Proteomics of methyl jasmonate induced defense response in maize leaves against Asian corn borer

Background

Jasmonic acid (JA) and methyl jasmonate (MeJA) regulate plant development, resistance to stress, and insect attack by inducing specific gene expression. However, little is known about the mechanism of plant defense against herbivore attack at a protein level. Using a high-resolution 2-D gel, we identified 62 MeJA-responsive proteins and measured protein expression level changes.

Results

Among these 62 proteins, 43 proteins levels were increased while 11 proteins were decreased. We also found eight proteins uniquely expressed in response to MeJA treatment. Data are available via ProteomeXchange with identifier PXD001793. The proteins identified in this study have important biological functions including photosynthesis and energy related proteins (38.4%), protein folding, degradation and regulated proteins (15.0%), stress and defense regulated proteins (11.7%), and redox-responsive proteins (8.3%). The expression levels of four important genes were determined by qRT-PCR analysis. The expression levels of these proteins did not correlate well with their translation levels. To test the defense functions of the differentially expressed proteins, expression vectors of four protein coding genes were constructed to express in-fusion proteins in E. coli. The expressed proteins were used to feed Ostrinia furnacalis, the Asian corn borer (ACB). Our results demonstrated that the recombinant proteins of pathogenesis-related protein 1 (PR1) and thioredoxin M-type, chloroplastic precursor (TRXM) showed the significant inhibition on the development of larvae and pupae.

Conclusions

We found MeJA could not only induce plant defense mechanisms to insects, it also enhanced toxic protein production that potentially can be used for bio-control of ACB.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1363-1) contains supplementary material, which is available to authorized users.     

Calcium changes and the response to methyl jasmonate in rice lodicules during anthesis

Summary. Potassium pyroantimonate precipitation was used to locate loosely bound calcium in rice (Oryza sativa L.) lodicules before and after anthesis, and flowering of panicles was accelerated by treatment with methyl jasmonate. From 1 day to 4 h before anthesis, the number of calcium precipitates in the cell walls and vacuole membranes decreased gradually, whereas they increased remarkably in the cytoplasm and nucleolus. At the beginning of anthesis, the number of calcium granules in lodicules reduced sharply, but there was a large accumulation of flocculent precipitates in the vacuoles. After anthesis, the flocculent precipitates decreased in number until they disappeared, whereas the granular precipitates started to accumulate once again. The rice florets treated with 2 mM methyl jasmonate were induced to open within 10–30 min and they then closed 0.5–1 h later. The nucleolus, cytoplasm, and vacuole membrane of the lodicule cells contained many calcium granules during flowering, although the cell walls lacked calcium. At 1 h after treatment, the number of calcium granules had decreased, while flocculent precipitates were regularly observed in the nondegenerated cells. At 6 h after treatment, calcium grains started to reappear in the cell walls. These changes in calcium precipitates before and after anthesis indicate that the opening and closing of florets correlates with the calcium level in lodicule cells. In addition, excised panicles, with florets judged to be nearing anthesis, were soaked in 2–200 mM EGTA solution for 2 min after treatment with 2 mM methyl jasmonate. The results indicate that EGTA had an antagonistic effect on the methyl jasmonate-induced floret opening in rice. Correspondence and reprints: Key Laboratory of the Ministry of Education for Plant Developmental Biology, College of Life Sciences, Wuhan University, Wuhan 430072, People’s Republic of China.     

Proteomics of Arabidopsis redox proteins in response to methyl jasmonate

Protein redox regulation is increasingly recognized as an important switch of protein activity in yeast, bacteria, mammals and plants. In this study, we identified proteins with potential thiol switches involved in jasmonate signaling, which is essential for plant defense. Methyl jasmonate (MeJA) treatment led to enhanced production of hydrogen peroxide in Arabidopsis leaves and roots, indicating in vivo oxidative stress. With monobromobimane (mBBr) labeling to capture oxidized sulfhydryl groups and 2D gel separation, a total of 35 protein spots that displayed significant redox and/or total protein expression changes were isolated. Using LC–MS/MS, the proteins in 33 spots were identified in both control and MeJA-treated samples. By comparative analysis of mBBr and SyproRuby gel images, we were able to determine many proteins that were redox responsive and proteins that displayed abundance changes in response to MeJA. Interestingly, stress and defense proteins constitute a large group that responded to MeJA. In addition, many cysteine residues involved in the disulfide dynamics were mapped based on tandem MS data. Identification of redox proteins and their cysteine residues involved in the redox regulation allows for a deeper understanding of the jasmonate signaling networks.     

Metabolic differentiation of Arabidopsis treated with methyl jasmonate using nuclear magnetic resonance spectroscopy

NMR spectroscopy combined with principal component analysis was applied to Arabidopsis thaliana treated with methyl jasmonate in order to obtain macroscopic metabolic changes caused by the treatment. As the first step several chromatographic and NMR spectroscopic techniques were utilized to identify metabolites of Arabidopsis. Sephadex LH-20 showed a high efficiency in the separation of phenolic metabolites in the plant. For identification of minor metabolites two-dimensional J-resolved NMR technique was directly applied to the plant extract and results in a number of elucidation of the metabolites of which signals overlap in ¹H NMR spectra. The chemical structure of the identified metabolites were confirmed by various two-dimensional NMR spectroscopy including correlated spectroscopy, heteronuclear single quantum coherence, and heternuclear multiple bond correlation. As next step, a statistical approach, principal component analysis based on projected J-resolved NMR spectra was performed for metabolic alteration of methyl jasmonate-treated Arabidopsis. The results show that methyl jasmonate caused an increase of flavonoids, fumaric acid, sinapoyl malate, sinigrin, tryptophan, valine, threonine, and alanine and a decrease of malic acid, feruloyl malate, glutamine, and carbohydrates after 24 h treatment.     

Accumulation of chloroplast-targeted lipoxygenase in passion fruit leaves in response to methyl jasmonate

Wounding caused local and systemic induction of lipoxygenase (LOX) activity in passion fruit (Passiflora edulis f. flavicarpa) leaves, while exposing intact plants to methyl jasmonate (MJ) vapor provoked a much stronger response. Western blot analysis of these leaf protein extracts using polyclonal antibodies against cucumber LOX, revealed an accumulation of a 90 kDa protein, consistent with LOX enzymatic assays. The inducible LOX was purified to apparent homogeneity, and in vitro analysis of LOXactivity using linoleic acid as substrate showed that it possesses C-13 specificity. Immunocytochemical localization studies using leaf tissue from MJ-treated plants demonstrated that the inducible LOX was compartmented in large quantities in the chloroplasts of mesophyll cells, associated with the stroma. The results suggest that the wound response in passion fruit plants may be mediated by a chloroplast 13-LOX, a key enzyme of the octadecanoid defense-signaling pathway.     

CRISPR/Cas9介导靶向敲除拟南芥GGB基因突变体的鉴定

GGB是抗旱负调控基因。为了获得拟南芥ggb突变体材料,构建了以拟南芥U6启动子驱动GGB sgRNA的CRISPR/Cas9基因组编辑载体。将构建好的编辑载体利用农杆菌介导的浸花法转化野生型拟南芥。对转基因后代GGB基因的测序结果分析发现,在靶位点处有缺失4个碱基和增加1个T碱基的2种突变体产生。分别对野生型拟南芥和上述2种ggb突变体进行半定量RT PCR分析结果显示,突变体材料中几乎检测不到GGB基因表达,说明获得了GGB基因敲除突变体。对野生型和ggb突变体叶片失水率、耐旱表型及单株种子量的测定结果表明,与野生型相比,拟南芥GGB基因突变后,叶片失水率显著减少,抗旱性明显增强,而单株种子量却并没有改变。研究表明,GGB是一种理想的作物分子育种的候选靶基因,获得的突变体为今后从农作物中克隆的GGB同源基因进行功能互补验证提供了有用的遗传材料。     

拟南芥ABA敏感突变体asm1的分离与鉴定

以拟南芥(Arabidopsis thaliana)为研究材料,从T-DNA突变体库中筛选分离得到1株脱落酸(ABA)敏感突变体asm1(ABA sensitive mutant 1,asm1),在含有ABA的培养基中,与野生型相比,asm1突变体的根伸长明显受到抑制,且其种子萌发结果显示asm1对ABA同样表现出敏感特性。在生长发育方面,asm1突变体抽苔时间提前,植株矮化,并且荚果长度明显小于野生型。利用远红外成像系统分析发现,在干旱胁迫下asm1突变体叶面温度高于野生型;失水率分析显示突变体失水率降低以及水分散失减少。遗传学分析表明,asm1是单基因隐性突变且与一个T-DNA插入共分离;通过图位克隆成功获得候选基因ASM1。RT-PCR结果显示,在突变体中ASM1的表达受到抑制,并且能够调控多种ABA信号通路和胁迫应答基因的表达水平。研究结果表明,ASM1可能参与调控ABA信号转导并应答干旱胁迫。     

二氧化硫增强拟南芥植株对干旱的适应性

以模式植物拟南芥为材料,研究SO_2对植物干旱适应性的影响。采用分光光度法检测植物干旱生理指标的变化,并用半定量RT-PCR技术分析了拟南芥热激基因和干旱响应基因的转录水平。研究发现:4周龄拟南芥植株暴露于30mg/m3的SO_2后,6—72h间叶面气孔开度显著低于对照并逐渐减小,在暴露48h和72h时,热激转录因子HsfA2和热激基因Hsp17.7、Hsp17.6B、Hsp17.6C转录上调,干旱响应基因DREB2A、DREB2B和RD29A表达增强;在SO_2熏气72h后进行干旱胁迫,干旱期间SO_2预暴露植株的叶片相对含水量高于非熏气干旱处理组,植株萎蔫程度比后者明显减轻,且SO_2预暴露植株的地上组织中可溶性糖和脯氨酸含量升高,超氧化物歧化酶活性提高,丙二醛含量降低。结果表明:SO_2能降低气孔开度、提高抗氧化能力、上调热激基因和干旱响应基因转录,并能促进干旱期间植物细胞内渗透调节物质的合成和积累,促使抗氧化酶活性提高,从而降低干旱胁迫对植株造成的氧化损伤,增强拟南芥对干旱的适应性。植物通过基因转录应答、酶活性改变、渗透调节物质积累等,在适应环境高浓度SO_2的同时,提高了对干旱的适应性。     

转CkLEA4基因拟南芥种子萌发期的抗逆性分析

该研究在实验室前期研究的基础上,将受脱水、盐胁迫和ABA诱导的柠条锦鸡儿CkLEA4基因转入野生型拟南芥,并利用实时荧光定量PCR从8株纯合体中筛选出3个表达量不同的株系,比较野生型和转CkLEA4基因过表达拟南芥种子在不同胁迫处理下的萌发率,以探讨CkLEA4基因在植物抵抗逆境胁迫中的功能。结果发现:(1)在不同浓度NaCl、甘露醇及ABA处理下,转CkLEA4基因过表达拟南芥种子的萌发率均高于野生型,随着NaCl、甘露醇及ABA浓度增加,各株系萌发率均降低,但野生型的萌发率下降幅度均高于3个过表达株系,并且在200mmol/L NaCl和400mmol/L甘露醇处理下,过表达株系子叶绿化率均显著高于野生型。(2)在低浓度ABA处理下,CkLEA4过表达植株子叶的绿化率也高于野生型。研究表明,柠条锦鸡儿CkLEA4基因提高了拟南芥种子萌发阶段对盐、ABA及渗透胁迫的耐受性。     

拟南芥bso-1突变体的基因定位及表型分析

通过EMS化学诱变在拟南芥Columbia(Col-0)野生型突变体库中筛选获得1株器官显著增大的突变体,命名为big size organ1(bso-1)。遗传分析表明,bso-1受单个隐性核基因控制。表型观察发现,突变体植株的幼苗、花、果荚及种子与野生型相比都表现出明显的增大。组织切片结果显示,突变体种子的增大主要由胚细胞个体增大导致胚体积增大而实现,因此突变体种子的重量也较野生型有明显增加。利用图位克隆方法将相关基因初步定位在4号染色体上SSLP标记T5L19与F28M11之间58kb区间内,生物信息学分析显示此区间内未见调控植物器官大小发育相关的已知基因的报道。该研究结果为进一步克隆bso-1突变体相关基因及探讨其在控制植物器官发育尤其是种子发育过程中的作用奠定了基础。     

冷胁迫条件下拟南芥Rubisco相互作用蛋白质的比较分析

1,5-二磷酸核酮糖羧化酶/加氧酶(Rubisco,EC 4.1.1.39)在生物适应环境变化的过程中起到重要的作用.位于叶绿体中与冷胁迫密切相关的非常重要的复合酶——Rubisco,其相互作用的蛋白质至今没有系统的研究.对拟南芥进行4种处理:a.持续在20℃生长(对照);b.4℃4 h冷胁迫;c.4℃24 h冷胁迫;d.4℃24 h冷胁迫后放入20℃恢复24 h.然后利用免疫共沉淀、十二烷基硫酸钠聚丙烯酰胺凝胶电泳及基质辅助激光解析电离飞行时间质谱技术,在冷胁迫条件下研究了拟南芥光合抑制与Rubisco相互作用蛋白质解聚之间的关系.在鉴定出的5个与冷胁迫相关的Rubisco相互作用蛋白质中,AAA-型ATP酶家族蛋白和糖基转移酶对Rubisco活性及植物适应冷胁迫起着重要的作用.研究结果表明,Rubisco复合酶体系的解聚可能是低温胁迫下拟南芥光合速率降低的主要原因.     

The FUSCA genes of Arabidopsis: negative regulators of light responses

More than 200 fusca mutants of Arabidopsis have been isolated and characterised, defining 14 complementation groups. Mutations in at least nine FUSCA genes cause light-dependent phenotypic changes in the absence of light: high levels of anthocyanin accumulation in both the embryo and the seedling, inhibition of hypocotyl elongation, apical hook opening, and unfolding of cotyledons. In double mutants, the fusca phenotype is epistatic to the hy phytochromedeficiency phenotype, indicating that the FUSCA genes act downstream of phytochrome. By contrast, the accumulation of anthocyanin is suppressed by mutations in TT and TTG genes, which affect the biosynthesis of anthocyanin, placing the FUSCA genes upstream of those genes. Regardless of the presence or absence of anthocyanin, fusca mutations limit cell expansion and cause seedling lethality. In somatic sectors, mutant fus1 cells are viable; expressing tissue-specific phenotypes: reduced cell expansion and accumulation of anthocyanin in subepidermal tissue, formation of ectopic trichomes but no reduced cell expansion in epidermal tissue. Our results suggest a model of FUSCA gene action in light-induced signal transduction.     

Influence of methyl jasmonate on podophyllotoxin and 6-methoxypodophyllotoxin accumulation in Linum album cell suspension cultures

The accumulation of podophyllotoxin (PTOX) and 6-methoxypodophyllotoxin (6MPTOX) was enhanced about twofold in the suspension culture of Linum album line 2-5 aH following the addition of methyl jasmonate (MeJas) to the cultivation medium, reaching 7.69±1.45 mg/g dry weight and 1.11±0.09 mg/g dry weight, respectively. There was no increase in 6MPTOX accumulation following the addition of MeJas to suspension cells of L. album line X4SF, whereas PTOX accumulation was enhanced about tenfold to 0.49±0.10 mg/g dry weight. Phenylalanine ammonia-lyase activity increased immediately after the addition of MeJas to a cell suspension culture of line X4SF, reaching a maximum between 4 h and 1 day after elicitation, while cinnamyl alcohol dehydrogenase activity and the lignin content of the cells were not affected.     

Methyl jasmonate effect on diterpenoid accumulation in Salvia sclarea hairy root culture in shake flasks and sprinkle bioreactor

Hairy root cultures of Salvia sclarea were grown in shake flasks and 10 L nutrient sprinkle bioreactor, running for 30 days and the effects of methyl jasmonate (MJ) on their growth and capacity to accumulate diterpenoids were measured. We found that MJ concentration and exposure time to the elicitor were factors that strongly affected the diterpenoid production. The highest diterpenoid accumulation (67.5 ± 7.1 mg g⁻¹ dry weight, calculated as a sum of ferruginol, salvipisone, aethiopinone and 1-oxoaethiopinone) without reduction of biomass, was achieved when the 23-day-old hairy roots in bioreactor culture were exposed to 125 μM MJ for 7 days. The roots produced 9 and 3.8 times as much aethiopinone (40 ± 5.9 mg g⁻¹ dry weight) and salvipisone (12.6 ± 0.4 mg g⁻¹ dry weight), respectively, as roots cultured in shake flasks. Our results imply that cultivation of S. sclarea hairy roots in sprinkle bioreactor after elicitation with MJ may be valuable to enhance production of the bioactive diterpenoids.     

离体条件下外源茉莉酸甲酯对人参锈腐病菌的影响

人参(Panax ginseng)是我国传统的名贵药材,由毁灭柱孢(Cylindrocarpon destructans)引起的人参锈腐病是严重影响人参产量和品质的重要根部病害之一,在人参生产中会造成严重的经济损失.茉莉酸甲酯(methyl jasmonate,MeJA)是一类新型的生长调节物质,既可以参与植物对病原菌及其他逆境胁迫做出的应答并进行信号传递,又可用来诱导植物的抗病反应.为了明确MeJA对人参锈腐病菌的影响并解析MeJA与病原菌致病因子之间的相互关系,该文研究了外源MeJA在不同浓度下对C.destructans的直接影响,包括对菌落生长、孢子萌发、菌丝生长量、病菌分泌水解酶的影响.结果表明:MeJA能够强烈抑制病原菌的生长和孢子萌发,而对病原菌致病酶的活性则表现出促进作用;人参锈腐病菌在PDA平板上的菌落直径从(8.23±0.15) cm(对照)减少到(0.71±0.00) cm(800 μg·mL-l MeJA),在MeJA浓度达到最高时,菌落生长几乎完全被抑制;MeJA的浓度大于400 μg·mL-1时,病原菌的生物量减少了65.3％～ 100％,孢子萌发率和芽管长度减少了100％;MeJA在浓度大于200 μg·mL-1时,果胶酶、纤维素酶和淀粉酶活性升高而蛋白酶的活性却没有变化.综上表明,MeJA对病原菌产生抑制作用的临界浓度为200 μg·mL-1.该研究结果为后续使用MeJA处理人参植株进行诱导抗病性的研究奠定了基础,同时也有助于进一步了解人参锈腐病的致病机理,并为病害防控提供了理论参考.     

Intragenic recombination in the CSR1 locus of Arabidopsis

Four classes of herbicides are known to inhibit plant acetolactate synthase (ALS). In Arabidopsis, ALS is encoded by a single gene, CSR1. The dominant csr1-1 allele encodes an ALS resistant to chlorsulfuron and triazolopyrimidine sulfonamide while the dominant csr1-2 allele encodes an ALS resistant to imazapyr and pyrimidyl-oxy-benzoate. The molecular distance between the point mutations in csr1-1 and csr1-2 is 1369 bp. Here we used multiherbicide resistance as a stringent selection to measure the intragenic recombination frequency between these two point mutations. We found this frequency to be 0.008 ± 0.0028. The recombinant multiherbicide-resistant allele, csr1-4, provides an ideal marker for plant genetic transformation.