Mythimna separata herbivory primes Coix resistance in systemic leaves

Coix lacryma-jobi L. belongs to family Poaceae, is widely cultivated in tropical Asian countries for its nutritional and medicinal values. Coix is often threatened by lepidopteran such as Mythimna separata during its life cycle, resulting in severe yield reduction. Insect feeding can trigger defense...

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Veröffentlicht in:PloS one 2024-11, Vol.19 (11), p.e0313015
Hauptverfasser: Fan, Bo, Liu, Yongkuan, Wen, Rongkun, Kong, Lanfen, Wang, Xue, Zhang, Jingxiong, Li, Jing, Qin, Yan
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container_title PloS one
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Liu, Yongkuan
Wen, Rongkun
Kong, Lanfen
Wang, Xue
Zhang, Jingxiong
Li, Jing
Qin, Yan
description Coix lacryma-jobi L. belongs to family Poaceae, is widely cultivated in tropical Asian countries for its nutritional and medicinal values. Coix is often threatened by lepidopteran such as Mythimna separata during its life cycle, resulting in severe yield reduction. Insect feeding can trigger defense signaling and increased defense responses in many other crops, yet little is known about whether simulated armyworm feeding on Coix leaves could induce anti-herbivory responses and whether armyworm feeding could activate priming in systemic leaves. In this study, Mythimna separata simulated herbivory elicited increased jasmonic acid (JA) level, JA-Ile (JA-isoleucine conjugate) and altered transcriptome in the Coix leaves. Meanwhile, M. separata simulated herbivory in local leaves primed the systemic leaves for increased accumulation of jasmonic acid and enhanced resistance to M. separata. Consistently, transcriptome analysis showed the systemic leaves were primed, which were up- or down-regulated comparing with the non-primed systemic leaves. In this study, we first reported Mythimna separata simulated herbivory induced increased defense response in leaves of Coix, also Mythimna separata herbivory primed Coix resistance in systemic leaves. This study provides new insight into the regulation of defense responses of Coix against M. separata and the ecological function of priming in Coix.
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Coix is often threatened by lepidopteran such as Mythimna separata during its life cycle, resulting in severe yield reduction. Insect feeding can trigger defense signaling and increased defense responses in many other crops, yet little is known about whether simulated armyworm feeding on Coix leaves could induce anti-herbivory responses and whether armyworm feeding could activate priming in systemic leaves. In this study, Mythimna separata simulated herbivory elicited increased jasmonic acid (JA) level, JA-Ile (JA-isoleucine conjugate) and altered transcriptome in the Coix leaves. Meanwhile, M. separata simulated herbivory in local leaves primed the systemic leaves for increased accumulation of jasmonic acid and enhanced resistance to M. separata. Consistently, transcriptome analysis showed the systemic leaves were primed, which were up- or down-regulated comparing with the non-primed systemic leaves. In this study, we first reported Mythimna separata simulated herbivory induced increased defense response in leaves of Coix, also Mythimna separata herbivory primed Coix resistance in systemic leaves. 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Coix is often threatened by lepidopteran such as Mythimna separata during its life cycle, resulting in severe yield reduction. Insect feeding can trigger defense signaling and increased defense responses in many other crops, yet little is known about whether simulated armyworm feeding on Coix leaves could induce anti-herbivory responses and whether armyworm feeding could activate priming in systemic leaves. In this study, Mythimna separata simulated herbivory elicited increased jasmonic acid (JA) level, JA-Ile (JA-isoleucine conjugate) and altered transcriptome in the Coix leaves. Meanwhile, M. separata simulated herbivory in local leaves primed the systemic leaves for increased accumulation of jasmonic acid and enhanced resistance to M. separata. Consistently, transcriptome analysis showed the systemic leaves were primed, which were up- or down-regulated comparing with the non-primed systemic leaves. In this study, we first reported Mythimna separata simulated herbivory induced increased defense response in leaves of Coix, also Mythimna separata herbivory primed Coix resistance in systemic leaves. This study provides new insight into the regulation of defense responses of Coix against M. separata and the ecological function of priming in Coix.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>39495725</pmid><doi>10.1371/journal.pone.0313015</doi><tpages>e0313015</tpages><orcidid>https://orcid.org/0000-0001-9677-2213</orcidid><oa>free_for_read</oa></addata></record>
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subjects Acid resistance
Animals
Biology and Life Sciences
Coix
Corn
Cyclopentanes - metabolism
Defense
Ecological function
Ecology and Environmental Sciences
Gene Expression Profiling
Gene Expression Regulation, Plant
Grasses
Herbivores
Herbivory
Insects
Isoleucine
Isoleucine - analogs & derivatives
Jasmonic acid
Kinases
Leaves
Moths - physiology
Mythimna separata
Nitrogen
Oxylipins - metabolism
Pest resistance
Physiological aspects
Plant immunology
Plant Leaves - metabolism
Priming
Research and Analysis Methods
Seeds
Transcriptome
Transcriptomes
title Mythimna separata herbivory primes Coix resistance in systemic leaves
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