机械伤害和外施茉莉酸对巴西橡胶树次生乳管分化的局部效应及其与茉莉酸分布的关系

采用同位素示踪技术和实验形态学的方法揭示茉莉酸在木本植物巴西橡胶树(Hevea brasiliensis Mull.Arg.)中的分布和运输的特点,并分析其与机械伤害和外施茉莉酸对巴西橡胶树次生乳管分化的诱导效应之间的关系.外施的茉莉酸进入体内后,在较长时间内大部分集中在施用部位.机械伤害阻止外施的茉莉酸进入体内,同时,又使进入的茉莉酸阻滞在受伤部位的附近.与茉莉酸在草本植物中可以向上和向下运输的情况不同,茉莉酸在木本植物巴西橡胶树中主要是向下运输的.机械伤害和外施茉莉酸对巴西橡胶树次生乳管分化的诱导效应是局部的,只在受伤和施用茉莉酸部位的树皮中诱导次生乳管的形成.机械伤害削弱外源茉莉酸对次生乳管分化的诱导效应,这与机械伤害阻止外源茉莉酸进入有关.研究结果表明,体内高水平的茉莉酸是诱导巴西橡胶树次生乳管分化所必需的.     

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。     

局部灼伤对茉莉酸在蚕豆幼苗中运输和分配的影响

用示踪技术研究了3 H_JA (jasmonicacid)在双子叶植物蚕豆 (ViciafabaL .)中的运输和分配规律以及局部灼伤对其运输与分配的影响。外源3 H_JA能够以高于 4～ 5cm·min-1的速率在蚕豆幼苗体内向上和向下运输。幼叶局部灼伤能提高3 H_JA的向上运输能力 ,促进3 H_JA向受伤部位的调运 ;增加3 H_JA向成熟叶片下表皮的运输分配比率 ;阻止3 H_JA从受伤部位的向外输出。据此推测 ,伤胁迫下JA的运输与分配的改变可能与植物体防御伤反应密切相关 ,并有可能参与了对气孔运动的调控     

局部灼伤对茉莉酸在蚕豆幼苗中运输和分配的影响

用示踪技术研究了3H-JA (jasmonic acid)在双子叶植物蚕豆(Vicia faba L.)中的运输和分配规律以及局部灼伤对其运输与分配的影响.外源3H-JA 能够以高于4～5 cm*min-1的速率在蚕豆幼苗体内向上和向下运输.幼叶局部灼伤能提高3H-JA的向上运输能力,促进3H-JA向受伤部位的调运;增加3H-JA向成熟叶片下表皮的运输分配比率;阻止3H-JA从受伤部位的向外输出.据此推测,伤胁迫下JA的运输与分配的改变可能与植物体防御伤反应密切相关,并有可能参与了对气孔运动的调控.     

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.     

橡胶树茉莉酸信号途径相关基因表达与橡胶产量的相关性

割胶促进橡胶树合成天然橡胶与激活乳管细胞的茉莉酸信号途径密切相关,但茉莉酸信号途径关键环节的基因表达水平与干胶产量的相关性尚不清楚。为了找到与产量相关的分子标记,该研究采用qPCR技术,分析了割胶条件下茉莉酸信号途径关键环节的9个相关基因在5个橡胶树魏克汉种质和5个1981’IRRDB种质乳管细胞中的表达。结果表明:大多魏克汉种质的株次干胶产量显著高于1981’IRRDB种质。在9个基因中,除了HbMYC4和HbMYC5,其余7个基因在大多橡胶树魏克汉种质中的表达量均显著高于1981’IRRDB种质,尤其是HbMYC3基因表达差异性好,与干胶产量相关性高,有望作为橡胶树产量育种的一个分子标记。这对育种周期长的橡胶树产量育种具有实际应用价值。     

茉莉酸甲酯对丹参毛状根有效成分含量的影响

研究茉莉酸甲酯对丹参毛状根中次生代谢产物含量的影响,为丹参毛状根培养的生产应用提供实验依据。以茉莉酸甲酯作为丹参毛状根的诱导子,进行丹参毛状根诱导培养。发现茉莉酸甲酯诱导的丹参毛状根的丹参酮类化合物丹参酮Ⅰ和丹参酮ⅡA分别是无茉莉酸甲酯诱导的1.53倍和1.16倍,酚酸类化合物迷迭香酸和丹酚酸B分别是无茉莉酸甲酯诱导的1.37倍和4.43倍。茉莉酸甲酯能显著提高丹参毛状根次生代谢产物的合成和积累,通过茉莉酸甲酯诱导实现丹参有效次生代谢产物的高效生产。     

橡胶树形成层组织的酵母双杂交cDNA文库构建及HbHDA6互作蛋白筛选

次生乳管是天然橡胶合成和贮存的场所,是由橡胶树树干树皮中维管形成层细胞分裂分化而来。次生乳管的数量与天然橡胶产量直接相关,而这些乳管的数量取决于形成层分化次生乳管的频率(乳管分化能力),是橡胶树产量育种的主要指标。前期研究中,我们发现组蛋白去乙酰化酶(HDA)抑制剂曲古抑菌素A(TSA)能诱导橡胶树乳管分化且组蛋白去乙酰化酶基因(HbHDA6)能够参与橡胶树乳管分化调控。由于组蛋白乙酰化修饰调控橡胶树次生乳管分化的分子机制尚未阐明,因此该文使用冠菌素(COR)诱导橡胶树形成层分化产生次生乳管的实验系统,以分离形成层组织为材料,构建酵母双杂交cDNA文库,以HbHDA6基因为诱饵来筛选酵母双杂交文库,确定与HbHDA6相互作用的蛋白。结果表明：(1)利用Gateway技术构建的均一化COR诱导橡胶树形成层组织的酵母双杂交cDNA文库,初级文库的容量为6.34×10⁶ CFU·mL^-1,总单克隆数为1.27×10⁷,文库重组率为100%;次级文库的容量为7.72×10⁶ CFU·mL^-1     

外源茉莉酸诱导植物反应对菜蛾绒茧蜂寄生选择行为的影响

茉莉酸是植物体内重要的伤信号分子,向植物施用外源茉莉酸后, 可诱导植物产生各种防卫反应, 如挥发物组成发生改变等, 进而影响植食性昆虫及其天敌。该文报道用不同浓度外源茉莉酸处理白菜和甘蓝后,诱导植物反应所产生的挥发物对菜蛾绒茧蜂搜索及寄生选择行为的影响。外源茉莉酸处理白菜和甘蓝后,处理植株的挥发物对菜蛾绒茧蜂的引诱力增强;与在对照植株上相比,该蜂对经茉莉酸处理后白菜植株上的小菜蛾幼虫的寄生数显著要高。表明茉莉酸处理白菜及甘蓝后,植物诱导反应导致其挥发物的作用发生变化,进而可提高该蜂的搜索和寄生效率。     

在伤信号传导中茉莉酸与水杨酸的关系

近年来,发现茉莉酸和水杨酸都是植物体对外界伤害作出反应,表达抗性基因的信号分子。水杨酸可抑制茉莉酸类的合成及其所诱导的蛋白基因的表达;茉莉酸能阻止病原侵染后所产生的水杨酸的增加。茉莉酸信号转导途径和水杨酸信号转导途径存在着交叉,小GTP结合蛋白和细胞分裂素可能起着信号开关的作用。     

Laticifer Differentiation in Hevea brasiliensis: Induction by Exogenous Jasmonic Acid and Linolenic Acid

Laticifer differentiation of Hevea brasiliensis was investigatedby application of lanolin containing jasmonic acid (JA) or otherchemicals to the surface of young stems in epicormic shoots.The young stems had primary laticifers and no secondary laticifers.When applied to extending young stems, JA led to a significantincrease in primary laticifer number but did not induce secondarylaticifer differentiation. Secondary laticifer differentiationand a less significant increase in primary laticifer numberwere caused by JA application to the extended young stems. Theinduction of the secondary laticifers was dependent on the concentrationof JA applied. Cambium cell division leading to the formationof secondary phloem was not accelerated by JA treatment. Treatedbark tissues showed no visible changes except for the additionallaticifers, which were normal in ultrastructure. The secondarylaticifers were also induced by the application of linolenicacid, a precursor of JA biosynthesis. Abscisic acid, ethephonand salicylic acid had no detectable effect on laticifer differentiation.Copyright 2000 Annals of Botany Company Hevea brasiliensis, laticifer differentiation, jasmonic acid, linolenic acid, vascular cambium.     

Characterisation of recombinant Hevea brasiliensis allene oxide synthase: effects of cycloxygenase inhibitors, lipoxygenase inhibitors and salicylates on enzyme activity.

Mechanical wounding and jasmonic acid (JA) treatment have been shown to be important factors in controlling laticifer differentiation in Hevea brasiliensis (rubber tree). With the long-term aim of potentially modifying the endogenous levels of JA in H. brasiliensis by gene transfer, we describe in this paper the molecular cloning of a H. brasiliensis allene oxide synthase (AOS) cDNA and biochemical characterisation of the recombinant AOS (His(6)-HbAOS) enzyme. The AOS cDNA encodes a protein with the expected motifs present in CYP74A sub-group of the cytochrome P450 super-family of enzymes that metabolise 13-hydroperoxylinolenic acid (13-HPOT), the intermediate involved in JA synthesis. The recombinant H. brasiliensis AOS enzyme was estimated to have a high binding affinity for 13-HPOT with a K(m) value of 4.02+/-0.64 microM. Consistent with previous studies, mammalian cycloxygenase (COX) and lipoxygenase (LOX) inhibitors were shown to significantly reduce His(6)-HbAOS enzyme activity. Although JA had no effect on His(6)-HbAOS, salicylic acid (SA) was shown to significantly inhibit the recombinant AOS enzyme activity in a dose dependent manner. Moreover, it was demonstrated that SA, and various analogues of SA, acted as competitive inhibitors of His(6)-HbAOS when 13-HPOT was used as substrate. We speculate that this effect of salicylates on AOS activity may be important in cross-talking between the SA and JA signalling pathways in plants during biotic/abiotic stress.     

Jasmonic Acid is Induced in a Biphasic Manner in Response of Pea Seedlings to Wounding

The role of jasmonic acid (JA) in plant wounding response has been demonstrated. However, the source of JA in wound signaling remains unclear. In the present study, pea seedlings were used as material to investigate the systemic induction of JA and the activation of lipoxygenase (LOX)-dependent octadecanoid pathway upon wounding. The results showed that endogenous JA could induce two peaks in the wounded leaves and the stalks, while only one peak in the systemic leaves.LOX activity and its protein amount were also induced and the stimulation mainly occurred in the late phase, while one peak of induction was present after pretreatment with JA. Applied nordihydroguaiaretic acid (NDGA), an inhibitor of LOX activity, only inhibited the induction of JA in the late phase, and the resistance of pea was impaired. Furthermore, 13(S)-hydroperoxy-9(Z), 11 (E)-octadecadienoic acid (13(S)-H(P)ODE) was confirmed to be the main product of LOX throughout the experimental time. In addition, immunocytochemical analysis also revealed the occurrence of JA biosynthesis and transport upon wounding. These results demonstrated that wound-induced JA in wounded leaves resulted from Its biosynthesis and conversion from its conjugates, while in systemic leaves resulted from its transport and biosynthesis; and proved that the LOX pathway was vital to the wound-induced defense response involved in JA biosynthesis.     

Cloning and characterisation of JAZ gene family in Hevea brasiliensis

Mechanical wounding or treatment with exogenous jasmonates (JA) induces differentiation of the laticifer in Hevea brasiliensis. JA is a key signal for latex biosynthesis and wounding response in the rubber tree. Identification of JAZ (jasmonate ZIM‐domain) family of proteins that repress JA responses has facilitated rapid progress in understanding how this lipid‐derived hormone controls gene expression and related physiological processes in plants. In this work, the full‐length cDNAs of six JAZ genes were cloned from H. brasiliensis (termed HbJAZ). These HbJAZ have different lengths and sequence diversity, but all of them contain Jas and ZIM domains, and two of them contain an ERF‐associated amphiphilic repression (EAR) motif in the N‐terminal. Real‐time RT‐PCR analyses revealed that HbJAZ have different expression patterns and tissue specificity. Four HbJAZ were up‐regulated, one was down‐regulated, while two were less effected by rubber tapping treatment, suggesting that they might play distinct roles in the wounding response. A yeast two‐hybrid assay revealed that HbJAZ proteins interact with each other to form homologous or heterogeneous dimer complexes, indicating that the HbJAZ proteins may expand their function through diverse JAZ–JAZ interactions. This work lays a foundation for identification of the JA signalling pathway and molecular mechanisms of latex biosynthesis in rubber trees.     

局部灼伤对小麦幼苗外源茉莉酸吸收与运转的影响

采用示踪技术探索了3H-JA的运输和分配规律及其受伤害胁迫的影响.外源3H-JA能够在小麦幼苗体内向上和向下运输,局部灼伤其运输与分配都发生了改变.从小麦根系饲喂的3H-JA,在植株内的分布量依序为根＞茎＞叶,时间较长(4h)时分配于心叶的3H-JA大大增加.当叶片受到局部灼伤时3H-JA向地上部的输出量减少;但局部灼伤可加快由心叶饲喂的3H-JA的向下运输,改变3H-JA在小麦幼苗各部位的分配比率.心叶饲喂短时间(5min)时,3H-JA主要积累在受到伤胁迫的展开叶(第2叶)中.向展开叶(第2叶)饲喂的3H-JA向下运输的速率高于向上运输的速率.推测JA运输及分配的变化可能在植株的防御反应中起重要作用.     

Kinetics of the Accumulation of Jasmonic Acid and Its Derivatives in Systemic Leaves of Tobacco (Nicotiana tabacum cv. Xanthi nc) and Translocation of Deuterium-Labeled Jasmonic Acid from the Wounding Site to the Systemic Site

In plants, the mobile signal needed for wound-induced systemic acquired resistance (WSR) has been elusive. The signal compound involved in WSR is supposed to be JA or its derivatives. On the basis of kinetic study of the accumulation of JA or its derivatives, it was discovered that JA, JA-Ile, tuberonic acid (TA, 12-OH epi-JA), and tuberonic acid glucoside (TAG) accumulated in systemic tissues in response to mechanical wounding stress in the tobacco plant (Nicotiana tabacum). Attempts to recover deuterium-labeled JA in systemic leaves after feeding the wounded leaves with deuterium-labeled JA were successfully done. It was also found that the translocated deuterium-labeled JA was metabolized to TA in systemic leaves under feeding of deuterium-labeled JA to the wounding leaves.     

茉莉酸生物合成的调控及其信号通路

茉莉酸类化合物作为一种细胞信号分子,在植物的生长发育、机械损伤、代谢调节及诱导防御相关基因表达等方面起着重要的作用。本文概述了茉莉酸的生物合成调控以及人们目前对茉莉酸信号通路的认识,并对该研究领域存在的问题及今后可能的研究方向进行展望。     

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。     

Localized Wounding by Heat Initiates the Accumulation of Proteinase Inhibitor II in Abscisic Acid-Deficient Plants by Triggering Jasmonic Acid Biosynthesis

To test whether the response to electrical current and heat treatment is due to the same signaling pathway that mediates mechanical wounding, we analyzed the effect of electric-current application and localized burning on proteinase inhibitor II (Pin2) gene expression in both wild-type and abscisic acid (ABA)-deficient tomato (Lycopersicon esculentum Mill.) and potato (Solanum phureja) plants. Electric-current application and localized burning led to the accumulation of Pin2 mRNA in potato and tomato wild-type plants. Among the treatments tested, only localized burning of the leaves led to an accumulation of Pin2 mRNA in the ABA-deficient plants. Electric-current application, like mechanical injury, was able to initiate ABA and jasmonic acid (JA) accumulation in wild-type but not in ABA-deficient plants. In contrast, heat treatment led to an accumulation of JA in both wild-type and ABA-deficient plants. Inhibition of JA biosynthesis by aspirin blocked the heat-induced Pin2 gene expression in tomato wild-type leaves. These results suggest that electric current, similar to mechanical wounding, requires the presence of ABA to induce Pin2 gene expression. Conversely, burning of the leaves activates Pin2 gene expression by directly triggering the biosynthesis of JA by an alternative pathway that is independent of endogenous ABA levels.