of AMF-colonized irCCaMK plants, and in plants grown under low Pi conditions in the absence of AMF. The P-starvation signature of inoculated irCCaMK plants corresponded with increases in selected amino acids and phenolic compounds in leaves. We also found a strong AMF-induced increase in amino acids and phenolic metabolites in roots. Plants impaired in their interactions with AMF clearly have a fitness disadvantage when competing for limited soil nutrients with a fully functional isogenic line. The additional role of the AMF-induced Pht1 family transporter NaPT5 in leaves under P-starvation conditions will require further experiments to fully resolve.

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Section: Discussionmentioning

confidence: 99%

Nicotiana attenuata's capacity to interact with arbuscular mycorrhiza alters its competitive ability and elicits major changes in the leaf transcriptome

Wang

Wilde

Baldwin

et al. 2018

JIPB

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“…Egg-induced plant defense affecting larval performance is especially known for insect species laying eggs in clutches (Hilker and Fatouros 2015). However, plant response to singly laid eggs of Manduca sexta reinforces the defense against M. sexta larvae (Bandoly et al 2016). It remains to be elucidated whether the egg-laying mode (single eggs vs. egg clutches) affects egg-induced plant defense targeting the eggs and how this in turn depends on the plant species receiving the eggs.…”

Section: Electronic Supplementary Materialsmentioning

confidence: 99%

Plant responses to butterfly oviposition partly explain preference–performance relationships on different brassicaceous species

et al. 2020

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The preference-performance hypothesis (PPH) states that herbivorous female insects prefer to oviposit on those host plants that are best for their offspring. Yet, past attempts to show the adaptiveness of host selection decisions by herbivores often failed. Here, we tested the PPH by including often neglected oviposition-induced plant responses, and how they may affect both egg survival and larval weight. We used seven Brassicaceae species of which most are common hosts of two cabbage white butterfly species, the solitary Pieris rapae and gregarious P. brassicae. Brassicaceous species can respond to Pieris eggs with leaf necrosis, which can lower egg survival. Moreover, plant-mediated responses to eggs can affect larval performance. We show a positive correlation between P. brassicae preference and performance only when including the egg phase: 7-dayold caterpillars gained higher weight on those plant species which had received most eggs. Pieris eggs frequently induced necrosis in the tested plant species. Survival of clustered P. brassicae eggs was unaffected by the necrosis in most tested species and no relationship between P. brassicae egg survival and oviposition preference was found. Pieris rapae preferred to oviposit on plant species most frequently expressing necrosis although egg survival was lower on those plants. In contrast to the lower egg survival on plants expressing necrosis, larval biomass on these plants was higher than on plants without a necrosis. We conclude that egg survival is not a crucial factor for oviposition choices but rather egg-mediated responses affecting larval performance explained the preference-performance relationship of the two butterfly species.

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“…Plants on which insects deposited their eggs showed numerous transcriptional changes in response to this highly reliable herbivoreindicating cue (Bonnet et al, 2017;Bruessow, Gouhier-Darimont, Buchala, Metraux, & Reymond, 2010;Firtzlaff, Oberländer, Geiselhardt, Hilker, & Kunze, 2016;Little, Gouhier-Darimont, Bruessow, & Reymond, 2007;Reymond, 2013). Furthermore, plants on which eggs had previously been deposited-such as Arabidopsis, tomato and tobacco plants-showed a stronger induction of defencerelated genes upon damage by feeding larvae (Bandoly, Grichnik, Hilker, & Steppuhn, 2016;Bandoly, Hilker, & Steppuhn, 2015;Kim, Tooker, Luthe, De Moraes, & Felton, 2012;Lortzing et al, 2018). The studies available so far suggest that the egg-mediated, enhanced efficiency of feeding-induced direct defence against insect larvae is linked to changes in phytohormone levels (Kim et al, 2012;Lortzing et al, 2018), increased activity of proteinase inhibitors (Bandoly et al, 2015) and to increased levels of leaf phenylpropanoid derivatives taken up by the larvae (Austel, Eilers, Meiners, & Hilker, 2016;Bandoly et al, 2015Bandoly et al, , 2016Lortzing et al, 2018).…”

Section: Molecular Analyses Revealed That Plants Show Transcriptionalmentioning

confidence: 99%

Transcriptomic basis for reinforcement of elm antiherbivore defence mediated by insect egg deposition

et al. 2018

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Plant responses to insect egg depositions are known to shape subsequent defensive responses to larvae hatching from the eggs. Elm (Ulmus minor) leaves, on which elm leaf beetles laid their eggs, mount a more efficient defence against larvae hatching from the eggs. However, the molecular mechanisms of this egg‐mediated, improved defence are insufficiently understood and have so far only been studied in annual plants. We analysed the dynamics of transcriptomic changes in larval feeding‐damaged elm leaves with and without prior egg deposition using de novo assembled RNA‐seq data. Compared to egg‐free leaves, egg deposition‐treated leaves showed earlier and/or faster transcriptional regulations, as well as slightly enhanced differential transcriptional regulation after the onset of larval feeding. These early responding transcripts were overrepresented in gene ontology terms associated with post‐translational protein modification, signalling and stress (defence) responses. We found evidence of transcriptional memory in initially egg deposition‐induced transcripts whose differential expression was reset prior to larval hatching, but was more rapidly induced again by subsequent larval feeding. This potential memory effect of prior egg deposition, as well as the earlier/faster and enhanced feeding‐induced differential regulation of transcripts in egg deposition‐treated leaves, may contribute to the egg‐mediated reinforcing effect on the elm's defence against larvae. Hence, our study shows that a plant's experience of a stress‐indicating environmental cue (here: insect eggs) can push the dynamics of the plant's transcriptomic response to subsequent stress (here: larval feeding). Such experience‐mediated acceleration of a stress‐induced plant response may result in improved stress resistance.

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Priming of anti‐herbivore defence in Nicotiana attenuata by insect oviposition: herbivore‐specific effects

Cited by 48 publications

References 58 publications

Nicotiana attenuata's capacity to interact with arbuscular mycorrhiza alters its competitive ability and elicits major changes in the leaf transcriptome

Nicotiana attenuata's capacity to interact with arbuscular mycorrhiza alters its competitive ability and elicits major changes in the leaf transcriptome

Plant responses to butterfly oviposition partly explain preference–performance relationships on different brassicaceous species

Transcriptomic basis for reinforcement of elm antiherbivore defence mediated by insect egg deposition

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