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Joo Y, Kim H, Kang M, Lee G, Choung S, Kaur H, Oh S, Choi JW, Ralph J, Baldwin IT, Kim SG. Pith-specific lignification in Nicotiana attenuata as a defense against a stem-boring herbivore. New Phytol 2021; 232:332-344. [PMID: 34171146 DOI: 10.1111/nph.17583] [Citation(s) in RCA: 6] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 01/19/2021] [Accepted: 06/22/2021] [Indexed: 06/13/2023]
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.
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Affiliation(s)
- Youngsung Joo
- Department of Molecular Ecology, Max Planck Institute for Chemical Ecology, Hans-Knöll-Straße 8, Jena, 07745, Germany
- Department of Biological Sciences, Korea Advanced Institute for Science and Technology, Daejeon, 34141, Korea
- Department of Biology, Chungbuk National University, Cheongju, 28644, Korea
| | - Hoon Kim
- Department of Energy Great Lakes Bioenergy Research Center, Wisconsin Energy Institute, University of Wisconsin-Madison, 1552 University Ave., Madison, WI, 53726, USA
- Department of Biochemistry, University of Wisconsin-Madison, 1552 University Ave., Madison, WI, 53726, USA
| | - Moonyoung Kang
- Department of Biological Sciences, Korea Advanced Institute for Science and Technology, Daejeon, 34141, Korea
| | - Gisuk Lee
- Department of Molecular Ecology, Max Planck Institute for Chemical Ecology, Hans-Knöll-Straße 8, Jena, 07745, Germany
- Department of Biological Sciences, Korea Advanced Institute for Science and Technology, Daejeon, 34141, Korea
| | - Sungjun Choung
- Department of Biological Sciences, Korea Advanced Institute for Science and Technology, Daejeon, 34141, Korea
| | - Harleen Kaur
- Department of Molecular Ecology, Max Planck Institute for Chemical Ecology, Hans-Knöll-Straße 8, Jena, 07745, Germany
| | - Shinyoung Oh
- Graduate School of International Agricultural Technology, Seoul National University, Pyoeng-Chang, 25354, Korea
| | - Jun Weon Choi
- Graduate School of International Agricultural Technology, Seoul National University, Pyoeng-Chang, 25354, Korea
| | - John Ralph
- Department of Energy Great Lakes Bioenergy Research Center, Wisconsin Energy Institute, University of Wisconsin-Madison, 1552 University Ave., Madison, WI, 53726, USA
- Department of Biochemistry, University of Wisconsin-Madison, 1552 University Ave., Madison, WI, 53726, USA
| | - Ian T Baldwin
- Department of Molecular Ecology, Max Planck Institute for Chemical Ecology, Hans-Knöll-Straße 8, Jena, 07745, Germany
| | - Sang-Gyu Kim
- Department of Biological Sciences, Korea Advanced Institute for Science and Technology, Daejeon, 34141, Korea
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