不同基因型高梁的理化特性与抗蚜性的相关性研究

通过对抗蚜的河农16和感蚜品系Tx623B、Tx622B、Tx3197B、千三、晋五及杂交种的物理特性、组织结构、生理生化特性的对比分析,研究了不同基因型高粱理化特性与抗蚜性的相关性。结果表明,高粱抗蚜品系叶片表面较感蚜品系的细胞排列整齐、致密、表皮细胞直径较感蚜品系小、叶片薄、叶片表面光滑、叶片颜色浅。感虫后各品系过氧化物酶（POD）、多酚氧化酶（PPO）活性均有升高,与蚜虫的诱导存在相关性,但不同品系感蚜前后均不存在趋势性变化;苯丙氨酸解氨酶（PAL）酶活性感虫前在抗虫的河农16及杂交种中具有高水平表达,并与其他感蚜品系存在显著差异;蚜虫侵害诱导后PAL酶活性均有上升,但抗蚜品系中表现稳定,酶活性变化幅度与叶片损伤程度存在相关性,PAL酶活性与高粱的抗蚜性存在明显的相关性。感虫前后氨基酸含量及其变化与高粱品系抗蚜性间无相关性;在感蚜虫前,抗蚜品系及其杂交种可溶性糖含量显著高于感蚜品系,接虫后感蚜品系可溶性糖含量升高显著。     

抗感水稻品种受灰飞虱为害后的生理反应差异

灰飞虱Laodelphax striatellus Fallén(SPBH)是我国水稻生产上的一种重要害虫。为探明水稻抗灰飞虱的生理基础,在不同灰飞虱虫口密度(0、5、10、20头/株)及不同为害时间(3 d、6 d)下,检测了抗感水稻品种相关生理指标的变化差异。结果表明,灰飞虱为害后,抗感水稻植株中叶绿素、可溶性糖及可溶性蛋白含量均呈下降趋势,感虫品种中的下降幅度显著大于抗虫品种,且感虫品种的叶绿素、可溶性糖及可溶性蛋白含量在不同虫口密度及不同为害时间下,均存在显著差异。当灰飞虱以20头/株为害6 d后,武育粳3号、Kinmaze、DV85和Mudgo中叶绿素下降幅度分别为46.0%、46.0%、2.3%和2.1%,可溶性糖含量下降幅度分别为55.5%、46.3%、9.2%和11.7%,可溶性蛋白含量下降幅度分别为22.3%、29.5%、8.5%和6.7%。抗感水稻中过氧化物酶活性随虫量增大和为害时间延长而显著升高,过氧化氢酶活性则随虫量增加和为害时间延长而降低,但抗虫植株中保护性酶活性对虫害胁迫的响应明显早于感虫材料。游离脯氨酸和丙二醛含量均随着灰飞虱虫量增大及为害时间延长而上升,其中,游离脯氨酸在抗虫材料中的上升幅度高于感虫品种,丙二醛含量则在感虫品种的上升幅度显著高于抗虫材料。     

褐飞虱刺吸诱导的水稻一些防御性酶活性的变化

褐飞虱刺吸导致稻株体内丙二醛含量迅速上升,表明褐飞虱刺吸引起了水稻植株膜脂的过氧化;抗虫和感虫品种植株体内脂氧合酶(LOX)、脂氢过氧化物裂解酶(HPL)、苯丙氨酸解氨酶(PAL)的活性均显著升高;而过氧化氢酶(CAT)活性在抗虫品种稻株体内明显受抑制,H2O2含量提高,但在感虫品种植株体内CAT的活性略有提高,H2O2含量略有下降.对抗虫品种植株不同器官的测定结果表明,褐飞虱刺吸对PAL和H2O2的影响是系统性的,而对LOX的影响则仅局限于褐飞虱刺吸部位的茎杆中.     

不同色彩珙桐苞片与叶片的生理特性研究

以生长在同一生境下的粉红珙桐和普通珙桐植株为试材,比较两种珙桐苞片/叶片的色素、基础代谢物含量和酶活性,探讨粉红珙桐苞片与叶片的呈色机理。结果显示：粉红珙桐叶片的类黄酮含量是普通珙桐的1.52倍,两种珙桐苞片中的类黄酮含量都较低,且无显著差异（P>0.05）;粉红珙桐苞片和叶片的花色苷含量极显著高于普通珙桐（P<0.01）,分别是普通珙桐的1.68倍和3.67倍;粉红叶片的光合色素略低于绿色叶片,但无显著差异（P>0.05）。粉红珙桐苞片和叶片的可溶性糖、脯氨酸含量显著高于普通珙桐（P<0.05）,可溶性蛋白含量则相反;苞片的可溶性糖含量极显著低于叶片（P<0.01）,而可溶性蛋白和脯氨酸含量更高（P<0.01）。粉红珙桐苞片和叶片的苯丙氨酸解氨酶（PAL）、查尔酮异构酶（CHI）活性极显著高于普通珙桐（P<0.01）,过氧化物酶（POD）和超氧化物歧化酶（SOD）活性无显著差异（P>0.05）;苞片中的酶活性大多都显著高于叶片（P<0.05）,尤其是CHI活性。类黄酮、花色苷含量与可溶性糖、脯氨酸含量、PAL、CHI活性呈显著正相关,而与可溶性蛋白含量显著负相关。研究表明,花色苷是珙桐苞片转粉红的直接因素,而叶片转粉红受类黄酮和花色苷的共同影响,可溶性糖、可溶性蛋白、脯氨酸、PAL、CHI影响花色苷的合成。     

中国4种典型森林中常见乔木叶片的非结构性碳水化合物研究

植物叶片的非结构性碳水化合物(non-structural carbohydrates,NSC)不仅为植物的代谢过程提供重要能量,还能一定程度上反映植物对外界环境的适应策略。以温带针阔混交林(长白山)、温带阔叶林(东灵山)、亚热带常绿阔叶林(神农架)和热带雨林(尖峰岭)4种森林类型的树种为研究对象,利用蒽酮比色法测定了163种常见乔木叶片可溶性糖、淀粉和NSC(可溶性糖+淀粉)含量,探讨了不同森林类型植物叶片NSC的差异及其地带性变化规律。结果显示：（1）从森林类型上看,植物叶片NSC含量从北到南递减,即温带针阔混交林(170.79 mg/g)>温带阔叶林(100.27 mg/g)>亚热带常绿阔叶林(91.24 mg/g)>热带雨林(80.13 mg/g)。（2）从生活型上看,无论是落叶树还是阔叶树,其叶片可溶性糖、淀粉和NSC含量均表现为：温带针阔混交林>温带阔叶林>亚热带常绿阔叶林>热带雨林;北方森林叶片可溶性糖、淀粉和NSC含量均表现为落叶树种>常绿树种,或阔叶树种>针叶树种。（3）森林植物叶片NSC含量、可溶性糖与淀粉含量比值与年均温和年均降水量均呈显著负相关。研究表明,森林植物叶片可溶性糖、淀粉和NSC含量以及可溶性糖与淀粉含量比值均具有明显的从北到南递减的地带性规律;其NSC含量以及可溶性糖与淀粉含量比值与温度和水分均呈显著负相关的变化规律可能是植物对外界环境适应的重要机制之一。该研究结果不仅为阐明中国主要森林树种碳代谢和生长适应对策提供了数据基础,而且为理解区域尺度森林植被对未来气候变化的响应机理提供新的视角。     

不同基因型高粱的理化特性与抗蚜性的相关性研究

通过对抗蚜的河农16和感蚜品系Tx623B、Tx622B、Tx3197B、千三、晋五及杂交种的物理特性、组织结构、生理生化特性的对比分析,研究了不同基因型高粱理化特性与抗蚜性的相关性.结果表明,高粱抗蚜品系叶片表面较感蚜品系的细胞排列整齐、致密、表皮细胞直径较感蚜品系小、叶片薄、叶片表面光滑、叶片颜色浅.感虫后各品系过氧化物酶(POD)、多酚氧化酶(PPO)活性均有升高,与蚜虫的诱导存在相关性,但不同品系感蚜前后均不存在趋势性变化;苯丙氨酸解氨酶(PAL)酶活性感虫前在抗虫的河农16及杂交种中具有高水平表达,并与其他感蚜品系存在显著差异;蚜虫侵害诱导后PAL酶活性均有上升,但抗蚜品系中表现稳定,酶活性变化幅度与叶片损伤程度存在相关性,PAL酶活性与高粱的抗蚜性存在明显的相关性.感虫前后氨基酸含量及其变化与高粱品系抗蚜性间无相关性;在感蚜虫前,抗蚜品系及其杂交种可溶性糖含量显著高于感蚜品系,接虫后感蚜品系可溶性糖含量升高显著.     

水稻挥发性次生物质对褐飞虱寄主定向及生长的影响

从褐飞虱的抗虫与感虫水稻品种植株中提取挥发性次生物质,分析其对褐飞虱的定向选择、生长发育及成虫触角电位反应影响.结果表明,感虫品种TN1挥发性次生物质对褐飞虱生物型Ⅱ若虫的取食及生长发育未表现不良作用,对其定向选择有引诱作用;而抗虫品种IR36的挥发性物质对褐飞虱为负作用,表现为褐飞虱取食添加挥发性物质的人工饲料后,其死亡率均增加,生长发育受阻,且随着浓度的增加,不良影响加大.触角电位试验结果表明褐飞虱的电位反应总的趋势是对相同浓度的TN1挥发性物质的触角电位反应值比IR36大,且触角电位值基本都随着挥发性物质浓度的升高而增大;短翅型成虫电位值强于长翅型成虫,雄性成虫的电位值强于雌性成虫.挥发性物质气质联用检测分析结果发现抗虫与感虫水稻中挥发性次生物质的化学组成及含量相差较大,从抗感两个品种的挥发性物质中共检到44种已知化合物,部分化合物对褐飞虱有引诱作用.     

水稻品种对稻纵卷叶螟抗性的物理及生化机制

稻纵卷叶螟Cnaphalocrocis medinalis连年大发生,为在其治理中培育和推广抗虫品种,本文应用扫描电镜和生化测定研究了5个常用水稻栽培品种扬辐粳8号、扬稻6号、扬粳9538、淮稻9号和宁梗1号叶片中的硅含量、硅颗粒大小、蜡质含量等物理指标和一些生化指标与抗虫性的关系,并比较了稻纵卷叶螟幼虫危害不同水稻品种后其体内生化反应的差异。结果表明抗虫品种宁梗1号、淮稻9号叶片表面的硅含量显著高于感虫品种,硅颗粒大小在品种间无显著差异。宁粳1号叶片蜡质含量显著高于其他品种。由此表明叶片表面硅和蜡质含量与抗性有关。稻纵卷叶螟幼虫取食后,抗虫品种体内的过氧化物酶（POD）、超氧化物岐化酶（SOD）活性显著高于感虫品种,但丙二醛(MDA)含量低于感虫品种。稻纵卷叶螟幼虫取食不同品种后,其体内一些酶的活性明显不同,取食抗虫品种的幼虫体内POD和谷胱甘肽-S-转移酶(GST)活性显著高于取食其他品种的幼虫,SOD活性显著低于取食感虫品种的幼虫, 表明抗虫品种对稻纵卷叶螟幼虫有毒害作用。     

二斑叶螨为害对番茄叶片主要营养物质和防御酶活性的影响

本文研究了二斑叶螨Tetranychus urticae为害对寄主植物番茄营养物质和防御酶活性的影响。结果表明:二斑叶螨为害对番茄植株体内营养物质含量和防御酶活性均有一定影响,且为害密度和为害时间存在交互作用。二斑叶螨为害后番茄叶片可溶性糖含量下降幅度与叶螨为害密度和时间呈正比;可溶性蛋白和游离氨基酸含量在二斑叶螨高密度为害3 d时最低。二斑叶螨为害后番茄叶片防御酶活性普遍增强,过氧化物酶POD活性在5头/叶密度时与为害时间呈正比;苯丙氨酸解氨酶PAL、多酚氧化酶PPO和脂氧合酶LOX活性的变化一致,均在中密度为害时活性最高。以上结果说明番茄叶片通过调节其体内营养物质含量和各种防御酶活性的变化,对二斑叶螨的胁迫产生了应激反应。     

盐胁迫对黄花蒿生长及其挥发性成分的影响

对黄花蒿植株进行Na Cl盐胁迫(2~8 g/L)处理一个月,分析植株生长、光合作用和抗氧化生理指标,考察盐胁迫对青蒿素合成及挥发性成分累积的影响。Na Cl盐胁迫可抑制黄花蒿植株的生长,引起叶片氧化损伤,同时降低叶片净光合速率和蒸腾速率。但盐胁迫诱导青蒿素含量提高44.3%,且主要挥发性代谢物成分如邻苯二甲酸二异丁酯、白菖油萜、脱氧青蒿素、α-萜品醇的相对含量增加。盐胁迫是提高黄花蒿植株药用价值的栽培调节方法。     

Trapping and identification of nitrogen oxides from soybean leaves

Volatile compounds were isolated from insect-resistant and insect-susceptible soybean leaves and from snap-bean leaves by dry vacuum distillation. Nitrogen oxides, methanol, acetaldehyde, and ethanol were identified. These volatiles were found in all three plants tested and exposure to these compounds was toxic to the Mexican bean beetle.     

芒草中总黄酮的提取工艺研究及其挥发油成分的鉴定

以黄酮提取率为指标,采用超声辅助法研究了芒草中黄酮类化合物的提取工艺。最佳提取条件为:乙醇浓度70%、料液比1∶30、提取温度70℃、提取时间40 min、提取级数3次,在此条件下测得南荻中总黄酮含量为7.24 mg/g,并在此条件下测定了芒草10个品系中总黄酮含量为4.16~7.84 mg/g,且在不同品系间的差异均达到极显著水平。采用气质联用技术鉴定奇岗六倍体、‘GMG121’、芒杂中的挥发油成分,从中共鉴定出28种成分。本研究对芒属植物的遗传育种以及开发和综合利用具有重要意义。     

武夷岩茶炭焙工艺对肉桂乌龙茶挥发性组分的影响

以武夷岩茶当家茶树品种肉桂(Camellia sinensis ‘Rougui’)鲜叶制成的乌龙茶为试材,基于顶空固相微萃取法(HS-SPME)结合气相色谱-质谱联用技术(GC-MS),探讨武夷岩茶炭焙工艺对肉桂乌龙茶挥发性组分的影响。实验中共检测到样本挥发性成分443个,其中包括96个杂环化合物、81个酯类化合物、31个萜类化合物、42个芳香烃类化合物、55个酮类化合物、24个其他烃类化合物、35个醇类化合物、24个醛类化合物、15个酚类化合物、14个胺类化合物、10个酸类化合物、5个含氮化合物、3个含硫化合物等。经主成分分析及聚类分析显示,焙火工艺是影响乌龙茶挥发性成分含量的重要影响因子。随炭焙程度增加,不同类别物质中的多数挥发性成分含量随之显著升高,且以美拉德反应产物等具有茶叶烘炒香的吡嗪类、糠醛类衍生物、吡咯类等化合物最具代表性;同时,部分含量丰富且具有乌龙茶特殊花果香气的醇类、萜烯类物质如香叶醇、反式-橙花叔醇、植物醇、α-法尼烯等,及具清新花香的吲哚含量显著降低。然而,大多数挥发性差异代谢物随炭焙程度增加相对含量显著升高,并不代表茶叶中芳香物质总量增加。研究表明,乌龙茶精制烘焙过程中,香气物质的积累主要来自热作用下的美拉德反应及非酶促的降解和氧化,如黄酮苷类物质水解。     

Spread of introgressed insect-resistance genes in wild populations of Brassica juncea: a simulated in-vivo approach

Introgression between transgenic, insect-resistant crops and their wild relatives could lead to a progressive increase of the frequency of resistant plants in wild populations. However, few studies help predict the impact on the population dynamics. To simulate the performance of introgressed insect-resistant plants of wild Brassica juncea, independently from the interspecific hybridization cost, healthy plants were cultivated in pure and mixed stands with damaged plants through cutting leaves in field experiments over two field seasons. As expected, resistant (healthy) plants held a competitive advantage when in competition with susceptible (damaged) plants. Individual biomass and seed production of both types of plants decreased as the percentage of resistant plants increased, so that the relative advantage of resistant plants increased. The combined effects of defoliation and competition on the individual performance of B. juncea were additive. Replacement series experiments confirmed this trend but did not show different seed output in pure stand of susceptible versus resistant plots. The total vegetative and reproductive production of mixed populations was not significantly different of that of pure populations. These results suggest that if a transgene for insect-resistance were to colonize wild populations, high herbivory of susceptible plant and low resource availability would facilitate the spread of resistant individuals. However, at the population level, the shift from an insect-susceptible to a predominantly resistant population would not result in exacerbated habitat colonization.     

Consequences of combined herbivore feeding and pathogen infection for fitness of Barbarea vulgaris plants

Plants are often attacked by pathogens and insects. Their combined impact on plant performance and fitness depends on complicated three-way interactions and the plant’s ability to compensate for resource losses. Here, we evaluate the response of Barbarea vulgaris, a wild crucifer, to combined attack by an oomycete Albugo sp., a plant pathogen causing white rust, and a flea beetle, Phyllotreta nemorum. Plants from two B. vulgaris types that differ in resistance to P. nemorum were exposed to Albugo and P. nemorum alone and in combination and then monitored for pathogen infection, herbivore damage, defence compounds, nutritional quality, biomass and seed production. Albugo developed infections in the insect-resistant plants, whereas insect-susceptible plants were scarcely infected. Concentrations of Albugo DNA were higher in plants also exposed to herbivory; similarly, flea beetle larvae caused more damage on Albugo-infected plants. Concentrations of saponins and glucosinolates strongly increased when the plants were exposed to P. nemorum and when the insect-susceptible plants were exposed to Albugo, and some of these compounds increased even more in the combined treatment. The biomass of young insect-susceptible plants was lower following exposure to flea beetles, and the number of leaves of both plant types was negatively affected by combined exposure. After flowering, however, adult plants produced similar numbers of viable seeds, irrespective of treatment. Our findings support the concept that pathogens and herbivores can affect each other’s performance on a host plant and that the plant reacts by inducing specific and general defences. However, plants may be able to compensate for biomass loss from single and combined attacks over time.     

亲和色谱和反相高效液相色谱测定菠菜和拟南芥中四氢叶酸代谢物及叶酸的含量(英文)

植物中来源于甘氨酸和丝氨酸的一碳单位转移给四氢叶酸用于四氢叶酸代谢物的生物合成.由于含量低、成份复杂以及稳定性差,植物组织中四氢叶酸代谢物和叶酸的定量分析一度是一个挑战性很强的课题.本研究旨在建立一种可靠方法测定对甲基基团要求不同的植物(例如累积甘氨酸甜菜碱的菠菜与不累积甘氨酸甜菜碱的拟南芥)中四氢叶酸代谢物和叶酸的含量,用于研究这些植物中通过叶酸途径的一碳单位通量.菠菜和拟南芥叶片在金色荧光灯下加液氮研磨,加入大鼠血浆轭合酶粗提物处理,提取物经叶酸结合蛋白琼脂糖亲和色谱柱纯化,用附有荧光和紫外检测器的高效液相色谱仪分离并测定四氢叶酸代谢物和叶酸的含量.菠菜和拟南芥叶片中单谷氨酸型N5-甲基四氢叶酸含量分别是252ng/g和64ng/g,而总N5-甲基四氢叶酸的含量分别是370ng/g和199ng/g.两种植物均检测到少量的四氢叶酸和N5-醛基四氢叶酸,但只在拟南芥叶片而非菠菜叶片中检测到叶酸.实验结果显示,菠菜中单谷氨酸型和多谷氨酸型N5-甲基四氢叶酸的含量均比拟南芥显著增多.这种样品制备和高效液相色谱方法适于测定植物中四氢叶酸代谢物和叶酸的含量.     

Overexpression of the apple alcohol acyltransferase gene alters the profile of volatile blends in transgenic tobacco leaves

Alcohol acyltransferases (AATs) are key enzymes in ester biosynthesis. Previous studies have found that AAT may be a stress-related gene. To investigate further the function of the apple alcohol acyltransferase gene (MdAAT2), transgenic tobacco plants overexpressing MdAAT2 were generated. Gas chromatography-mass spectroscopy analysis showed that the volatile blends were altered in these transgenic tobacco leaves. Although no apple-fruity volatile esters were detected in transgenic tobacco leaves, methyl caprylate, methyl caprate, and methyl dodecanoate were newly generated, and the concentrations of methyl benzoate and methyl tetradecanoate were significantly increased, suggesting that MdAAT2 may use medium-chain fatty acyl CoA and benzoyl-CoA as acyl donors together with methanol acceptors as substrates. Surprisingly, the concentrations of linalool were significantly increased in transgenic tobacco leaves, which may mediate the repellent effect on Myzus persicae (Sulzer) aphids. Using methyl jasmonate (MeJA) and wounding treatments, we found that MdAAT2 may substitute for the partial ability of MeJA to induce the production of linalool in transgenic plants. These data suggest that MdAAT2 may be involved in the response to the MeJA signal and may play a role in the response to biotic and abiotic stress.     

Secondary metabolites from nonhost plants affect the motility and viability of phytopathogenic Aphanomyces cochlioides zoospores

The motile zoospores of the damping-off pathogen Aphanomyces cochlioides aggregate on host plants (e.g., sugar beet, spinach) guided by the host-specific plant signal cochliophilin A before infection. To assess the potential role of secondary metabolites in nonhost resistance, acetone extracts of 200 nonhost traditional medicinal plants from Chinese and Bangladeshi origins were tested for the motility behaviour of A. cochlioides zoospores using a particle bioassay method. Nearly one third of the tested plant extracts exhibited diverse deleterious activities such as repellent, stimulant, motility halting and lysis against A. cochlioides zoospores. Among these active plants, an extract of the Chinese medicinal plant Dalbergia odorifera displayed potent repellent activity toward zoospores. Chromatographic separation of D. odorifera constituents revealed that the repellent activity was regulated by the cumulative effect of three motility-affecting isoflavonoids, viz. (+/-)-medicarpin (repellent at 150 microg/ml), (-)-claussequinone (stimulant at 100 microg/ml) and formononetin (stimulant and attractant at 50 microg/ml). A mixture (1:1:1, w/w/w) of these three compounds exhibited only repellent activity toward zoospores at a concentration lower than 50 microg/ml. These results suggest that nonhost plants might possess potential bioactive secondary metabolites to ward off zoosporic phytopathogens.     

Signalling mechanisms involved in the response of two varieties of Humulus lupulus L. to soil drying: II. changes in the concentration of abscisic acid catabolites and stress-induced phytohormones

Abscisic acid (ABA) is one of the most common stress signals that appear in plant organs in response to soil drying. Equilibrium between ABA biosynthesis and catabolism regulates ABA accumulation in plants under water stress. The aim of our work was to explore the dynamics of changes in ABA metabolites as well as other stress-induced phytohormones such as jasmonic acid, indole-3-acetic acid, and their respective metabolites in hop [Humulus lupulus (L.)] plants during drying and to identify among them potential signals involved in drought signalling. We showed that the concentrations of all ABA metabolites (except the concentration of ABA glucosyl ester in leaves) increased in the same manner in leaves and xylem sap approximately at the same level of soil water content when the relative water content of leaves decreased. The predominant metabolites in leaves and xylem sap were phaseic acid and dihydroxyphaseic acid. ABA glucosyl ester was not a source of the increased concentration of ABA in leaves and xylem sap because of its considerably lower concentration compared to ABA. The concentration of jasmonates decreased in leaves of hop plants. Changes in auxin concentration suggest that this hormone is involved in the response of hop plants to soil drying.