寡聚半乳糖醛酸对2,4-D引起的黄瓜下胚轴伸长的抑制(简报)

10多年来的研究认为寡聚糖作为信号分子激发了植物的抗病基因的表达,如能调节生产植物蛋白酶抑制物和植保素,触发过敏反应。近期研究还发现寡聚糖具有调节植物生长、发育的功能,这些具有调节功能的寡     

壳寡糖诱导小麦种胚细胞抗脱氧雪腐镰刀菌烯醇抑制的效应

用壳寡糖和脱氧雪腐镰刀菌烯醇（DON）以不同方式处理小麦（Triticum aesivum L.）种子,测定从G1期启动进入S期和G2－M遥胚细胞百分率和小麦黄化苗的生长。结果表明：壳寡糖可促进小麦肿胚细胞周期启动并促进小麦根数目增加,说明壳寡糖对小麦种子的胚细胞分裂有促进作用;壳寡糖预处理小麦种子可解除DON对小麦黄化苗生长及胚细胞启动的抑制作用,表明寡聚糖可提高植物对病原基本菌毒素的抗耐性,这可能是寡聚糖诱导植物提高抗病性的重要机制之一。     

寡聚糖素诱导植物抗病性反应研究进展

阐述了寡聚糖素作为诱导植物抗病性反应的重要信息分子,它们的来源、活体生成机制及可能的信息传递机理。评述了结构与诱导活性的相关性以及将寡聚糖素推广应用于植物病害防治的可能性。提出了进一步研究所存在的问题及可能解决的途径。     

寡聚糖素诱导植物抗病性反应研究进展

阐述了寡聚糖素作为诱导植物抗病性反应的重要信息分子,它们的来源、活体生成机制及可能的信息传递机理。评述了结构与诱导活性的相关性以及将寡聚糖素推广应用于植物病害防治的可能性。提出了进一步研究所存在的问题及可能解决的途径。     

真菌寡糖诱导植物抗性活性成分的分离纯化

寡聚糖作为一种信号分子 ,在调节植物的生长、发育以及植物在不同环境中生存能力等方面起着非常重要的作用[1] .许多特定结构的寡糖被证明具有诱导植物抗性的作用 .对具有诱导抗性作用的葡聚寡糖结构分析表明 ,其最小活性寡糖单位是由 7个葡葡糖残基组成的 β 葡聚糖苷 ,在一个     

昆虫对植物蛋白酶抑制素的诱导及适应机制

植物蛋白酶抑制素是植物重要的防御物质之一,一般是分子量较小的多肽或蛋白质,能够与昆虫消化道内的蛋白酶形成复合物,阻断或削弱蛋白酶对食物中蛋白的水解,使昆虫厌食或消化不良而致死。植物蛋白酶抑制素在植物体内一般是诱导表达的,昆虫取食危害后,导致某些植物在伤口产生一种寡聚糖信息素-蛋白酶抑制素诱导因子,蛋白酶抑制素诱导因子诱导叶片局部产生植物蛋白酶抑制素,并刺激产生信号物质系统肽,通过十八烷酸途径在一系列酶的作用下产生茉莉酸,茉莉酸与受体结合,活化植物蛋白酶抑制素基因。昆虫在长期取食植物蛋白酶抑制素后会在生理及行为上产生适应性而导致不敏感,适应方式主要包括：(1)改变肠道蛋白酶对蛋白酶抑制素的敏感性;(2) 水解蛋白酶抑制素;(3)过量取食及干扰产生蛋白酶抑制素的信号通道。由于昆虫能够对植物蛋白酶抑制素产生适应,因此合理利用植物蛋白酶抑制素的抗虫作用显得十分重要。     

寡聚糖诱导悬浮培养南方红豆衫细胞的凋亡

在真菌（Fusarium oxysporum f.vasinfectum(Atkinson)Snyder et Hansen）寡聚糖诱导悬浮培养南方红豆衫（Taxus chinensis(Pilger)Rehd.var.mairei(Lemee et Levl.）Cheng et L.K.Fu）细胞生产紫杉醇的体系中发现细胞出现凋亡，次生代谢增强，电镜观察到细胞核质和原生质出现凝集现象，液泡内出现大量的高电子致密林。核DNA器发达，但紫杉醇合成速率很低，加入寡聚糖后，细胞防御系统开启，细胞生长停止，次生代谢物酚类物质大量积累且次生壁加厚，多酚氧化酶活性迅速提高，苯丙烷类代谢途径的关键酶苯丙氨酸解氨酶的活性在1h后急速提高，目的产物紫杉醇在诱导后72h达到峰值，比对照组提高了6倍，且细胞凋亡的出现与紫杉醇合成的峰值具有时间上的一致性。     

寡聚糖诱导悬浮培养南方红豆杉细胞的凋亡(英)

在真菌 (Fusariumoxysporumf.vasinfectum (Atkinson)SnyderetHansen)寡聚糖诱导悬浮培养南方红豆杉(Taxuschinensis (Pilger)Rehd .var.mairei (LemeeetL啨ｖｌ.)ChengetL .K .Fu)细胞生产紫杉醇的体系中发现细胞出现凋亡 ,次生代谢增强。电镜观察到细胞核质和原生质出现凝集现象 ,液泡内出现大量的高电子致密体。核DNA经琼脂糖凝胶电泳 ,呈 2 0 0bp的整数倍的梯状条带 (ladders) ;而对照组细胞核DNA完整 ,呈大片段 ,细胞完整 ,细胞器发达 ,但紫杉醇合成速率很低。加入寡聚糖后 ,细胞防御系统开启 ,细胞生长停止 ,次生代谢物酚类物质大量积累且次生壁加厚 ,多酚氧化酶活性迅速提高 ,苯丙烷类代谢途径的关键酶苯丙氨酸解氨酶的活性在 1h后急速提高 ,目的产物紫杉醇在诱导后 72h达到峰值 ,比对照组提高了 6倍 ,且细胞凋亡的出现与紫杉醇合成的峰值具有时间上的一致性。     

寡聚糖诱导悬浮培养南方红豆杉细胞的凋亡

在真菌(Fusarium oxysporum f.vasinfectum (Atkinson) Snyder et Hansen)寡聚糖诱导悬浮培养南方红豆杉(Taxus chinensis (Pilger) Rehd.var.mairei (Lemee et Lévl.) Cheng et L.K.Fu)细胞生产紫杉醇的体系中发现细胞出现凋亡,次生代谢增强.电镜观察到细胞核质和原生质出现凝集现象,液泡内出现大量的高电子致密体.核DNA经琼脂糖凝胶电泳,呈200 bp的整数倍的梯状条带(ladders);而对照组细胞核DNA完整,呈大片段,细胞完整,细胞器发达,但紫杉醇合成速率很低.加入寡聚糖后,细胞防御系统开启,细胞生长停止,次生代谢物酚类物质大量积累且次生壁加厚,多酚氧化酶活性迅速提高,苯丙烷类代谢途径的关键酶苯丙氨酸解氨酶的活性在1 h后急速提高,目的产物紫杉醇在诱导后72 h达到峰值,比对照组提高了6倍,且细胞凋亡的出现与紫杉醇合成的峰值具有时间上的一致性.     

壳寡聚糖对变形链球菌乳酸脱氢酶及γ谷丙转氨酶的影响

目的 研究壳寡聚糖对变形链球菌乳酸脱氢酶（LDH）及γ谷丙转氨酶（γ-GT）的影响。方法 将变形链球菌接种在含壳寡聚糖的培养基中,测定培养上清液中乳酸脱氢酶及γ谷丙转氨酶等细胞内酶的含量。结果 菌液上清中的LDH和γ-GT2种细胞内酶含量显著高于空白对照组。表明接种在含壳寡聚糖培养基中的细菌出现了明显的细胞内酶溢出,并与浓度相关。结论 壳寡聚糖对细菌的细胞壁有破坏作用,可能是壳寡聚糖具有防龋功能的原因。     

Short- and long-distance signaling in plant defense

When encountering microbial pathogens, plant cells can recognize danger signals derived from pathogens, activate plant immune responses and generate cell-autonomous as well as non-cell-autonomous defense signaling molecules, which promotes defense responses at the infection site and in the neighboring cells. Meanwhile, local damages can result in the release of immunogenic signals including damage-associated molecule patterns and phytocytokines, which also serve as danger signals to potentiate immune responses in cells surrounding the infection site. Activation of local defense responses further induces the production of long-distance defense signals, which can move to distal tissue to activate systemic acquired resistance. In this review, we summarize current knowledge on various signaling molecules involved in short- and long-distance defense signaling, and emphasize the roles of regulatory proteins involved in the processes.     

Triterpene-based plant defenses

Pentacyclic triterpenes are abundant in the plant kingdom and have a wide array of pharmacological activities. They also have insect antifeedant effects and therefore apparently play a role in plant defense. In this paper, we describe the insecticidal activity of pentacyclic triterpenes of plant origin from different chemical classes on several insect pests (Spodoptera littoralis, Leptinotarsa decemlineata and Myzus persicae), their phytotoxic properties and their selective cytotoxic effects on insect-derived Sf9 and mammalian CHO cells. We also discuss the role they play in plant defense based on these activities.     

Voltage-dependent anion channels: their roles in plant defense and cell death

The voltage-dependent anion channels (VDACs), mitochondrial outer membrane components, are present in organisms from fungi to animals and plants. They are thought to function in the regulation of metabolite transport between mitochondria and the cytoplasm. Sufficient knowledge on plant VDACs has been accumulated, so that we can here summarize the current information. Then, the involvement of mitochondria in plant defense and cell death is overviewed. While, in mammals, it is suggested that VDAC, also known as a component of the permeability transition pore (PTP) complex formed in the junction site of mitochondrial outer and inner membrane, is a key player in mitochondria-mediated cell death, little is known about the role of plant VDACs in this process. We have shown that plant VDACs are involved in mitochondria-mediated cell death and in defense against a non-host pathogen. In light of the current findings, we discuss the role of the PTP complex and VDAC as its component in plant pathogen defense and cell death.     

Auxins in defense strategies

Plant hormones operate in a very complex network where they regulate and control different vital mechanisms. They coordinate growth, development and defense via signaling involving different interactions of molecules. Activation of molecules responsible for regulation of plant immunity is mainly provided by salicylic and jasmonic acid signaling pathways. Similar to the signaling of these defense-associated plant hormones, auxin can also affect resistance to different pathogen groups and disease is manifested indirectly through the effects on growth. The various ways in which auxin regulate growth and plant development and might be closely connected to plant defense, are discussed in this review.     

植食性昆虫唾液效应子和激发子的研究进展

植食性昆虫与寄主植物通过协同进化形成了复杂的防御和反防御机制。本文系统综述了昆虫唾液效应子和激发子在植物与昆虫互作中的作用及机理。昆虫取食中释放的唾液激发子被植物识别而激活植物早期免疫反应,昆虫也能从口腔分泌效应子到植物体内抑制免疫;抗性植物则利用抗性(R)蛋白识别昆虫无毒效应子,启动效应子诱导的免疫反应,而昆虫又进化出多种方式来躲避植物R蛋白的识别。总之,在这场军备竞赛中,昆虫的唾液成分决定着昆虫能否取食成功。取食过程中,咀嚼式口器害虫分泌大量酶类到植物体内,而刺吸式害虫则分泌胶状和水样唾液到植物中,它们都利用激发子和效应子去调控植物的免疫防御反应。分析现已报道的昆虫效应子发现其作用机制各有不同,具体表现为影响植物早期防御信号,调控植物激素通路及其他通路,或靶向小分子RNA通路。本文还综述了昆虫激发子的最新进展,揭示激发子可以通过诱导释放植物次生代谢物以及调控激素水平、Ca²⁺内流和活性氧爆发增强植物抗性。最后对昆虫效应子的分泌特性、寄主特异性和多功能性作了分析,并对无毒效应子及其对应的植物R基因,以及激发子的模式识别受体的研究进行了展望。     

PSKR1 and PSY1R-mediated regulation of plant defense responses

Plant peptide signaling is an upcoming topic in many areas of plant research. Our recent findings show that the tyrosine sulfated peptide receptors PSKR1 and PSY1R are not only involved in growth and development but also in plant defense. They modulate salicylate- and jasmonate-dependent defense pathways in an antagonistic manner and this phenomenon might be dependent on the age and developmental stage of the plant. Here we discuss how the endogenous peptides might integrate growth, wounding, senescence and the opposing defense pathways against biotrophic and necrotrophic pathogens for increased fitness of the plant.     

Plant cell walls: Protecting the barrier from degradation by microbial enzymes

Plant cell walls are predominantly composed of polysaccharides, which are connected in a strong, yet resilient network. They determine the size and shape of plant cells and form the interface between the cell and its often hostile environment. To penetrate the cell wall and thus infect plants, most phytopathogens secrete numerous cell wall degrading enzymes. Conversely, as a first line of defense, plant cell walls contain an array of inhibitors of these enzymes. Scientific knowledge on these inhibitors significantly progressed in the past years and this review is meant to give a comprehensive overview of plant inhibitors against microbial cell wall degrading enzymes and their role in plant protection.     

植物中逆境反应相关的WRKY转录因子研究进展

WRKY转录因子是植物体内一类比较大的转录因子家族,它在植物的生长发育以及抗逆境反应中起着非常重要的作用。本文综述了WRKY转录因子在植物应对冻害、干旱、盐害等非生物胁迫与病原菌、虫害等生物胁迫反应中的重要调控功能,并概括了WRKY转录因子在调控这些逆境反应中的机制。     

Elicitor-like effects of low-energy ultrasound on plant (Panax ginseng) cells: induction of plant defense responses and secondary metabolite production

In this work we examined the elicitor-like effects of low-energy ultrasound (US) on plant cells with respect to the induction of plant defense responses and secondary metabolite production. Panax ginseng cells in suspension culture were exposed to US (power 相似文献   

Elicitors: Their Significance and Primary Modes of Action in the Induction of Plant Defense Reactions

Substances of pathogen origin that induce plant defense reactions,as exemplified by the production of antimicrobial phytoalexins,are known collectively as elicitors. Elicitors appear to berecognized by plant cells via interactions with specific receptorson plant plasma membranes. The elicitor-receptor interactionsare presumed to generate signals that then activate nucleargenes involved in plant defense reactions, such as the biosynthesisof phytoalexins. The details of this sequence of molecular events,which lead to plant defense reactions, as well as the rolesof elicitors in invoking the general resistance of plants topathogens and in determining disease specificity, are the focusof this review. (Received August 11, 1993; )