Improvement of multiple agronomic traits by a disease resistance gene via cell wall reinforcement

Hu, Keming; Cao, Jianbo; Zhang, Jie; Xia, Fan; Ke, Yinggen; Zhang, Haitao; Xie, Wenya; Liu, Hongbo; Cui, Ying; Cao, Yanwei; Sun, Xinli; Xiao, Jinghua; Li, Xianghua; Zhang, Qinglu; Wang, Shiping

doi:10.1038/nplants.2017.9

Cited by 186 publications

(155 citation statements)

References 45 publications

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“…ZmWAK-RLK1 can reduce pathogen penetration into host tissues and our transcriptome data revealed different expression levels of several cell wall-related genes, suggesting a positive effect possibly in stabilization of the cell wall. This role has been demonstrated for the rice OsWAK/Xa4 gene conferring quantitative rice blight resistance by strengthening the cell wall (Hu et al, 2017). By contrast, the wheat WAK gene TaWAK/ Snn1 is hijacked by the necrotrophic effector SnTox1 that triggers programmed cell death allowing the pathogen to feed and grow on dead tissue (Shi et al, 2016).…”

Section: Discussionmentioning

confidence: 98%

“…For instance, in rice > 100 members were found (Zhang et al ., ; Kanneganti & Gupta, ). A number of WAK genes in monocots have been shown to be associated to several functional aspects, such as biotic diseases (Li et al ., ; Hurni et al ., ; Zuo et al ., ; Shi et al ., ; Hu et al ., ), tolerance to phosphorus deficiency (Hufnagel et al ., ), root growth (Kaur et al ., ), as well as gametophyte development (Wang et al ., ). WAKs are the only known proteins that physically link the cell wall to the plasma membrane (Brutus et al ., ; Kohorn & Kohorn, ).…”

Section: Discussionmentioning

confidence: 99%

“…These signatures can be highly conserved and characteristic for entire pathogen classes as in the case of the bacterial flagellin that is perceived by the leucine-rich repeat receptor kinase (LRR-RK) FLS2, which results in basal and broad-spectrum resistance against most bacteria (Dardick et al, 2012;Macho & Zipfel, 2014). Other receptor kinases only confer resistance to certain races of a particular pathogen (Hu et al, 2017). Receptor kinases have different types of extracellular domains, including leucine-rich repeats, lysine motifs, lectin motifs or epidermal growth factor-like extracellular domains (Gomez-Gomez & Boller, 2000;Dardick et al, 2012;Macho & Zipfel, 2014).…”

Section: Introductionmentioning

confidence: 99%

“…The WAK genes ZmWAK (qHSR1), ZmWAK-RLK1 (Htn1) and OsWAK (Xa4) confer disease resistance against maize head smut, maize northern corn leaf blight (NCLB) and rice bacterial blight, respectively (Hurni et al, 2015;Zuo et al, 2015;Hu et al, 2017). WAK-mediated resistance involves strengthening of the cell wall intensity by enhancing cellulose biosynthesis and the biosynthesis of phytoalexin (Hu et al, 2017), oxidative burst (Delteil et al, 2016) and defense gene expression (Zuo et al, 2015). Interestingly, there is also one case described where the wheat WAK encoded by the Snn1 gene acts as a susceptibility factor.…”

Section: Introductionmentioning

confidence: 99%

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Fungal resistance mediated by maize wall‐associated kinase ZmWAK‐RLK1 correlates with reduced benzoxazinoid content

Yang

Praz

et al. 2018

New Phytologist

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Wall-associated kinases (WAKs) have recently been identified as major components of fungal and bacterial disease resistance in several cereal crop species. However, the molecular mechanisms of WAK-mediated resistance remain largely unknown. Here, we investigated the function of the maize gene ZmWAK-RLK1 (Htn1) that confers quantitative resistance to northern corn leaf blight (NCLB) caused by the hemibiotrophic fungal pathogen Exserohilum turcicum. ZmWAK-RLK1 was found to localize to the plasma membrane and its presence resulted in a modification of the infection process by reducing pathogen penetration into host tissues. A large-scale transcriptome analysis of near-isogenic lines (NILs) differing for ZmWAK-RLK1 revealed that several differentially expressed genes are involved in the biosynthesis of the secondary metabolites benzoxazinoids (BXs). The contents of several BXs including DIM BOA-Glc were significantly lower when ZmWAK-RLK1 is present. DIM BOA-Glc concentration was significantly elevated in ZmWAK-RLK1 mutants with compromised NCLB resistance. Maize mutants that were affected in overall BXs biosynthesis or content of DIM BOA-Glc showed increased NCLB resistance. We conclude that Htn1-mediated NCLB resistance is associated with a reduction of BX secondary metabolites. These findings suggest a link between WAK-mediated quantitative disease resistance and changes in biochemical fluxes starting with indole-3-glycerol phosphate.

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Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Fungal resistance mediated by maize wall‐associated kinase ZmWAK‐RLK1 correlates with reduced benzoxazinoid content

Yang

Praz

et al. 2018

New Phytologist

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“…In plants, a well-studied cell wall sensor is AtWAK1, a wall-associated kinase, which resides in the plasma membrane and responds to oligogalacturonides derived from the hydrolysis of cell wall component (Brutus et al, 2010). Xa4, a wall-associated kinase in rice, contributes to disease resistance by strengthening the cell wall via promoting cellulose synthesis and suppressing cell wall loosening (Hu et al, 2017). Unlike wall-associated kinase, no extracellular binding domain or inner kinase domain was found in ORF4+; thus there may exist a coreceptor that interacts with ORF4+ in the plasma membrane and/or a downstream signal protein that interacts with plasma membrane receptor to transmit signals.…”

Section: Discussionmentioning

confidence: 99%

Processes Underlying a Reproductive Barrier in indica-japonica Rice Hybrids Revealed by Transcriptome Analysis

Zhu

Cheng

et al. 2017

Plant Physiol.

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In rice (Oryza sativa), hybrids between indica and japonica subspecies are usually highly sterile, which provides a model system for studying postzygotic reproductive isolation. A killer-protector system, S5, composed of three adjacent genes (ORF3, ORF4, and ORF5), regulates female gamete fertility of indica-japonica hybrids. To characterize the processes underlying this system, we performed transcriptomic analyses of pistils from rice variety Balilla (BL), Balilla with transformed ORF5+ (BL5+) producing sterile female gametes, and Balilla with transformed ORF3+ and ORF5+ (BL3+5+) producing fertile gametes. RNA sequencing of tissues collected before (MMC), during (MEI), and after (AME) meiosis of the megaspore mother cell detected 19,269 to 20,928 genes as expressed. Comparison between BL5+ and BL showed that ORF5+ induced differential expression of 8,339, 6,278, and 530 genes at MMC, MEI, and AME, respectively. At MMC, large-scale differential expression of cell wall-modifying genes and biotic and abiotic response genes indicated that cell wall integrity damage induced severe biotic and abiotic stresses. The processes continued to MEI and induced endoplasmic reticulum (ER) stress as indicated by differential expression of ER stress-responsive genes, leading to programmed cell death at MEI and AME, resulting in abortive female gametes. In the BL3 +5+/BL comparison, 3,986, 749, and 370 genes were differentially expressed at MMC, MEI, and AME, respectively. Large numbers of cell wall modification and biotic and abiotic response genes were also induced at MMC but largely suppressed at MEI without inducing ER stress and programed cell death , producing fertile gametes. These results have general implications for the understanding of biological processes underlying reproductive barriers.Reproductive isolation, a phenomenon widely existing in natural organisms, promotes speciation and maintains the integrity of species over time (Coyne and Orr, 2004). It is divided into two general categories depending on whether it occurs before or after fertilization: prezygotic reproductive isolation and postzygotic reproductive isolation (Seehausen et al., 2014). The former prevents the formation of hybrid zygotes, while the latter results in hybrid incompatibility, including hybrid necrosis, weakness, sterility, and lethality in F 1 or later generations (Ouyang and Zhang, 2013). The Dobzhansky-Muller model suggests that hybrid incompatibility is caused by the negative interactions between functionally divergent genes in the parental species (Dobzhansky, 1937;Muller, 1942).Rice (Oryza sativa), a major food crop and model plant for genomic study of monocotyledon species, also provides a model system for studying reproductive isolation. The Asian cultivated rice is composed of two subspecies, indica and japonica. Their hybrids are usually highly sterile, which is a barrier for utilization of the strong vigor in indica-japonica hybrids. A number of loci responsible for hybrid sterility have been identified, including ones that cause ...

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How Plants Respond to Pathogen Attack: Interaction and Communication

Ghosh

Malukani

Chandan

et al. 2019

Sensory Biology of Plants

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Improvement of multiple agronomic traits by a disease resistance gene via cell wall reinforcement

Cited by 186 publications

References 45 publications

Fungal resistance mediated by maize wall‐associated kinase ZmWAK‐RLK1 correlates with reduced benzoxazinoid content

Fungal resistance mediated by maize wall‐associated kinase ZmWAK‐RLK1 correlates with reduced benzoxazinoid content

Processes Underlying a Reproductive Barrier in indica-japonica Rice Hybrids Revealed by Transcriptome Analysis

How Plants Respond to Pathogen Attack: Interaction and Communication

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