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1.
Plant Physiol ; 181(3): 1295-1313, 2019 11.
Artigo em Inglês | MEDLINE | ID: mdl-31431512

RESUMO

Most characterized plant resistance proteins belong to the nucleotide-binding domain and Leu-rich repeat-containing (NLR) family. NLRs are present in an auto-inhibited state in the absence of specific pathogens, while gain-of-function mutations in NLRs usually cause autoimmunity. Here, we show that a gain-of-function mutation, weaker defense (wed), which caused a Phe-to-Leu substitution in the nucleotide-binding domain of a typical NLR in rice (Oryza sativa), led to enhanced susceptibility to Xanthomonas oryzae pv. Oryzae The unexpected accumulation of salicylic acid (SA), along with downregulation of NONEXPRESSOR OF PR1 (NPR1), in wed indicates the potential presence of a feedback regulation loop of SA biosynthesis in rice. Epistasis analyses illustrated that SA accumulation and the NLR-associated components RAR1, OsRac1, and PhyB are dispensable for the wed phenotypes. Intriguingly, besides pattern-triggered immunity, effector-triggered immunity conferred by different resistance proteins, including Xa3/Xa26, Xa4, and Xa21, was also disturbed by wed to a certain extent, indicating the existence of shared regulatory mechanisms for various defense systems. The identification of wed therefore provides a unique system for genetic dissection of shared immune signaling pathways activated by different types of immune receptors.


Assuntos
Oryza/metabolismo , Oryza/microbiologia , Proteínas de Plantas/metabolismo , Proteínas/metabolismo , Regulação da Expressão Gênica de Plantas/genética , Proteínas de Repetições Ricas em Leucina , Mutação/genética , Oryza/genética , Doenças das Plantas/microbiologia , Proteínas de Plantas/genética , Proteínas/genética , Xanthomonas/patogenicidade
2.
Front Plant Sci ; 13: 1056935, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-36578345

RESUMO

Introduction: Wheat sharp eyespot caused by Rhizoctonia cerealis is a serious pathogenic disease affecting plants. The effective strategy for controlling this disease is breeding resistant cultivar. However, to date, no wheat varieties are fully resistant to sharp eyespot, and only a few quantitative trait loci (QTLs) have been shown to be associated with sharp eyespot resistance. Methods: To understand the genetic basis of this disease, a genome-wide association study (GWAS) of sharp eyespot resistance in 262 varieties from all China wheat regions was conducted. Results: After cultivation for three years, only 6.5% of the varieties were resistant to sharp eyespot. Notably, the varieties from the middle and lower Yangtze River displayed higher sharp eyespot resistance than those from Huanghuai wheat zone. Only two varieties had the same resistance level to the control Shanhongmai. The results of GWAS showed that 5 single nucleotide polymorphism (SNP) loci were markedly related to sharp eyespot resistance in the three years repeatedly, and two QTLs, qSE-6A and qSE-7B, on chromosome 6A and 7B were identified. Based on the 'CG' haplotypes of significant SNPs, we found that the two QTLs exhibited additive effects on attenuating sharp eyespot resistance. Discussion: These results provide novel insights into the genetic basis of sharp eyespot resistance in China wheat varieties. The SNPs related to sharp eyespot resistance can be applied for marker-assisted selection in plant breeding.

3.
Theor Appl Genet ; 122(5): 915-23, 2011 Mar.
Artigo em Inglês | MEDLINE | ID: mdl-21140255

RESUMO

The indica rice cultivar, Teqing, shows a high level of resistance to rice stripe virus (RSV). It is believed that this resistance is controlled by the gene, qSTV11(TQ). For positional cloning of the resistance gene, a set of chromosome single segment substitution lines (CSSSLs) was constructed, all of which had the genetic background of the susceptible japonica cultivar, Lemont, with different single substituted segments of Teqing on chromosome 11. By identifying the resistance of the CSSSLs-2006 in a field within a heavily diseased area, the resistance gene qSTV11(TQ) was mapped between the markers Indel7 and RM229. Furthermore, in that region, six new markers were developed and 52 subregion CSSSLs (CSSSLs-2007) were constructed. The natural infection experiment was conducted again at different sites, with two replicates used in each site in order to identify the resistance phenotypes of the CSSSLs-2007 and resistant/susceptible controls in 2007. Through the results of 2007, qSTV11(TQ) was localized in a region defined by the markers, CAPs1 and Indel4. In order to further confirm the position of qSTV11(TQ), another set of subregion CSSSLs (CSSSLs-2009) was constructed. Finally, qSTV11(TQ) was localized to a 55.7 kb region containing nine annotated genes according to the genome sequence of japonica Nipponbare. The relationship between qSTV11(TQ) and Stvb-i (Hayano-Saito et al. in Theor Appl Genet 101:59-63, 2000) and the reliability of the markers used on both sides of qSTV11(TQ) for marker-assisted breeding of resistance to rice stripe disease are discussed.


Assuntos
Mapeamento Cromossômico , Genoma de Planta , Oryza/genética , Doenças das Plantas/genética , Tenuivirus/patogenicidade , Cromossomos de Plantas , Genes de Plantas , Ligação Genética , Loci Gênicos , Marcadores Genéticos , Imunidade Inata , Oryza/imunologia , Oryza/virologia , Fenótipo , Doenças das Plantas/virologia
4.
J Agric Food Chem ; 68(50): 14748-14757, 2020 Dec 16.
Artigo em Inglês | MEDLINE | ID: mdl-33264008

RESUMO

Red pericarp associates with seed dormancy or preharvest sprouting (PHS) tolerance in crops. To identify this association's molecular mechanism, a PHS mutant Osviviparous1 (Osvp1) was characterized in rice and crossed with Kasalath, a red pericarp cultivar with Rc (red coleoptiles) genotype. Among the dehulled seeds of F2 progenies, RcRcvp1vp1 seeds performed a lower PHS rate than rcrcvp1vp1 seeds and showed shallower pigmentation than RcRcVP1VP1 seeds. Kasalath and SL9 (an RcRcVP1VP1 substitution line with Nipponbare background) showed more ABA sensitivity than the Nipponbare (rcrcVP1VP1) by the germination assay, and the transcriptional abundance of ABA signal genes OsABI2, OsSnRK2, OsVP1, ABI5, and especially OsVP1 increased in the red pericarp line SL9. Moreover, OsVP1 can directly bind Rc (bHLH) promoter by yeast one-hybrid, which activates Rc and OsLAR expression in red pericarp rice. Furthermore, a luciferase complementation imaging assay showed that OsVP1 interacts with transcriptions factors Rc and OsC1. These results indicate that OsVP1 promotes proanthocyanidin accumulation through the interaction among OsVP1, Rc, and OsC1 and then increases the plant's ABA sensitivity and PHS resistance.


Assuntos
Oryza/genética , Proteínas de Plantas/metabolismo , Sementes/crescimento & desenvolvimento , Fatores de Transcrição/metabolismo , Ácido Abscísico/metabolismo , Regulação da Expressão Gênica de Plantas , Germinação , Oryza/crescimento & desenvolvimento , Oryza/metabolismo , Pigmentos Biológicos/metabolismo , Dormência de Plantas , Proteínas de Plantas/genética , Sementes/genética , Sementes/metabolismo , Fatores de Transcrição/genética
5.
Sci Rep ; 7(1): 11799, 2017 09 18.
Artigo em Inglês | MEDLINE | ID: mdl-28924253

RESUMO

Sharp eyespot is a major fungal disease of wheat caused by Rhizoctonia cerealis in cool and humid environments worldwide. In this study, 224 single seed descent derived F13, F14 and F15 recombinant inbred lines (RILs) from the cross between CI12633 (a resistant cultivar) and Yangmai 9 (a susceptible cultivar) were assessed for sharp eyespot resistance (R.cerealis isolate R0301) in field and greenhouse conditions in three growing seasons. Different agronomic characteristics were also evaluated in the field with no disease infection. All the lines were genotyped with the Illumina iSelect 90 K SNP wheat chip and 101 SSR markers. Sharp eyespot resistance was significantly negatively correlated with heading date and tiller angle, and significantly positively correlated with the diameter of the basal first internode and second internode. Five QTL with a likelihood of odds ratio score of higher than 3.0 were detected on chromosomes 2BS, 4BS, 5AL and 5BS, respectively. These identified QTL may be used in future wheat breeding programs through marker assisted selection for developing sharp eyespot resistant cultivars.


Assuntos
Resistência à Doença/genética , Doenças das Plantas , Polimorfismo de Nucleotídeo Único , Locos de Características Quantitativas , Rhizoctonia , Triticum , Doenças das Plantas/genética , Doenças das Plantas/microbiologia , Triticum/genética , Triticum/microbiologia
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