Analysis of the essential DNA region for OsEBP-89 promoter in response to methyl jasmonic acid

In rice, the characterization of OsEBP-89 is inducible by various stress-or hormone-stimuli, including ethylene, abscisic acid (ABA), jasmonate acid (JA), drought and cold. Here, we report the investigation of essential DNA region within OsEBP-89 promoter for methyl jasmonic acid (MeJA) induction. PLACE analysis indicates that this promoter sequence contains multiple potential elements in response to various stimuli. First, we fused this promoter with GUS gene and analyzed its expression under MeJA treatment through Agrobacterium infiltration mediating transient expression in tobacco leaves. Our results revealed that this chimeric gene could be inducible by MeJA in tobacco leaves. To further determine the crucial sequences responsible for MeJA induction, we generated a series of deletion promoters which were fused with GUS reporter gene respectively. The results of transient expression of GUS gene driven by these mutant promoters show that the essential region for MeJA induction is positioned in the region between −1200 and −800 in OsEBP-89 promoter containing a G-box (−1127), which is distinct from the essential region containing ERE (−562) for ACC induction. In all, our finding is helpful in understanding the molecular mechanism of OsEBP-89 expression under different stimuli. OsEBP-89, essential DNA region, methyl jasmonic acid, transient assay, promoter, tobacco leaves Contributed equally to this work Supported by the National Basic Research Program of China (Grant No. 2006CB101700) and the National Natural Science Foundation of China (Grant Nos. 30671135, 30525034 and 30730060)     

Pib启动子中茉莉酸和乙烯响应元件的转基因分析

水稻Pib基因的表达受茉莉酸、乙烯等激素诱导, 为了确定该基因启动子响应茉莉酸和乙烯诱导的必需区域, 进一步阐明茉莉酸和乙烯响应分子元件, 文章用PCR制备了Pib全长启动子-3 572~2 bp及3个5′端有不同长度缺失的Pib启动子片段-2 692~2 bp、-1 335~2 bp、-761~2 bp。4个不同长度Pib启动子分别置换掉双元质粒中gus基因上游的35S构建为重组质粒, 经农杆菌介导转入水稻获得转基因植株。转基因水稻中gus活性的蛋白质水平和mRNA水平的定性和定量分析结果表明, 全长Pib启动子(-3 572~2 bp, pNAR901)启动活性最强, 茉莉酸或乙烯诱导6 h后, 其驱动gus基因在转基因植株各部组织中的表达量明显上升。而-3 572~-2 692 bp区段序列缺失后不但Pib启动子启动活性显著降低而且也丧失了对茉莉酸和乙烯的诱导活性。pNAR902(-2 692~2 bp),pNAR903(-1 335~2 bp)和pNAR904(-761~2 bp)中的Pib启动子序列的缺失长度相差达2倍和3倍以上, 但其对茉莉酸和乙烯的诱导响应没有区别。这些结果显示3个Pib启动子缺失体构建中, 其共同缺失序列即-3 572~-2 692 bp区域是Pib启动子茉莉酸和乙烯诱导响应的必需区域。软件检索证实, Pib启动子序列中只在上述共同缺失区段之内的-2 722 bp处有一个GCCGCC基序。文章报道的转基因实验表明GCCGCC基序可能是Pib基因中有关茉莉酸和乙烯诱导响应的顺式分子元件。     

Monitoring of methyl jasmonate-responsive genes in Arabidopsis by cDNA macroarray: self-activation of jasmonic acid biosynthesis and crosstalk with other phytohormone signaling pathways.

Jasmonates mediate various physiological events in plant cells such as defense responses, flowering, and senescence through intracellular and intercellular signaling pathways, and the expression of a large number of genes appears to be regulated by jasmonates. In order to obtain information on the regulatory network of jasmonate-responsive genes (JRGs) in Arabidopsis thaliana (Arabidopsis), we screened 2880 cDNA clones for jasmonate responsiveness by a cDNA macroarray procedure. Since many of the JRGs reported so far have been identified in leaf tissues, the cDNA clones used were chosen from a non-redundant EST library that was prepared from above-ground organs. Hybridization to the filters was achieved using alpha-33P-labeled single-strand DNAs synthesized from mRNAs obtained from methyl jasmonate (MeJA)-treated and untreated Arabidopsis seedlings. Data analysis identified 41 JRGs whose mRNA levels were changed by more than three fold in response to MeJA. This was confirmed by Northern blot analysis by using eight representatives. Among the 41 JRGs identified, 5 genes were JA biosynthesis genes and 3 genes were involved in other signaling pathways (ethylene, auxin, and salicylic acid). These results suggest the existence of a positive feedback regulatory system for JA biosynthesis and the possibility of crosstalk between JA signaling and other signaling pathways.     

系统素、茉莉酸在番茄系统伤反应中的作用

当植物受到机械损伤或昆虫伤害时,植物体会在受伤部位产生伤信号分子启动防御基因的系统表达,蛋白酶抑制剂基因是防御基因的一典型代表.番茄是研究植物系统伤信号很好的模式植物,目前,三种类型的番茄系统伤信号突变体被鉴定出来,通过对番茄系统伤信号突变体进行功能分析并在它们之间进行相互嫁接实验,研究结果表明系统素和茉莉酸通过同一信号通路来激活防御基因的系统表达.系统素(或它的前体原系统素)在受伤部位激活茉莉酸的合成,使之达到系统反应的水平,应对外来伤害;茉莉酸或其衍生物是重要的系统伤信号分子,它诱导伤防御基因的系统表达.植物的系统伤反应可比做动物的炎症反应,它们之间有许多相似之处.     

外源茉莉酸和茉莉酸甲酯诱导植物抗虫作用及其机理

综述了茉莉酸(jasmonic acid, JA)和茉莉酸甲酯(methyl jasmo nate, MJA)的分子结构和应用其诱导的植物抗虫作用及其机制。植物受外源茉莉酸或茉莉酸甲酯刺激后,一条反应途径是由硬脂酸途径激活防御基因,另一条途径是直接激活防御基因。防御基因激活后导致代谢途径重新配置,并可能诱导植物产生下列4种效应：（1）直接防御,即植物产生对害虫有毒的物质、抗营养和抗消化的酶类,或具驱避性和妨碍行为作用的化合物;（2）间接防御,即产生吸引天敌的挥发物;（3）不防御,即无防御反应;（4）负防御,即产生吸引害虫的挥发物。     

Enhancement of petunia and dendrobium flower senescence by jasmonic acid methyl ester is via the promotion of ethylene production

Methyl jasmonate (JA-Me), applied to dendrobium and petunia flowers either as an aqueous solution through the cut stem or stigma, or as a gas, accelerated senescence. The rate of appearance of wilting symptoms was directly related to the amount of JA-Me applied to the flowers. JA-Me increased ethylene production by the flowers, irrespective of application method, and this effect was also proportional to the dose of the compound. In both dendrobium and petunia flowers, the JA-Me induced increases in ethylene production and 1-aminocyclopropane-1-carboxylic acid content followed similar patterns. Aminooxyacetic acid, an inhibitor of ACC-synthase, and silver-thiosulfate, an inhibitor of ethylene action, completely inhibited the effects of JA-Me. It is concluded that JA-Me enhances petunia and dendrobium flower senescence via the promotion of ACC and ethylene production.Abbreviations ACC 1-aminocyclopropane-1-carboxylic acid - AOA aminooxyacetic acid - Fl flower - JA jasmonic acid - JA-Me jasmonic acid methyl ester - LOX lipoxygenase - PLase A A-type phospholipase - STS silver-thiosulfate     

Consequences of the overproduction of methyl jasmonate on seed production, tolerance to defoliation and competitive effect and response of Arabidopsis thaliana

* Accumulation of methyl jasmonate (MeJA) after herbivore attack in plants is associated with the induction of defenses that can benefit fitness, but are costly to express; effects often explored using exogenous application of jasmonates. * Here I explored the consequences of the overexpression of MeJA on seed production, tolerance to defoliation and competitive effect and response, using a genotype of Arabidopsis thaliana that overexpresses jasmonic acid carboxyl methyltransferase (JMT) and contains threefold higher levels of MeJA than wild-type plants. * Without competition, JMT plants produced 37-40% less total seed mass than vector controls or wild-type plants, and had reduced seed germination. Defoliation reduced height more strongly in wild-type than in JMT plants, but reduced total seed production equally. In a competition experiment, the presence of a neighbor reduced fitness more strongly in wild-type than in JMT plants, but JMT plants exhibited dampened opportunity costs and benefits of induction with jasmonic acid of itself or its neighbor. This may have related to the higher constitutive expression but reduced inducibility of jasmonate-mediated defenses, including trypsin inhibitors, exhibited by JMT plants. * In natural plant populations, overexpression of MeJA-mediated responses should be beneficial to resistance to herbivores, pathogens and competitors, but is directly costly to fitness and probably constrains plasticity in response to changing environmental conditions.     

Evidence for the involvement of jasmonic acid in the control of the stem-growth habit of soybean plants

Soybean plants show diversity in stem-growth habit which ranges from the determinate type to the indeterminate type. Stem growth of determinate plants abruptly terminate near the beginning of flowering. The possible involvement of jasmonic acid (JA) in the control of the stem growth-habit was examined in indeterminate and determinate isolines of soybean [ Glycine max (L.) Merril cv. Harosoy]. JA-like activities in leaves of both isolines were very low 20 days before the commencement of flowering. The activity increased rapidly thereafter and reached a maximum near the time of flowering. Although the activities in leaves of both isolines fluctuated in a similar manner, the activity in the determinate isoline was much higher than that in the indeterminate isoline after flowering. The presence of JA in the leaves of the determinate isoline was confirmed by purification by high-performance liquid chromatography and by mass spectrometry. Exogenous application of JA to cultured shoot apices of the indeterminate isoline strongly inhibited growth. These results suggest that jasmonic acid is a major endogenous factor that controls the growth habit of soybean plants.     

Feeding of pea leafminer larvae simultaneously activates jasmonic and salicylic acid pathways in plants to release a terpenoid for indirect defense

The pea leafminer, Liriomyza huidobrensis, is an important pest species affecting ornamental crops worldwide. Plant damage consists of oviposition and feeding punctures created by female adult flies as well as larva-bored mines in leaf mesophyll tissues. How plants indirectly defend themselves from these two types of leafminer damage has not been sufficiently investigated. In this study, we compared the indirect defense responses of bean plants infested by either female adults or larvae. Puncturing of leaves by adults released green leaf volatiles and terpenoids, while larval feeding caused plants to additionally emit methyl salicylate and (E,E)-4,8,12-trimethyl-1,3,7,11-tridecatetraene (TMTT). Puncturing of plants by female adults induced increases in jasmonic acid (JA) and JA-related gene expressions but reduced the expressions of salicylic acid (SA)-related genes. In contrast, JA and SA and their-related gene expression levels were increased significantly by larval feeding. The exogenous application of JA+SA significantly triggered TMTT emission, thereby significantly inducing the orientation behavior of parasitoids. Our study has confirmed that larval feeding can trigger TMTT emission through the activation of both JA and SA pathways to attract parasitoids; however, TMTT alone is less attractive than the complete blend of volatiles released by infested plants.     

Response surface methodology to optimize the nutritional parameters for enhanced production of jasmonic acid by Lasiodiplodia theobromae

Aims:  To find out the cumulative effect of the nutritional parameters and to enhance the production of jasmonic acid (JA) in static fermentation by Lasiodiplodia theobromae using response surface methodology (RSM).
Method and Results:  Malt extract, sucrose, NaNO₃ and MgSO₄.7H₂O were analysed by a 30-trial central composite design using RSM for optimizing their concentrations in the medium and the effect of their mutual interaction on JA production. Sucrose and NaNO₃ were found highly significant in influencing the JA production. Malt extract and MgSO₄.7H₂O showed an effect on the JA production in interaction with other variables. When the optimum values of the parameters obtained through RSM (19·95 g l⁻¹ malt extract, 50 g l⁻¹ sucrose, 7·5 g l⁻¹ NaNO₃ and 3·51 g l⁻¹ MgSO₄.7H₂O) were applied, 32% increase in JA production (299 mg l⁻¹) was observed in comparison with 225 mg l⁻¹ of JA produced with same media components not analysed by RSM and subsequently validated the statistical model.
Conclusions:  Increase in JA production was achieved by optimizing the nutritional parameters.
Significance and Impact of the Study:  This is the first report of using RSM for optimizing a medium for JA production. It resulted in an increase in JA production without augmentation of costly additives.     

Overexpressing the N-terminus of CATALASE2 enhances plant jasmonic acid biosynthesis and resistance to necrotrophic pathogen Botrytis cinerea B05.10

Salicylic acid (SA) acts antagonistically to jasmonic acid (JA) in plant immunity. We previously reported that CATALASE2 (CAT2) promotes JA-biosynthetic acyl-CoA oxidase (ACX) activity to enhance plant resistance to necrotrophic Botrytis cinerea, and SA represses JA biosynthesis through inhibiting CAT2 activity, while the underlying mechanism remains to be further elucidated. Here, we report that the truncated CAT2 N-terminus (CAT2-N) interacts with and promotes ACX2/3, and CAT2-N-overexpressing plants have increased JA accumulation and enhanced resistance to B. cinerea B05.10, but compromised antagonism of SA on JA. Catalase inhibitor treatment or mutating CAT2 active amino acids abolished CAT2 H₂O₂-decomposing activity but did not affect its promotion of ACX2/3 activity via interaction. CAT2-N, a truncated protein with no catalase activity, interacted with and promoted ACX2/3. Overexpressing CAT2-N in Arabidopsis plants resulted in increased ACX activity, higher JA accumulation, and stronger resistance to B. cinerea B05.10 infection. Additionally, SA dramatically repressed JA biosynthesis and resistance to B. cinerea in the wild type but not in the CAT2-N-overexpressing plants. Together, our study reveals that CAT2-N can be utilized as an accelerator for JA biosynthesis during plant resistance to B. cinerea B05.10, and this truncated protein partly relieves SA repression of JA biosynthesis in plant defence responses.     

CTD phosphatases in the attenuation of wound-induced transcription of jasmonic acid biosynthetic genes in Arabidopsis

Trienoic fatty acids (TAs), the major constituents in plant membrane lipids, play essential roles in stress signalling as precursors of the phytohormone jasmonic acid (JA). Arabidopsis FAD7 encodes a plastidial ω-3 fatty acid desaturase, which catalyses the production of TAs. In coordination with other JA-biosynthetic genes, expression of FAD7 is induced locally by wounding. This provides a feedforward mechanism for the rapid and sustainable accumulation of JA. To identify molecular components involved in this mechanism, a transgenic Arabidopsis line carrying the FAD7 promoter ( pFAD7 ) fused to the firefly luciferase gene ( LUC ) was constructed. Reciprocal crossing experiments revealed that the induction of FAD7 expression depends largely on JA biosynthesis and the SCF^COI1-mediated signalling mechanism, whereas JA alone is insufficient for its maximal induction. Full induction required synergistic interactions between JA-dependent and -independent wound signalling mechanisms. A genetic screen for aberrant pFAD7::LUC expression yielded a recessive mutant showing enhanced wound-induced LUC bioluminescence. The mutation was associated with the cpl1 locus encoding an RNA polymerase II C-terminal domain (CTD) phosphatase, and conferred wound hyper-responsiveness on the promoters of several JA-biosynthetic genes. The picture of signalling mechanisms underlying the wound-regulated FAD7 expression, and potential roles of CPL proteins as attenuators of wound-induced JA biosynthesis, are discussed.     

Interaction of jasmonic and abscisic acid in the control of lipases and proteases in germinating apple embryos

Effects of jasmonic (JA) and abscisic (ABA) acid on the activities of lipases and proteases were studied in cultured embryos excised from apple seeds. JA stimulated alkaline (AlkL) and acid (AcL) lipases as well as proteases hydrolyzing casein, L-cystine-di-β-naphthylamide (CysβNa), glycyl-glycyl-glycine (GlyGlyGly) and native apple seed proteins. ABA inhibited AlkL and protease activities, with the exception of the hydrolysis of native proteins which was stimulated. The activity of AcL was not affected by ABA. AlkL was affected by JA and ABA also in vitro. An antagonistic interaction between JA and ABA on all studied enzyme activities. except CysβNa hydrolyzing protease, was observed. The positions of JA- and ABA-controlled sites in the metabolic regulation of the removal of embryonal dormancy in apple seeds are discussed.     

Dynamics of the enhanced emissions of monoterpenes and methyl salicylate, and decreased uptake of formaldehyde, by Quercus ilex leaves after application of jasmonic acid

Jasmonic acid (JA) is a signalling compound with a key role in both stress and development in plants, and is reported to elicit the emission of volatile organic compounds (VOCs). Here we studied the dynamics of such emissions and the linkage with photosynthetic rates and stomatal conductance. We sprayed JA on leaves of the Mediterranean tree species Quercus ilex and measured the photosynthetic rates, stomatal conductances, and emissions and uptake of VOCs using proton transfer reaction mass spectrometry and gas chromatography after a dark-light transition. Jasmonic acid treatment delayed the induction of photosynthesis and stomatal conductance by approx. 20 min, and decreased them 24 h after spraying. Indications were found of both stomatal and nonstomatal limitations of photosynthesis. Monoterpene emissions were enhanced (20-30%) after JA spraying. Jasmonic acid also increased methyl salicylate (MeSa) emissions (more than twofold) 1 h after treatment, although after 24 h this effect had disappeared. Formaldehyde foliar uptake decreased significantly 24 h after JA treatment. Both biotic and abiotic stresses can thus affect plant VOC emissions through their strong impact on JA levels. Jasmonic acid-mediated increases in monoterpene and MeSa emissions might have a protective role when confronting biotic and abiotic stresses.     

蓟马取食、机械损伤以及外源水杨酸甲酯和茉莉酸对菜豆叶片防御酶活性的影响

【目的】探讨菜豆对昆虫取食防御反应的生化机制。【方法】研究了西花蓟马Frankliniella occidentalis取食、机械损伤以及外源水杨酸甲酯（MeSA）和茉莉酸（JA）处理后菜豆叶片防御酶活性的变化。【结果】西花蓟马取食、机械损伤及MeSA和JA处理均能明显提高过氧化物酶（POD）的活性,前2种处理POD活性在72 h上升到最高峰,而后2种处理则在48 h达到最高峰。蛋白酶抑制剂（PI）活性在西花蓟马取食后升高最明显。JA途径关键酶脂氧合酶（LOX）和多酚氧化酶（PPO）的活性在西花蓟马取食、机械损伤和JA诱导处理均升高,但外源MeSA诱导处理则不能诱导它们的活性(P>0.05)。SA途径的关键酶苯丙氨酸解氨酶（PAL）在西花蓟马取食和机械损伤后均有一个先升高后下降的过程,外源MeSA诱导只在24 h引起PAL活性升高,其余时间下和对照没有明显的区别,外源JA诱导未能引起PAL活性的显著变化(P>0.05)。西花蓟马取食、JA和MeSA诱导以及机械损伤均能诱导β-1,3 葡聚糖酶（PR-2）活性上升(P<0.05)。【结论】结果说明,不同处理可诱导菜豆植株产生明显的防御反应,但酶活性的变化与处理方式和处理时间有关。