Isoprene deters insect herbivory by priming plant hormone responses

Author ORCID

Abira Sahu 0000-0001-9363-6929

Publication Date

4-4-2025

Abstract

Isoprene, emitted by some plants, deters insect herbivory. However, the associated biochemical and physiological responses that confer herbivory resistance remain unknown. We used tobacco plants engineered to emit isoprene (IE) and the non-emitting control (NE) to interpret isoprene-mediated defense against herbivory in plants. Hornworm larvae raised on IE plants exhibited stunted growth compared to those raised on NE plants. Worms preferred to feed on NE rather than IE leaves, indicating deterrent effects of isoprene on insect feeding. Worm feeding induced a greater increase in jasmonic acid (JA), a crucial hormone for insect resistance, in IE leaves compared to NE leaves. Assimilation rates were stably maintained in IE plants suggesting a protective role of isoprene in preserving photosynthetic efficiency during insect herbivory. Wound-induced increase in isoprene emission correlated with the elevation of key metabolites of the isoprene biosynthesis pathway. Our results highlight JA-priming functions of isoprene and provide new insights into isoprene-mediated defense against insect herbivory.

Keywords

FOS: Biological sciences, FOS: Biological sciences, Plant-insect interactions, Plant hormones, Photosynthesis

Repository

Dryad

Distribution License

CC0 1.0 Universal - No copyright; this work is in the public domain

Funder

Funder: U.S. National Science Foundation
Funder ROR: https://ror.org/021nxhr62
IOS-2022495

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