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Pith‐specific lignification in <i>Nicotiana attenuata</i> as a defense against a stem‐boring herbivore

Youngsung Joo, Hoon Kim, Moonyoung Kang, Gisuk Lee, Sungjun Choung, Harleen Kaur, Shinyoung Oh, Jun Weon Choi, John Ralph, Ian T. Baldwin, Sang‐Gyu Kim

2021New Phytologist53 citationsDOIOpen Access PDF

Abstract

Plants have developed tissue-specific defense strategies in response to various herbivores with different feeding habits. Although defense responses to leaf-chewing insects have been well studied, little is known about stem-specific responses, particularly in the pith, to stem-boring herbivores. To understand the stem-specific defense, we first conducted a comparative transcriptomic analysis of the wild tobacco Nicotiana attenuata before and after attack by the leaf-chewing herbivore Manduca sexta and the stem borer Trichobaris mucorea. When the stem-boring herbivore attacked, lignin-associated genes were upregulated specifically in the inner parenchymal cells of the stem, the pith; lignin also accumulated highly in the attacked pith. Silencing the lignin biosynthetic gene cinnamyl alcohol dehydrogenase enhanced the performance of the stem-boring herbivore but had no effect on the growth of the leaf-chewing herbivore. Two-dimensional nuclear magnetic resonance results revealed that lignified pith contains feruloyltyramine as an unusual lignin component in the cell wall, as a response against stem-boring herbivore attack. Pith-specific lignification induced by the stem-boring herbivore was modulated by both jasmonate and ethylene signaling. These results suggest that lignin provides a stem-specific inducible barrier, protecting plants against stem-boring insects.

Topics & Concepts

PithBiologyHerbivoreBotanyLigninPlant defense against herbivoryManduca sextaInsectBiochemistryGenePlant Parasitism and ResistanceInsect-Plant Interactions and ControlPlant and animal studies
Pith‐specific lignification in <i>Nicotiana attenuata</i> as a defense against a stem‐boring herbivore | Litcius