跨膜Ca2+和H+离子流参与里那醇诱导的拟南芥中抗虫防御反应

里那醇可诱导植物产生防御物质从而阻止昆虫及病原菌的伤害。本文以拟南芥植株为材料,研究了里那醇对小菜蛾取食选择性的影响,测定了里那醇处理下小菜蛾生长量及存活率。采用非损伤微测技术分别检测了里那醇熏蒸及未熏蒸拟南芥对小菜蛾口腔分泌物及里那醇瞬时处理的植株叶片跨膜Ca²⁺和H⁺流的变化。结果表明,小菜蛾幼虫对里那醇熏蒸处理的植株选择性较差,用里那醇熏蒸后的拟南芥植株喂养小菜蛾幼虫,幼虫的生长量及存活率均低于对照组。小菜蛾口腔分泌物和里那醇熏蒸处理均导致拟南芥叶组织跨膜Ca²⁺和H⁺离子迅速外流,且小菜蛾口腔分泌物的作用更大。而对照中Ca²⁺和H⁺离子流整体均无明显变化。研究结果证明里那醇作为防御信号参与了拟南芥对昆虫的防御反应,叶组织跨膜Ca²⁺和H⁺离子流变化可能是拟南芥识别昆虫口腔分泌物与里那醇两种不同刺激的初始信号。     

亚麻荠对小菜蛾幼虫取食和成虫行为反应的影响

亚麻荠是一种很少有害虫危害的油料作物。用室内生测和Y 型嗅觉仪研究了亚麻荠对小菜蛾Plutella xylostella幼虫取食和成虫行 为反应的影响。以甘蓝作对照,用亚麻荠叶片喂养的小菜蛾初孵幼虫3天后校正死亡率为79 .2%,显示了较强的致死作用;喂养小菜蛾3龄幼虫至化蛹,其存活率、化蛹率、蛹重及成 虫寿命都显著降低,表明亚麻荠对小菜蛾幼虫的生长发育有不利影响。在幼虫的取食选择实 验中,有甘蓝叶供选择时,小菜蛾幼虫不取食亚麻荠;在无可选择的情况下,小菜蛾幼虫也 取 食亚麻荠叶片,但取食量很小,与取食甘蓝叶的量相比,差异极显著。行为反应测试表明, 小菜蛾成虫对甘蓝和亚麻荠植株的挥发物都有明显的趋性反应,与对照（净化空气）相比, 差异极显著,而在甘蓝和亚麻荠之间无选择性。说明小菜蛾成虫对亚麻荠植株的挥发物具有 较强的定向反应。     

茉莉酸甲酯处理对棉铃虫生长和解毒能力的影响

【目的】为明确茉莉酸甲酯（methyl jasmonate, MeJA）的不同处理方式对昆虫生长和解毒代谢能力的影响,以及MeJA熏蒸处理昆虫对植物防御和昆虫解毒代谢之间关系的影响。【方法】本文比较了取食MeJA和MeJA熏蒸等两种处理对棉铃虫Helicoverpa armigera 3龄末幼虫生长和解毒代谢酶活性的影响,并系统研究了经MeJA熏蒸处理的棉铃虫3龄末幼虫,再取食经MeJA喷雾处理的棉叶,其中肠解毒酶活性的变化。【结果】取食MeJA和MeJA熏蒸两种不同处理,对棉铃虫幼虫的生长及解毒能力的影响有所不同。取食含2.9 μg/g MeJA的人工饲料显著抑制了棉铃虫的生长,同时诱导棉铃虫幼虫P450活性增加了1.92倍,而MeJA熏蒸虽然没有影响棉铃虫幼虫的生长,但MeJA熏蒸处理使棉铃虫幼虫P450活性和羧酸酯酶活性分别增加了2.94倍和1.16倍。经MeJA熏蒸处理后的棉铃虫幼虫,再取食正常的或经MeJA喷雾处理的棉叶,其幼虫P450活性显著增加,其中经MeJA熏蒸处理的棉铃虫,再取食经MeJA喷雾处理的棉叶,其P450酶显示了最高活性。【结论】MeJA熏蒸处理棉铃虫,不仅使棉铃虫中与P450酶相关的解毒能力显著增加,而且增加了棉铃虫对于MeJA所诱导的棉花防御反应的解毒能力。     

MeJA诱导的拟南芥保卫细胞H2O2积累与质膜H+-ATPase的关系

茉莉酸类物质(JAs)作为与昆虫啃噬及损伤相关的植物激素和信号分子在植物防御反应中起重要作用,但是茉莉酸引起的早期防御反应的机理仍不清楚。该研究以拟南芥叶片保卫细胞为材料,结合非损伤微测(NMT)及激光共聚焦技术探讨了茉莉酸诱导的保卫细胞中质膜H+-ATPase与H2O2积累的调控关系。结果表明:茉莉酸甲酯(MeJA)处理导致H+迅速跨膜外排和H2O2积累,H+外排和H2O2积累能够被钒酸钠抑制,而二苯基碘(DPI)处理则对MeJA诱导的H+跨膜外排无显著影响。研究结果证明,在MeJA诱导的早期信号事件中,质膜H+-ATPase的激活先于H2O2的产生。     

H2S作为植物个体间交流的气体信号分子

植物遭受到昆虫取食、创伤及非生物胁迫时,会向环境中释放多种挥发性物质,直接或间接地帮助受胁迫植株抵抗伤害。同时,这些挥发性物质向附近的健康植株传递信息,以应对可能到来的侵害。硫化氢(H2S)作为细胞内气体信号分子提高植物对多种胁迫的抗性已有报道,本论文对H2S是否作为植物个体间传递信息的信号分子进行了研究。结果表明:40%PEG8000处理可以使谷子、白菜、番茄和拟南芥Col-0植株所在环境空气中H2S含量升高;谷子和拟南芥Col-0植株经PEG8000处理后,可以使邻近的非胁迫植株叶片的H2S含量升高和H2S响应基因表达变化,并诱导非胁迫植株气孔关闭;而拟南芥内源H2S产生酶基因LCD和DES1双基因突变体lcd/des1经PEG8000处理,不能引起空气中和邻近植物的H2S含量升高,不能诱导邻近植株气孔关闭。本论文表明,H2S可以作为植物个体间的信息传递分子;即受胁迫植物通过向周围环境中释放H2S,向邻近植株提供胁迫预警信息,可能对种群的生存有重要意义。     

NADPH氧化酶在1-戊烯-3-酮诱导的拟南芥早期信号事件中的作用

1-戊烯-3-酮(1-penten-3-one)作为重要的植物挥发性信号物质可诱导拟南芥防御反应早期信号的产生。但是拟南芥叶肉细胞响应1-戊烯-3-酮早期信号转导途径尚未见到报道。本研究以拟南芥为材料,研究了NADPH氧化酶对1-戊烯-3-酮处理后拟南芥早期信号的作用。实验采用非损伤微测技术结合激光共聚焦技术探究了1-戊烯-3-酮诱导的活性氧(ROS)、跨膜离子流信号与NADPH氧化酶之间的关系,结果表明:1-戊烯-3-酮处理能够诱导拟南芥叶肉细胞H_2O_2含量增加、Ca~(2+)外排和H+内流等早期信号事件,NADPH氧化酶抑制剂二联苯碘(DPI)处理后1-戊烯-3-酮诱导的拟南芥叶肉细胞Ca~(2+)外排减弱,胞内钙库抑制剂钌红处理后1-戊烯-3-酮诱导的拟南芥叶肉细胞H+内流减弱,说明1-戊烯-3-酮通过激活NADPH氧化酶诱导了拟南芥叶肉细胞H_2O_2产生,胞内H_2O_2的积累可能通过激活胞内钙库引起细胞内Ca~(2+)浓度增加,进而引起Ca~(2+)的外排和H+的内流。     

低温胁迫下拟南芥CBF1超表达突变体胞质中Ca^2＋浓度的变化

低温严重影响植物的生长,低温刺激可引起植物细胞中Ca^2＋浓度迅速升高。以拟南芥（Arabidopsis thaliana）CBF1超表达突变体为材料,研究了低温处理时CBF1基因的表达情况及胞质Ca^2＋的浓度变化。结果表明,CBF1本身可受低温诱导。同时将水母发光蛋白基因转入该拟南芥突变体中并检测Ca^2＋的浓度变化,发现低温刺激时突变体细胞质中Ca^2＋的浓度变化幅度明显高于野生型,但液泡的胞质而两侧Ca^2＋的浓度变化相似。用EGTA和LaCl3处理拟南芥后,胞质Ca^2＋的浓度升高被抑制,并且CBF1突变体及对照胞质中的Ca^2＋浓度下降到同一水平。上述结果表明,Ca^2＋参与了CBF1应答低温信号的转导过程,并且CBF1超表达突变体可能是通过提高胞质Ca^2＋浓度来提高植物的抗低温胁迫能力。     

龙柏精油对小菜蛾的生物活性

龙柏精油对小菜蛾Plutella xylostella(L.)的室内生物活性测定结果表明,熏蒸作用是龙柏精油对小菜蛾的主要作用方式,熏蒸实验中当龙柏精油浓度为5.00 mg/L2、.50 mg/L时,处理后48 h小菜蛾2龄幼虫的校正死亡率分别为92.33%、80.29%。龙柏精油对小菜蛾具有较强的非选择性拒食作用和产卵忌避作用,但由于精油的挥发性效果不持久。当龙柏精油浓度为5.00 mg/L和2.50 mg/L时,24 h小菜蛾的产卵忌避率分别为80.45%和77.42%;而48 h则降为72.30%和61.79%。当龙柏精油浓度为5.00,2.50和1.25 mg/L时,24 h的非选择性拒食率分别为86.70,74.36和70.93%,48 h的非选择性拒食率分别降为82.36,71.40和60.40%。龙柏精油对小菜蛾具有一定的触杀活性,当龙柏精油浓度为5.00 mg/L时效果最好,24 h和48 h的校正死亡率分别为60.00%和76.67%。     

一个调控抗菌肽表达的小菜蛾肽聚糖识别蛋白(PxPGRP-SA)

【目的】肽聚糖识别蛋白(peptidoglycan recognition proteins,PGRPs)是昆虫免疫系统中一类重要的模式识别蛋白。本研究旨在阐明经苏云金芽孢杆菌Bacillus thuringiensis侵染后,小菜蛾Plutella xylostella PGRP-SA基因(命名为Px PGRP-SA)在体内的表达模式和对抗菌肽基因的表达调控。【方法】本研究利用实时荧光定量PCR(qRT-PCR)技术分析B.thuringiensis侵染小菜蛾幼虫后Px PGRP-SA的转录模式,通过RNAi技术结合抗血清封闭实验检测Px PGRP-SA对小菜蛾抗菌肽基因的表达调控作用。【结果】qRT-PCR检测表明,小菜蛾4龄幼虫在注射具有活性的B.thuringiensis 6 h后,Px PGRP-SA在脂肪体和血细胞中表达量迅速上升,其中脂肪体中的表达量在注射24 h后达到高峰,而在血细胞中的表达量在18 h后达到高峰。RNAi沉默小菜蛾4龄幼虫Px PGRP-SA的转录后,可显著降低小菜蛾脂肪体中cecropin,moricin-2,lysozyme和defensin 4个抗菌肽基因及Dorsal和Sptzle基因的mRNA转录水平;注射anti-Px PGRP-SA封闭小菜蛾体内Px PGRP-SA的活性后,也可降低小菜蛾脂肪体中4个抗菌肽基因的mRNA转录水平;Px PGRP-SA转录沉默后,同时导致添食B.thuringiensis的小菜蛾幼虫的存活率明显降低。【结论】Px PGRP-SA参与了小菜蛾体内抗菌肽cecropin,moricin-2,lysozyme和defensin基因的表达调控,并在免疫防御B.thuringiensis的侵染过程中起了重要的作用。     

小麦Na^＋／H^＋反转运蛋白基因的克隆和特性

以水稻 (OryzasativaL .)Na /H 反转运蛋白cDNA片段为探针 ,从小麦盐胁迫cDNA文库中筛选和克隆了 2个小麦Na /H 反转运蛋白基因 ,分别命名为TaNHX1和TaNHX2。序列分析表明TaNHX1为 2 0 2 9bp ,包含一个完整的 16 38bp的ORF ,编码 5 4 6个氨基酸 ,其中含有DIFFIYLLPPI跨膜区。TaNHX2为 16 93bp ,包含部分ORF及 80 8bp的 3′_UTR。这 2个基因与已知的水稻、拟南芥 (Arabidopsisthialiana)和滨藜 (Atriplexgmelini)中的同类基因NHX的相似性约为 70 %。RT_PCR分析表明小麦苗经 4 0 0mmol/LNaCl处理 1h后 ,TaNHX1的转录水平有所提高。     

Comparative analysis of quantitative trait loci controlling glucosinolates,myrosinase and insect resistance in Arabidopsis thaliana

Evolutionary interactions among insect herbivores and plant chemical defenses have generated systems where plant compounds have opposing fitness consequences for host plants, depending on attack by various insect herbivores. This interplay complicates understanding of fitness costs and benefits of plant chemical defenses. We are studying the role of the glucosinolate-myrosinase chemical defense system in protecting Arabidopsis thaliana from specialist and generalist insect herbivory. We used two Arabidopsis recombinant inbred populations in which we had previously mapped QTL controlling variation in the glucosinolate-myrosinase system. In this study we mapped QTL controlling resistance to specialist (Plutella xylostella) and generalist (Trichoplusia ni) herbivores. We identified a number of QTL that are specific to one herbivore or the other, as well as a single QTL that controls resistance to both insects. Comparison of QTL for herbivory, glucosinolates, and myrosinase showed that T. ni herbivory is strongly deterred by higher glucosinolate levels, faster breakdown rates, and specific chemical structures. In contrast, P. xylostella herbivory is uncorrelated with variation in the glucosinolate-myrosinase system. This agrees with evolutionary theory stating that specialist insects may overcome host plant chemical defenses, whereas generalists will be sensitive to these same defenses.     

虫害诱导植物防御的分子机理研究进展

从虫害诱导的系统损伤信号、昆虫特异性激发子、间接防御、直接防御和负防御等方面,综述了虫害诱导植物防御的最新研究进展.在植物与昆虫的相互进化过程中,植物利用诱导防御物质对付昆虫的危害,昆虫则利用其特有的激发子降低植物的防御反应.文中比较了间接防御涉及的4种代谢途径,以及诱导挥发物释放的机制;阐明了虫害诱导植物直接防御的概念、防御物质及其作用机理;分析了虫害诱导植物负防御的机制.同时,也强调了虫害诱导林木防御反应的分子机理.     

Grasshopper oral secretions increase salicylic acid and abscisic acid levels in wounded leaves of Arabidopsis thaliana

Recent investigations showed that the model plant Arabidopsis thaliana specifically responds to herbivory-associated molecular patterns by activating a sophisticated signaling network. The lipase activity of insect oral secretions was shown to elevate oxylipin levels when applied to puncture wounds in leaves. The results also demonstrated that the oral secretions of the generalist Schistocerca gregaria contained other, probably non-proteinous, elicitors of plant defense responses which induced mitogen-activated protein kinases, calcium signaling and ethylene levels.¹ This addendum presents data on the levels of additional phytohormones that are elevated after application of S. gregaria oral secretion to wounded leaves. Abscisic acid and salicylic acid levels are significantly elevated after elicitation with S. gregaria oral secretions, adding another layer of complexity to the herbivory-induced response of A. thaliana.Key words: abscisic acid, Arabidopsis, herbivory, salicylic acid, Schistocerca gregaria     

Ca~(2+)和K~+对拟南芥幼苗镉毒害的缓解作用

该文探讨了外源钙(Ca)或钾(K)处理对不同程度的镉(Cd)胁迫(0–80μmol·L–1)下拟南芥(Arabidopsis thaliana)幼苗的生长和生理特性的影响。综合Ca和K对不同浓度Cd胁迫下拟南芥幼苗生长、根长以及生物量的影响情况,表明各浓度Cd胁迫下外源Ca2+的最适缓解浓度均为10 mmol·L–1;而K+的最适缓解浓度在低浓度(20和40μmol·L–1)和高浓度(60和80μmol·L–1)Cd胁迫下分别为10 mmol·L–1和20 mmol·L–1。在低浓度Cd胁迫下,添加适宜浓度的Ca2+或K+后幼苗可溶性蛋白和丙二醛(MDA)含量以及超氧化物歧化酶(SOD)活性相比未添加Ca和K的对照组无显著变化,而过氧化物酶(POD)活性和总酚、类黄酮、花色素苷,酸溶性硫醇化合物、谷胱甘肽(GSH)、植物螯合肽(PCs)的含量均下降;高浓度Cd处理下,添加适宜浓度的Ca2+或K+后幼苗的SOD活性升高,POD活性降低,可溶性蛋白、MDA、总酚、类黄酮、花色素苷、酸溶性硫醇化合物、GSH以及PCs的含量也均低于对照组。在各浓度Cd胁迫下,添加外源Ca或K均使拟南芥幼苗根部细胞DNA损伤减弱,表现为TT嘧啶二聚体的累积量显著减少(P0.05)。以上结果表明,在Cd胁迫(尤其是高浓度Cd胁迫)下,外源Ca或K通过调节酚类、金属螯合物质的代谢水平以及提高拟南芥的抗氧化能力来缓解Cd对拟南芥幼苗的毒害效应,缓解细胞DNA损伤。该研究结果不仅能够为深入探讨Ca和K对缓解重金属毒害的分子机理提供实验依据,而且为Ca和K应用于重金属污染的防治提供参考。     

Multiple calmodulin-like proteins in Arabidopsis are induced by insect-derived (Spodoptera littoralis) oral secretion

In plant cells, diverse environmental changes often induce transient elevation in the intracellular calcium concentrations, which are involved in signaling pathways leading to the respective cellular reactions. Therefore, these calcium elevations need to be deciphered into specific downstream responses. Calmodulin-like-proteins (CMLs) are calcium-sensing proteins present only in higher plants. They are involved in signaling processes induced by both abiotic as well as biotic stress factors. However, the role of CMLs in the interaction of plants with herbivorous insects is almost unknown. Here we show that in Arabidopsis thaliana a number of CMLs genes (CML9, 11,12,16,17 and 23) are upregulated due to treatments with oral secretion of larvae of the herbivorous insect Spodoptera littoralis. We identified that these genes belong to two groups that respond with different kinetics to the treatment with oral secretion. Our data indicate that signaling networks involving multiple CMLs very likely have important functions in plant defense against insect herbivores, in addition to their involvement in many other stress-induced processes in plants.     

A porin-like protein from oral secretions of Spodoptera littoralis larvae induces defense-related early events in plant leaves

Insect herbivory on plants is a complex incident consisting of at least two different aspects, namely mechanical damage and chemical challenge, as feeding insects introduce oral secretions (OS) into the wounded tissue of the attacked plant. Mechanical wounding alone is sufficient to induce a set of defense-related reactions in host plants, but some early events such as membrane potential (Vm) changes and cytosolic Ca²⁺-elevations can be triggered only by herbivores suggesting that OS-derived molecules are involved in those processes. Following an assay-guided purification based on planar lipid bilayer membrane technique in combination with proteomic analysis, a porin-like protein (PLP) of most likely bacterial origin was determined from collected OS of Spodoptera littoralis larvae. PLP exhibited channel-forming activity. Further, early defense-related events in plant–insect interaction were evaluated by using a purified fraction and α-hemolysin (α-HL) as a commercial pore-forming compound. Both up-regulated the calmodulin-like CML42 in Arabidopsis thaliana, which only responds to oral secretion and not to wounding. An elevation of in vivo [Ca²⁺]_cyt was not observed. Because membrane channel formation is a widespread phenomenon in plant–insect interactions, this PLP might represent an example for microbial compounds from the insect gut which are initially involved in plant–insect interactions.     

Novel Genes Affecting the Interaction between the Cabbage Whitefly and Arabidopsis Uncovered by Genome-Wide Association Mapping

Plants have evolved a variety of ways to defend themselves against biotic attackers. This has resulted in the presence of substantial variation in defense mechanisms among plants, even within a species. Genome-wide association (GWA) mapping is a useful tool to study the genetic architecture of traits, but has so far only had limited exploitation in studies of plant defense. Here, we study the genetic architecture of defense against the phloem-feeding insect cabbage whitefly (Aleyrodes proletella) in Arabidopsis thaliana. We determined whitefly performance, i.e. the survival and reproduction of whitefly females, on 360 worldwide selected natural accessions and subsequently performed GWA mapping using 214,051 SNPs. Substantial variation for whitefly adult survival and oviposition rate (number of eggs laid per female per day) was observed between the accessions. We identified 39 candidate SNPs for either whitefly adult survival or oviposition rate, all with relatively small effects, underpinning the complex architecture of defense traits. Among the corresponding candidate genes, i.e. genes in linkage disequilibrium (LD) with candidate SNPs, none have previously been identified as a gene playing a role in the interaction between plants and phloem-feeding insects. Whitefly performance on knock-out mutants of a number of candidate genes was significantly affected, validating the potential of GWA mapping for novel gene discovery in plant-insect interactions. Our results show that GWA analysis is a very useful tool to gain insight into the genetic architecture of plant defense against herbivorous insects, i.e. we identified and validated several genes affecting whitefly performance that have not previously been related to plant defense against herbivorous insects.