Immunity-associated volatile emissions of β-ionone and nonanal propagate defence responses in neighbouring barley plants

Infected barley plants send airborne cues that are recognized as defence signals in conspecific neighbours. β-Ionone and nonanal from the volatile blend of infected barley contribute to defence priming. Abstract Plants activate biochemical responses to combat stress. (Hemi-)biotrophic pathogens are...

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Bibliographic Details
Published in:Journal of experimental botany 2022-01, Vol.73 (2), p.615-630
Main Authors: Brambilla, Alessandro, Sommer, Anna, Ghirardo, Andrea, Wenig, Marion, Knappe, Claudia, Weber, Baris, Amesmaier, Melissa, Lenk, Miriam, Schnitzler, Jörg-Peter, Vlot, A Corina
Format: Article
Language:English
Subjects:
Aldehydes
Hordeum - genetics
Norisoprenoids
Plant Diseases
Plant Proteins - genetics
Plants
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Summary:Infected barley plants send airborne cues that are recognized as defence signals in conspecific neighbours. β-Ionone and nonanal from the volatile blend of infected barley contribute to defence priming. Abstract Plants activate biochemical responses to combat stress. (Hemi-)biotrophic pathogens are fended off by systemic acquired resistance (SAR), a primed state allowing plants to respond faster and more strongly upon subsequent infection. Here, we show that SAR-like defences in barley (Hordeum vulgare) are propagated between neighbouring plants, which respond with enhanced resistance to the volatile cues from infected senders. The emissions of the sender plants contained 15 volatile organic compounds (VOCs) associated with infection. Two of these, β-ionone and nonanal, elicited resistance upon plant exposure. Whole-genome transcriptomics analysis confirmed that interplant propagation of defence in barley is established as a form of priming. Although gene expression changes were more pronounced after challenge infection of the receiver plants with Blumeria graminis f. sp. hordei, differential gene expression in response to the volatile cues of the sender plants included an induction of HISTONE DEACETYLASE 2 (HvHDA2) and priming of TETRATRICOPEPTIDE REPEAT-LIKE superfamily protein (HvTPL). Because HvHDA2 and HvTPL transcript accumulation was also enhanced by exposure of barley to β-ionone and nonanal, our data identify both genes as possible defence/priming markers in barley. Our results suggest that VOCs and plant–plant interactions are relevant for possible crop protection strategies priming defence responses in barley.
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/erab520