Biochemical defence responses of resistant and susceptible rice genotypes against blast pathogen Magnaporthe oryzae

Abstract

Rice blast is the leading fungal disease which is caused by Magnaporthe oryzae that contributes for the significant decline in the rice yield throughout the globe. There is a need for the understanding of biochemical changes in rice plant during blast infection for the development of novel disease control strategies. In the present study, we isolated M. oryzae from the local paddy fields and the fungal isolates (VCF and PON) were identified by ITS-PCR using genomic DNA samples. Further, we inoculated resistant (BR2655 and TUNGA) and susceptible (INTAN and HR12) rice cultivars with PON and VCF isolates. PON isolate showed relatively high virulence compared to VCF and standard MTCC fungal strains. Therefore, we evaluated the effect of PON on the total protein content and plant defence-related key enzymes (peroxidase, polyphenol oxidase, phenylalanine ammonia lyase, β-glucosidase, chitinase and lipoxygenase) activities between 24- and 120-hour post-inoculation (hpi). The results demonstrated the decrease in total protein content in all the inoculated cultivars. In addition, we observed the variation in the activity of peroxidase, polyphenol oxidase, β-glucosidase, chitinase and lipoxygenase at different time points in all the tested rice plants compared to respective controls. However, no significant difference was observed in the phenylalanine ammonia lyase activity relative to its control. Taken together, this study emphasizes on the variation in the activities of plant defence enzymes in different plant cultivars against the tested fungal pathogen and also implementation of defence enzymes as biochemical markers for resistant breeding.     

Paraquat toxicity is reduced by metal chelators in rice leaves

The possible mediatory role of transition metals in paraquat (PQ) toxicity in rice leaves was investigated. Metal chelators (2,2'-bipyridine, 8-hydroxylquinoline and 1,10-phenanthroline) reduced PQ toxicity in rice leaves. The reduction of PQ toxicity by 1,10-phenanthroline (PA) is closely associated with the decrease in lipid peroxidation and increase in activities of enzymes detoxifying active oxygen species. Our results support the notion that iron or copper plays a major role in PQ toxicity in detached rice leaves. Reduction of PQ toxicity by PA in detached rice leaves is most likely mediated through chelation of iron or copper and an increase in superoxide dismutase and glutathione reductase activities.     

Reduced levels of volatile emissions in jasmonate-deficient spr2 tomato mutants favour oviposition by insect herbivores

Tomato plants release volatile organic compounds (VOCs) following insect or mechanical damage. In this study, the constitutive and wound-induced emission levels of VOCs in suppressor of prosystemin-mediated responses2 (spr2) mutant plants, compromised in linolenic acid (LA) and jasmonic acid (JA) synthesis, and in 35S::prosystemin (35S::prosys) plants, having upregulated direct defence responses, were compared. The spr2 mutants produced constitutively lower levels of VOCs, which were nonetheless increased in response to (a)biotic damage, although at lower levels than wild-type (Wt) and 35S::prosys plants. No significant differences in VOC emissions were detected between the latter two genotypes, thereby suggesting that systemin does not regulate indirect defence responses, whereas differences in fatty acid composition in spr2 plants led to the predominant emission of saturated C6 volatiles in response to wounding. The expression of 1-deoxy-D-xylulose 5-phosphate synthase (DXS2), a key gene involved in VOC synthesis in the chloroplast, was only upregulated in Manduca sexta L.-damaged Wt and 35S::prosys plants. However, its expression was restored in spr2 plants by exogenous LA or JA, suggesting that abated VOC emissions in spr2 plants are correlated with lowered DXS2 expression. Bioassays with two different insects showed that adult females significantly preferred spr2 plants, indicating that lowered levels of VOCs in tomato influence plant selection by insects during oviposition.     

Rolling-leaf14 is a 2OG-Fe (II) oxygenase family protein that modulates rice leaf rolling by affecting secondary cell wall formation in leaves

As an important agronomic trait, leaf rolling in rice (Oryza sativa L.) has attracted much attention from plant biologists and breeders. Moderate leaf rolling increases the amount of photosynthesis in cultivars and hence raises grain yield. Here, we describe the map-based cloning of the gene RL14, which was found to encode a 2OG-Fe (II) oxygenase of unknown function. rl14 mutant plants had incurved leaves because of the shrinkage of bulliform cells on the adaxial side. In addition, rl14 mutant plants displayed smaller stomatal complexes and decreased transpiration rates, as compared with the wild type. Defective development could be rescued functionally by the expression of wild-type RL14. RL14 was transcribed in sclerenchymatous cells in leaves that remained wrapped inside the sheath. In mature leaves, RL14 accumulated mainly in the mesophyll cells that surround the vasculature. Expression of genes related to secondary cell wall formation was affected in rl14-1 mutants, and cellulose and lignin content were altered in rl14-1 leaves. These results reveal that the RL14 gene affects water transport in leaves by affecting the composition of the secondary cell wall. This change in water transport results in water deficiency, which is the major reason for the abnormal shape of the bulliform cells.     

茉莉酸在植物诱导防御中的作用

茉莉酸(JA)和茉莉酸甲酯(MeJA)作为与损伤相关的植物激素和信号分子,广泛地存在于植物体中,外源应用能够激发防御植物基因的表达,诱导植物的化学防御,产生与机械损伤和昆虫取食相似的效果。大量研究表明,用茉莉酸类化合物处理植物可系统诱导蛋白酶抑制剂(PI)和多酚氧化酶(PPO),从而影响植食动物对营养物质的吸收,还能增加过氧化物酶、壳聚糖酶和脂氧合酶等防御蛋白的活性水平,导致生物碱和酚酸类次生物质的积累,增加并改变挥发性信号化合物的释放,甚至形成防御结构,如毛状体和树脂导管。经茉莉酸处理的植物提高了植食动物的死亡率,变得更加吸引捕食性和寄生性天敌。挥发性化合物——茉莉酸甲酯可以从植物的气孔进入植物体内,在细胞质中被酯酶水解为茉莉酸,实现长距离的信号传导和植物间的交流,诱导邻近植物产生诱导防御反应。茉莉酸和茉莉酸甲酯分别具有4种立体异构,其中具有活性的是顺式结构,但顺式结构不稳定,会差向异构化为反式结构。茉莉酸的代谢物(Z)-茉莉酮(cis-Jasmone)具电生理活性,在植物诱导防御中起作用,并且在防御信号的作用上不同于茉莉酸和茉莉酸甲酯。     

杂草稻落粒粳的抗逆境特性研究

杂草稻落粒粳（Oryza sativa）发生在我国辽宁丹东.落粒粳植株明显高于当地大多数栽培品种,颖果呈中长型,成熟后容易掉粒;果壳稻草色或黄间黑灰色,小穗无芒或有芒,芒长4～12 cm;颖果千粒重235 g,种皮桔红色.落粒粳种子在13～38 ℃条件下的发芽率均大于88%,水层2.5～10 cm处理,落粒粳植株干重减少50%～69%.在幼苗期,落粒粳对无芒稗的各项影响因子均明显大于化感潜力品种I-kung-pao,表明落粒粳无化感作用.落粒粳可以忍耐0.5%的盐碱.     

Chitinase induced by jasmonic acid,methyl jasmonate,ethylene and protein phosphatase inhibitors in rice

Chitinase is a pathogenesis-related protein that hydrolyzes chitin, a major component of fungal cell walls. Two-week-old rice seedling leaf, leaf sheath and root tissues responded to an exogenous treatment by jasmonic acid (JA) with induction of the chitinases as determined by immunoblot analysis using an anti-endochitinase antibody. Induced accumulation of these chitinases was observed within 24 to 48 h in the leaf sheaths, leaves and roots. Besides, ethylene generator ethephon and abiotic stressor copper could also induce chitinases accumulation among various plant hormones and stress agents examined. Cycloheximide effectively blocked their accumulation by JA, suggesting that de novo protein synthesis is required. Partial blockage of the induced accumulation of chitinases by NADPH oxidase inhibitor and free radical scavengers suggested involvement of reactive oxygen species. Moreover, induced accumulation of these chitinases also by methyl jasmonate and certain protein phosphatase inhibitors indicated their potential importance and wider role in rice seedlings.     

Early and specific gene expression triggered by rice resistance gene Pi33 in response to infection by ACE1 avirulent blast fungus

* Our view of genes involved in rice disease resistance is far from complete. Here we used a gene-for-gene relationship corresponding to the interaction between atypical avirulence gene ACE1 from Magnaporthe grisea and rice resistance gene Pi33 to better characterize early rice defence responses induced during such interaction. * Rice genes differentially expressed during early stages of Pi33/ACE1 interaction were identified using DNA chip-based differential hybridization and QRT-PCR survey of the expression of known and putative regulators of disease resistance. * One hundred genes were identified as induced or repressed during rice defence response, 80% of which are novel, including resistance gene analogues. Pi33/ACE1 interaction also triggered the up-regulation of classical PR defence genes and a massive down-regulation of chlorophyll a/b binding genes. Most of these differentially expressed genes were induced or repressed earlier in Pi33/ACE1 interaction than in the gene-for-gene interaction involving Nipponbare resistant cultivar. * Besides demonstrating that an ACE1/Pi33 interaction induced classical and specific expression patterns, this work provides a list of new genes likely to be involved in rice disease resistance.     

Modern elite rice varieties of the 'Green Revolution' have retained a large introgression from wild rice around the Pi33 rice blast resistance locus

During the breeding process of cultivated crops, resistance genes to pests and diseases are commonly introgressed from wild species. The size of these introgressions is predicted by theoretical models but has rarely been measured in cultivated varieties. By combining resistance tests with isogenic strains, genotyping and sequencing of different rice accessions, it was shown that, in the elite rice variety IR64, the resistance conferring allele of the rice blast resistance gene Pi33 was introgressed from the wild rice Oryza rufipogon (accession IRGC101508). Further characterization of this introgression revealed a large introgression at this locus in IR64 and the related variety IR36. The introgressed fragment represents approximately half of the short arm of rice chromosome 8. This is the first report of a large introgression in a cultivated variety of rice. Such a large introgression is likely to have been maintained during backcrossing only if a selection pressure was exerted on this genomic region. The possible traits that were selected are discussed.     

水稻Ds插入淡绿叶突变体的鉴定和遗传分析

Ac/Ds插入突变是水稻基因功能鉴定的有力工具之一。文章从水稻中花11 Ds-T-DNA转化纯合体与Ac-T-DNA 转化纯合体的杂交群体中筛选到一个淡绿叶突变体。该突变体在三叶期由绿苗转为淡绿叶苗, 自然光照下突变体迅速焦枯, 但是在弱光照条件下, 突变体能缓慢生长至开花结实; 突变体光合作用特性研究表明该突变是典型的光抑制突变体。遗传分析表明该突变为Ds插入导致的隐性突变。     

Molecular cloning and structural analysis of a novel Rac gene osRACB in rice (Oryza sativa L.)

Rac is a subfamily of small GTP-binding protein family. Its molecular weight is between 20 and 30 kilodaltons. As a signal protein, Rac directly or indirectly participates in many physiological processes, such as the regulation of cytoskeleton and the transduction of stress-induced signal. So Rac is also named ?molecular switch? The switch is based on the cycle from a GTP-bound 憃n?to a GDP-bound 憃ff?state[1]. In the superfamily of GTP-binding protein, only heterotrimeric G protein, Ra…     

不同氮素供应下水稻酚类物质代谢关键酶基因差异表达

运用实时荧光定量PCR技术探讨了不同供氮条件下强化感与弱化感水稻苯丙烷代谢途径中9个关键酶基因的表达差异。结果表明,与正常氮素供应相比,低氮胁迫引起强化感水稻‘P1312777’中与酚类代谢途径相关的9个关键酶基因表达量均上调,表达量增幅在1.9～5.4倍之间,且以PAL基因上调倍数最大。而弱化感水稻‘Lemont’则相反,只有2个基因(苯丙氨酸裂解酶基因和肉桂酰CoA基因)表达上调,但上调倍数分别是强化感水稻对应的基因的22%和74%,其余的7个基因表达均下调,降幅在29%～72%之间,表明低氮胁迫诱发的水稻化感抑草能力增强与其体内酚类物质合成代谢增强有关。