Biochemical identification of the OsMKK6-OsMPK3 signalling pathway for chilling stress tolerance in rice

MAPK (mitogen-activated protein kinase) pathways have been implicated in stress signalling in plants. In the present study, we performed yeast two-hybrid screening to identify partner MAPKs for OsMKK (Oryza sativa MAPK kinase) 6, a rice MAPK kinase, and revealed specific interactions of OsMKK6 with OsMPK3 and OsMPK6. OsMPK3 and OsMPK6 each co-immunoprecipitated OsMKK6, and both were directly phosphorylated by OsMKK6 in vitro. An MBP (myelin basic protein) kinase assay of the immunoprecipitation complex indicated that OsMPK3 and OsMPK6 were activated in response to a moderately low temperature (12°C), but not a severely low temperature (4°C) in rice seedlings. A constitutively active form of OsMKK6, OsMKK6DD, showed elevated phosphorylation activity against OsMPK3 and OsMPK6 in vitro. OsMPK3, but not OsMPK6, was constitutively activated in transgenic plants overexpressing OsMKK6DD, indicating that OsMPK3 is an in vivo target of OsMKK6. Enhanced chilling tolerance was observed in the transgenic plants overexpressing OsMKK6DD. Taken together, our data suggest that OsMKK6 and OsMPK3 constitute a moderately low-temperature signalling pathway and regulate cold stress tolerance in rice.     

Silicon amendment to rice plants contributes to reduced feeding in a phloem‐sucking insect through modulation of callose deposition

Silicon (Si) uptake by Poaceae plants has beneficial effects on herbivore defense. Increased plant physical barrier and altered herbivorous feeding behaviors are documented to reduce herbivorous arthropod feeding and contribute to enhanced plant defense. Here, we show that Si amendment to rice (Oryza sativa) plants contributes to reduced feeding in a phloem feeder, the brown planthopper (Nilaparvata lugens, BPH), through modulation of callose deposition. We associated the temporal dynamics of BPH feeding with callose deposition on sieve plates and further with callose synthase and hydrolase gene expression in plants amended with Si. Biological assays revealed that BPH feeding was lower in Si‐amended than in nonamended plants in the early stages post‐BPH infestation. Histological observation showed that BPH infestation triggered fast and strong callose deposition in Si‐amended plants compared with nonamended plants. Analysis using qRT‐PCR revealed that expression of the callose synthase gene OsGSL1 was up‐regulated more and that the callose hydrolase (β‐1,3‐glucanase) gene Gns5 was up‐regulated less in Si‐amended than in nonamended plants during the initial stages of BPH infestation. These dynamic expression levels of OsGSL1 and Gns5 in response to BPH infestation correspond to callose deposition patterns in Si‐amended versus nonamended plants. It is demonstrated here that BPH infestation triggers differential gene expression associated with callose synthesis and hydrolysis in Si‐amended and nonamended rice plants, which allows callose to be deposited more on sieve tubes and sieve tube occlusions to be maintained more thus contributing to reduced BPH feeding on Si‐amended plants.     

Production of Transgenic Rice Homozygous Lines with Enhanced Resistance to the Rice Brown Planthopper

Mature seed‐derived callus from an elite Chinese japonica rice (Oryza sativa L.) cv. Eyi 105 was cotransformed with two plasmids, pWRG1515 and pRSSGNA1,containing the selectable marker hygromycin phosphotransferase gene (hpt), the reporter β‐glucuronidase gene (gusA) and the snow‐drop (Galanthus nivalis) lectin gene (gna) via particle bombardment. After two rounds of selection on hygromycin‐containing medium, resistant callus was transferred to hygromycin‐containing regeneration medium for plant regeneration. Twenty‐six independent transgenic rice plants were regenerated from 152 bombarded calli with a transformation frequency of 17%. Seventy‐three percent of transgenic plants contained all three genes, which was revealed by PCR/Southern blot analysis. Thirteen out of 19 transgenic plants containing the gna gene expressed GNA (68%) at various levels with the highest expression being approximately 0.5% of total soluble protein. Genetic analysis confirmed Mendelian segregation of transgenes in progeny. From R2 generations with their R1 parentplants showing 3:1 Mendelian segregation patterns, we identified three independent homozygous lines containing and expressing all three transgenes.Insect bioassay and feeding tests showed that these homozygous lines had significant inhibition to the rice brown planthopper (Nilaparvata lugens, BPH) by decreasing BPH survival and overall fecundity, retarding BPH development and reducing BPH feeding.This is the first report that homozygous transgenic rice lines expressing GNA, developed by genetic transformation and through genetic analysis‐based selection, conferred enhanced resistance to BPH, one of the most damaging insect pests in rice.     

Drought stress reduces the feeding preference of Nilaparvata lugens due to the accumulation of abscisic acid and callose deposition in rice

The incidence of drought stress in plants has been increasing due to global warming, and the phytohormone abscisic acid (ABA) induces the formation of physical barriers in plants, such as callose accumulation. The brown planthopper (BPH; Nilaparvata lugens Stål) occurs throughout Asia and feeds on rice, but the effects of drought stress on BPH feeding remain unclear. In this study, we observed changes in callose formation and ABA content in rice during drought stress. ABA content and the relative expression of ABA synthesis genes OsNCED3 and OsNCED5 were higher in drought-stressed rice than the non-stressed control. Similarly, the expression levels of callose synthesis genes and callose deposition were significantly higher in drought-stressed rice as compared to non-stressed plants, and this impacted BPH feeding. Our results indicated that rice resistance to BPH increased during drought stress due to the accumulation of callose and increasing ABA levels. Our findings provide a basis for understanding BPH feeding performance on rice during drought stress and offer novel insights relative to control during periods of water shortage.     

Development of transgenic rice pure lines with enhanced resistance to rice brown planthopper

Summary Mature seed-derived callus from an elite Chinese japonica rice cv. Ewan 5 was cotransformed with two plasmids, pWRG1515 and pRSSGNAl, containing the selectable marker hygromycin phosphotransferase gene (hpt), the reporter β-glucuronidase gene (gusA) and the snowdrop (Galanthus nivalis) lectin gene (gna) via particle bombardment. Thirty-five independent transgenic rice plants were regenerated from 177 bombarded calluses. Eighty-three percent of the transgenic plants contained all three genes, as revealed by Southern blot analysis. Western blot analysis revealed that 23 out of 29 gna-containing transgenic plants expressed Galanthus nivalis agglutinin (GNA) (79%) at various levels, with the highest expression being approximately 0.5% of total soluble protein. Genetic analysis confirmed Mendelian segregation of all three transgenes (gna, hpt and gusA) in the R2 progeny. Amongst the R2 generation two independent homozygous lines were identified that expressed all three transgenes. Insect bioassay and feeding tests showed that these homozygous lines had significant inhibition to rice brown planthopper (Nilaparvata lugens, BPH) by decreasing the survival, overall fecundity of BPH, retarding development, and decreasing the feeding of BPH. These BPH-resistant lines have been incorporated into a rice insect resistance breeding program. This is the first report that homozygous transgenic rice lines expressing GNA, developed by genetic transformation and through genetic analysis-based selection, conferred enhanced resistance to BPH.     

Expression of snowdrop lectin (GNA) in transgenic rice plants confers resistance to rice brown planthopper

Snowdrop lectin ( Galanthus nivalis agglutinin; GNA) has been shown previously to be toxic towards rice brown planthopper ( Nilaparvata lugens ; BPH) when administered in artificial diet. BPH feeds by phloem abstraction, and causes ‘hopper burn’, as well as being an important virus vector. To evaluate the potential of the gna gene to confer resistance towards BPH, transgenic rice ( Oryza sativa L.) plants were produced, containing the gna gene in constructs where its expression was driven by a phloem-specific promoter (from the rice sucrose synthase RSs1 gene) and by a constitutive promoter (from the maize ubiquitin ubi1 gene). PCR and Southern analyses on DNA from these plants confirmed their transgenic status, and that the transgenes were transmitted to progeny after self-fertilization. Western blot analyses revealed expression of GNA at levels of up to 2.0% of total protein in some of the transgenic plants. GNA expression driven by the RSs1 promoter was tissue-specific, as shown by immunohistochemical localization of the protein in the non-lignified vascular tissue of transgenic plants. Insect bioassays and feeding studies showed that GNA expressed in the transgenic rice plants decreased survival and overall fecundity (production of offspring) of the insects, retarded insect development, and had a deterrent effect on BPH feeding. gna is the first transgene to exhibit insecticidal activity towards sap-sucking insects in an important cereal crop plant.     

OsMPK3 positively regulates the JA signaling pathway and plant resistance to a chewing herbivore in rice

Key message

Silencing OsMPK3 decreased elicited JA levels, which subsequently reduced levels of herbivore-induced trypsin protease inhibitors (TrypPIs) and improved the performance of SSB larvae, but did not influence BPH.

Abstract

Mitogen-activated protein kinases (MPKs) are known to play an important role in plant defense by transferring biotic and abiotic signals into programmed cellular responses. However, their functions in the herbivore-induced defense response in rice remain largely unknown. Here, we identified a MPK3 gene from rice, OsMPK3, and found that its expression levels were up-regulated in response to infestation by the larvae of the striped stem borer (SSB) (Chilo suppressalis), to mechanical wounding and to treatment with jasmonic acid (JA), but not to infestation by the brown planthopper (BPH) Nilaparvata lugens or to treatment with salicylic acid. Moreover, mechanical wounding and SSB infestation induced the expression of OsMPK3 strongly and quickly, whereas JA treatment induced the gene more weakly and slowly. Silencing OsMPK3 (ir-mpk3) reduced the expression of the gene by 50–70 %, decreased elicited levels of JA and diminished the expression of a lipoxygenase gene OsHI-LOX and an allene oxide synthase gene OsAOS1. The reduced JA signaling in ir-mpk3 plants decreased the levels of herbivore-induced trypsin protease inhibitors (TrypPIs) and improved the performance of SSB larvae, but did not influence BPH. Our findings suggest that the gene OsMPK3 responds early in herbivore-induced defense and can be regulated by rice plants to activate a specific and appropriate defense response to different herbivores.     

Dynamic metabolic responses of brown planthoppers towards susceptible and resistant rice plants

Brown planthopper (Nilaparvata lugens Stål, BPH) causes huge economic losses in rice‐growing regions, and new strategies for combating BPH are required. To understand how BPHs respond towards BPH‐resistant plants, we systematically analysed the metabolic differences between BPHs feeding on the resistant and susceptible plants using NMR and GC‐FID/MS. We also measured the expression of some related genes involving glycolysis and biosyntheses of trehalose, amino acids, chitin and fatty acids using real‐time PCR. BPH metabonome was dominated by more than 60 metabolites including fatty acids, amino acids, carbohydrates, nucleosides/nucleotides and TCA cycle intermediates. After initial 12 h, BPHs feeding on the resistant plants had lower levels of amino acids, glucose, fatty acids and TCA cycle intermediates than on the susceptible ones. The levels of these metabolites recovered after 24 h feeding. This accompanied with increased level in trehalose, choline metabolites and nucleosides/nucleotides compared with BPH feeding on the susceptible plants. Decreased levels of BPH metabolites at the early feeding probably resulted from less BPH uptakes of sap from resistant plants and recovery of BPH metabolites at the later stage probably resulted from their adaptation to the adverse environment with their increased hopping frequency to ingest more sap together with contributions from yeast‐like symbionts in BPHs. Throughout 96 h, BPH feeding on the resistant plants showed significant up‐regulation of chitin synthase catalysing biosynthesis of chitin for insect exoskeleton, peritrophic membrane lining gut and tracheae. These findings provided useful metabolic information for understanding the BPH–rice interactions and perhaps for developing new BPH‐combating strategies.     

The chloroplast-localized phospholipases D α4 and α5 regulate herbivore-induced direct and indirect defenses in rice

The oxylipin pathway is of central importance for plant defensive responses. Yet, the first step of the pathway, the liberation of linolenic acid following induction, is poorly understood. Phospholipases D (PLDs) have been hypothesized to mediate this process, but data from Arabidopsis (Arabidopsis thaliana) regarding the role of PLDs in plant resistance have remained controversial. Here, we cloned two chloroplast-localized PLD genes from rice (Oryza sativa), OsPLDα4 and OsPLDα5, both of which were up-regulated in response to feeding by the rice striped stem borer (SSB) Chilo suppressalis, mechanical wounding, and treatment with jasmonic acid (JA). Antisense expression of OsPLDα4 and -α5 (as-pld), which resulted in a 50% reduction of the expression of the two genes, reduced elicited levels of linolenic acid, JA, green leaf volatiles, and ethylene and attenuated the SSB-induced expression of a mitogen-activated protein kinase (OsMPK3), a lipoxygenase (OsHI-LOX), a hydroperoxide lyase (OsHPL3), as well as a 1-aminocyclopropane-1-carboxylic acid synthase (OsACS2). The impaired oxylipin and ethylene signaling in as-pld plants decreased the levels of herbivore-induced trypsin protease inhibitors and volatiles, improved the performance of SSB and the rice brown planthopper Nilaparvata lugens, and reduced the attractiveness of plants to a larval parasitoid of SSB, Apanteles chilonis. The production of trypsin protease inhibitors in as-pld plants could be partially restored by JA, while the resistance to rice brown planthopper and SSB was restored by green leaf volatile application. Our results show that phospholipases function as important components of herbivore-induced direct and indirect defenses in rice.     

不同温度下浸水对褐飞虱生存、繁殖及其寄主的影响

不同温度下浸水对褐飞虱卵孵化、若虫存活率、成虫取食和繁殖及其寄主水稻的影响研究结果表明 ,在相对低温2 2℃和 2 1～ 2 6℃的自然变温条件下 ,产卵后立即浸水对浙江和广西 2个褐飞虱种群的卵孵化影响均不明显 ,而在产卵后4 d浸水对浙江种群的卵孵化有显著的抑制作用。 2 8℃浸水 5d和 35℃浸水 1 d后卵孵化率显著下降且孵化进程延长。卵浸水后的初孵若虫的存活率随卵浸水时间的延长明显下降。稻株浸水对其体内所含的昆虫必需氨基酸影响较大 ,其总量减少 ,而稻株内可溶性糖含量却显著增加 ,导致褐飞虱在浸水稻株上的若虫生存率、成虫取食量和繁殖力均明显下降     

Effects of Nitrogen,Phosphorous and Potassium on Host-Choice Behavior of Brown Planthopper, <Emphasis Type="Italic">Nilaparvata lugens</Emphasis> (Stål) on Rice Cultivar

The brown planthopper (BPH), Nilaparvata lugens (Stål) (Homoptera: Delphacidae) is a major pest of many rice growing countries worldwide. It has been observed that one rice field is severely infested by BPH while an adjacent field left untouched. We hypothesized that differences in nutrient content in rice plants may explain this behavior. BPH feeding and oviposition behavior was evaluated on rice plants that had been grown under a range of fertilizer treatments. Tissue samples from experimental rice plants were analyzed for percent N, P, K, Si, free sugars and soluble proteins which were regressed with BPH host choice parameters. A completely randomized design with four replications in a factorial scheme was used in experiments where levels of soil N, P and K were taken as factors. Nymph feeding preference did not differ significantly among different nutrient treated rice plants. Adult females preferred to feed and oviposit on rice plants fertilized with N but it showed negative preference with K supplementation, while P had no marked effect. The position of feeding and ovipositing shifted gradually from lower to upper of leaf sheath and then to leaf blade with decrease of N fertilization to the rice plant. Host choice of BPH for feeding and ovipositing were positively associated with plant tissue concentrations of N, total free sugars and soluble proteins, negatively with Si but not with P and K. Plant tissue biochemical those are associated with BPH host preference may regulate how fast and where they settle on a rice plant.     

褐飞虱和白背飞虱的取食为害对水稻营养生长的影响

对塑料钵栽培的水稻进行罩宠试验,研究了褐飞虱和白背飞虱在不同若虫密度下取食为害对水稻营养生长的影响．结果表明,两种飞虱的成虫干重、水稻叶面积和其地上部干重因若虫密度的增加而下降．叶片干重占地上部干重的比例和稻株分配给叶片干物质量随为害程度的加重而增大;褐飞虱和白背飞虱总干重（X）与稻株地上部损失量（Y）之间存在着极显著的线性关系．两种飞虱干重每增加1mg,水稻地上部干重则分别损失26.01mg和21．90mg．讨论了稻飞虱取食为害对水稻致害的可能机制．     

水稻防御信号NO对褐飞虱产卵刺激的响应

植物对昆虫产卵刺激产生的防御反应不仅可以直接抑制卵的发育,还可以为防御下一步若虫/幼虫带来的危害做准备。对褐飞虱产卵处理后水稻植株内一氧化氮(NO)合成的关键酶-硝酸还原酶基因的表达量和NO含量进行测定,对比褐飞虱取食和机械损伤处理,结果显示褐飞虱产卵能够诱导水稻硝酸还原酶基因的表达和NO的生成。处理后12 h,水稻硝酸还原酶基因表达量显著高于取食和和机械损伤处理;12-24 h产卵诱导的NO含量显著高于对照和机械损伤组水稻。褐飞虱产卵诱导水稻启动NO合成关键基因的表达和物质合成表明,与取食危害类似,水稻同样会对褐飞虱产卵刺激产生响应,诱导NO升高,启动相应的植物防御体系。     

A salivary sheath protein essential for the interaction of the brown planthopper with rice plants

Salivary secretions, including gel saliva and watery saliva, play crucial roles in the interaction between the insect and plant during feeding. In this study, we identified a salivary gland-specific gene encoding a salivary sheath protein (NlShp) in Nilaparvata lugens. NlShp has two alternative splicing variants; both are expressed at high levels during the nymph and adult stages. Immunohistochemical staining showed that the NlShp were synthesized in the principal gland cells of the salivary gland. LC-MS/MS and western blot analysis confirmed that NlShp was one of the components of the salivary sheath. Simultaneously knocking down the two NlShp variants by RNA interference inhibited both salivary flange and salivary sheath formation and resulted in a lethal phenotype within four days for the brown planthopper (BPH) feeding on rice plants, indicating that the salivary sheath and salivary flanges were essential for plant-associated feeding. Despite the salivary sheath deficiency, no obvious phenotype was observed in the NlShp-knockdown BPHs fed on artificial diet. The electrical penetration graph (EPG) results showed that salivary sheath-deficient BPHs exhibited a prolonged nonpenetration period, scarce sap period, and increased stylet movement on rice plants and eventually starved to death. Our results provided evidence that the interaction between the salivary sheath and host plant might be a critical step in successful BPH feeding. According to present research, we propose a salivary sheath required feeding model for piercing-sucking insects and provide a potential target for rice planthopper management.     

水稻挥发物在黑肩绿盲蝽捕食行为中的作用(英文)

在室内研究了水稻品种和氮肥水平对黑肩绿盲蝽对褐飞虱卵嗜好性的影响 ,及其与水稻挥发物的关系。双向选择试验表明 ,黑肩绿盲蝽对不同水稻品种上的褐飞虱卵有着不同的嗜好性 ,但对不同氮肥水平稻株上褐飞虱卵的嗜好性无明显差异。嗅觉试验表明 ,黑肩绿盲蝽对水稻健康苗挥发物的趋性明显地强于空白对照 ,对褐飞虱若虫为害苗挥发物的趋性强于健康苗 ,对褐飞虱雌成虫为害苗的趋性又强于若虫为害苗。不同品种的水稻挥发物对黑肩绿盲蝽的引诱作用存在明显差异 ,但不同氮肥水平的水稻挥发物间差异不显著。上述结果表明 ,水稻挥发物在黑肩绿盲蝽的捕食行为中起着重要作用。文中就如何改进水稻特性和栽培措施以增强天敌作用进行了讨论。