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BMC Plant Biol


Title:Transcriptomics identifies key defense mechanisms in rice resistant to both leaf-feeding and phloem feeding herbivores
Author(s):Li Y; Cheah BH; Fang YF; Kuang YH; Lin SC; Liao CT; Huang SH; Lin YF; Chuang WP;
Address:"Department of Agronomy, National Taiwan University, Taipei, 10617, Taiwan. Crop Environment Section, Taichung District Agricultural Research and Extension Station, COA, Changhua Country, 51544, Taiwan. Department of Plant Protection, Chiayi Agricultural Experiment Station, Taiwan Agricultural Research Institute, Council of Agriculture, Chiayi, 60044, Taiwan. Department of Agronomy, National Taiwan University, Taipei, 10617, Taiwan. wenpo@ntu.edu.tw"
Journal Title:BMC Plant Biol
Year:2021
Volume:20210630
Issue:1
Page Number:306 -
DOI: 10.1186/s12870-021-03068-5
ISSN/ISBN:1471-2229 (Electronic) 1471-2229 (Linking)
Abstract:"BACKGROUND: Outbreaks of insect pests in paddy fields cause heavy losses in global rice yield annually, a threat projected to be aggravated by ongoing climate warming. Although significant progress has been made in the screening and cloning of insect resistance genes in rice germplasm and their introgression into modern cultivars, improved rice resistance is only effective against either chewing or phloem-feeding insects. RESULTS: In this study, the results from standard and modified seedbox screening, settlement preference and honeydew excretion tests consistently showed that Qingliu, a previously known leaffolder-resistant rice variety, is also moderately resistant to brown planthopper (BPH). High-throughput RNA sequencing showed a higher number of differentially expressed genes (DEGs) at the infestation site, with 2720 DEGs in leaves vs 181 DEGs in sheaths for leaffolder herbivory and 450 DEGs in sheaths vs 212 DEGs in leaves for BPH infestation. The leaf-specific transcriptome revealed that Qingliu responds to leaffolder feeding by activating jasmonic acid biosynthesis genes and genes regulating the shikimate and phenylpropanoid pathways that are essential for the biosynthesis of salicylic acid, melatonin, flavonoids and lignin defensive compounds. The sheath-specific transcriptome revealed that Qingliu responds to BPH infestation by inducing salicylic acid-responsive genes and those controlling cellular signaling cascades. Taken together these genes could play a role in triggering defense mechanisms such as cell wall modifications and cuticular wax formation. CONCLUSIONS: This study highlighted the key defensive responses of a rarely observed rice variety Qingliu that has resistance to attacks by two different feeding guilds of herbivores. The leaffolders are leaf-feeder while the BPHs are phloem feeders, consequently Qingliu is considered to have dual resistance. Although the defense responses of Qingliu to both insect pest types appear largely dissimilar, the phenylpropanoid pathway (or more specifically phenylalanine ammonia-lyase genes) could be a convergent upstream pathway. However, this possibility requires further studies. This information is valuable for breeding programs aiming to generate broad spectrum insect resistance in rice cultivars"
Keywords:"Animals Cell Wall/metabolism Cyclopentanes/metabolism Gene Expression Profiling Gene Expression Regulation, Plant Gene Ontology Hemiptera/physiology Herbivory/*physiology Lipid Metabolism Oryza/*genetics/*parasitology Oxylipins/metabolism Phloem/*parasito;"
Notes:"MedlineLi, Yi Cheah, Boon Huat Fang, Yu-Fu Kuang, Yun-Hung Lin, Shau-Ching Liao, Chung-Ta Huang, Shou-Horng Lin, Ya-Fen Chuang, Wen-Po eng England 2021/07/02 BMC Plant Biol. 2021 Jun 30; 21(1):306. doi: 10.1186/s12870-021-03068-5"

 
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