Distinction of the C-glycosylflavone isomer pairs orientin/isoorientin and vitexin/isovitexin using HPLC-MS exact mass measurement and in-source CID

HPLC-MS using collision induced dissociation (CID) has been utilised for the identification of the C-glycosylflavone isomer pairs orientin/isoorientin and vitexin/isovitexin. HPLC-CID/MS analyses produced pseudo-MS/MS spectra that allowed the identification of the flavone C-glycosides. The efficient differentiation of isomers was performed by comparing the CID-MS/MS spectra (including exact mass measurements) of particular fragments from the C-glycoside unit. In order to illustrate some possibilities of these MS techniques, they were applied to the comparative analyses of extracts of Passiflora alata, P. edulis, P. incarnata and P. caerulea (Passifloraceae) that are employed as phytomedicines in Brazil and South America.     

A HPTLC densitometric determination of flavonoids from Passiflora alata, P. edulis, P. incarnata and P. caerulea and comparison with HPLC method

A high-performance thin layer chromatographic (HPTLC) method was developed in order to determine quantitatively the flavonoids in leaves of Passiflora alata, P. edulis, P. caerulea and P. incarnata. The content of orientin and isoorientin was determined, and the results were compared with those obtained using a quantitative HPLC-UV method. The latter employed rutin as standard and was developed to analyse flavonoid content from Passiflora leaves for the purpose of ensuring the quality of Passiflora phytomedicines. The results obtained using the two methods indicate that there are qualitative and quantitative differences in the flavonoids of the reference Passiflora species studied. The two methods were also employed to analyse commercial samples to illustrate their application in qualitative ('fingerprint') and quantitative determination, demonstrating their feasibility in the quality control of flavonoids from crude Passiflora drugs and phytomedicines. The HPLC conditions used are also suitable for the quantitative analysis of aqueous extracts (Passiflora infusions).     

低温胁迫下西番莲叶片的生理反应及超微结构变化

以西番莲扦插苗为实验材料,比较预冷处理和常温处理(对照)情况下,西番莲叶片对-6℃低温胁迫的生理反应及叶肉细胞的超微结构变化,以探讨预冷处理对西番莲的抗寒作用及其机理。结果显示:(1)常温处理组在-6℃低温胁迫处理后,西番莲叶片的质膜相对透性、MDA含量随着低温处理时间的延长而逐渐增加,而预冷处理组这两个指标在处理期间都比常温处理组低;(2)常温处理组叶片H2O2含量在48h时达到峰值后出现下降,而预冷处理组的H2O2含量都低于对照,在48h时对照的H2O2含量比预冷锻炼的高1.14倍;(3)常温处理组的脯氨酸含量在24h内增加以后出现下降,而预冷处理组在处理期间逐渐增加且高于对照;(4)常温处理组的POD活性在12h时最高,CAT、SOD活性在24h时最高,以后出现下降。预冷处理组提高了3个酶的活性,其中POD在12h时是对照的2.73倍,CAT、SOD活性在24h时比对照分别提高18.7%和42.7%。(5)超微结构研究显示,预冷处理组在低温胁迫72h时虽出现叶绿体片层肿胀、核膜消失、质膜内陷等症状,但叶绿体伤害症状轻于常温处理。研究表明,低温预冷处理能够提高西番莲的抗寒性。     

本地种西番莲与外引种西番莲的花外蜜腺-蚂蚁-植食昆虫相互作用系统的比较

外引植物如何和当地生物建立相互关系是入侵生物学和进化生物学关注的关键科学问题.本实验以西双版纳当地自然分布的长叶西番莲(Passiflora siamica)和近年从南美新引种的红花两番莲(P.coccinea)为材料,探讨两种西番莲植物-蚂蚁-植食昆虫间相互关系系统对变化响应的差异.结果表明,共有24种蚂蚁取食花外蜜液,利用两种西番莲的蚂蚁数量没有显著差异(t=1.30,P=0.20),但在种类组成上存在显著差异(χ~2=14.76,df=4,P<0.01).植食昆虫多为蜗牛、螽斯、鳞翅目幼虫等广适性昆虫.去除蚂蚁处理均未对两种西番莲植物的平均叶面积损失造成显著影响.该研究表明两种两番莲的花外蜜腺-蚂蚁-广适性昆虫的相互作用系统对变化的响应没有显著差异,而与专食性昆虫相互作用系统对变化的响应的差异则有待进一步研究.     

Expression partitioning between genes duplicated by polyploidy under abiotic stress and during organ development

Allopolyploidy has been a prominent mode of speciation and a recurrent process during plant evolution and has contributed greatly to the large number of duplicated genes in plant genomes [1-4]. Polyploidy often leads to changes in genome organization and gene expression [5-9]. The expression of genes that are duplicated by polyploidy (termed homeologs) can be partitioned between the duplicates so that one copy is expressed and functions only in some organs and the other copy is expressed only in other organs, indicative of subfunctionalization [10]. To determine how homeologous-gene expression patterns change during organ development and in response to abiotic stress conditions, we have examined expression of the alcohol dehydrogenase gene AdhA in allopolyploid cotton (Gossypium hirsutum). Expression ratios of the two homeologs vary considerably during the development of organs from seedlings and fruits. Abiotic stress treatments, including cold, dark, and water submersion, altered homeologous-gene expression. Most notably, only one copy is expressed in hypocotyls during a water-submersion treatment, and only the other copy is expressed during cold stress. These results imply that subfunctionalization of genes duplicated by polyploidy has occurred in response to abiotic stress conditions. Partitioning of duplicate gene expression in response to environmental stress may lead to duplicate gene retention during subsequent evolution.     

Correlation between the induction of a gene for Δ1-pyrroline-5-carboxylate synthetase and the accumulation of proline in Arabidopsis thaliana under osmotic stress

The isolation and characterization is reported of a cDNA for Δ¹-pyrroline-5-carboxylate (P5C) synthetase (cAtP5CS), an enzyme involved in the biosynthesis of proline, from a cDNA library prepared from a dehydrated rosette plant of Arabidopsis thaliana . Southern blot analysis suggested that only one copy of the corresponding gene ( AtP5CS ) is present in A. thaliana . The deduced amino acid sequence of the P5CS protein (AtP5CS) from A. thaliana exhibited 74% homology to that of the P5CS from Vigna aconitifolia . Northern blot analysis revealed that the gene for P5CS was induced by dehydration, high salt and treatment with ABA, while it was not induced by heat or cold treatment. Moreover, the simultaneous accumulation of proline was observed as a result of the former treatments in A. thaliana . A cDNA for P5C reductase (cAtP5CR) was also isolated from A. thaliana and Northern blot analysis was performed. The AtP5CR gene was not induced to a significant extent by dehydration or high-salt stress. These observations suggest that the AtP5CS gene plays a principal role in the biosynthesis of proline in A. thaliana under osmotic stress.     

麻疯树MIPS基因启动子的分离及在烟草原生质体中瞬时表达活性分析

根据麻疯树MIPS基因序列,设计特异性的巢式引物,运用TAIL-PCR法两次步移得到MIPS基因5＇端侧翼序列,序列分析显示含有多个胁迫应答相关元件,如ABRE、HSE等。以该序列为基础,PCR扩增得到5个5＇端不同长度的缺失片段,分别插入pBI221载体置换CaMV35S启动子,构建的表达载体在PEG介导下转入烟草叶片原生质体进行瞬时表达,检测GUS报告基因的活性。经GUS活性荧光定量检测发现,分离到的MIPS基因侧翼序列5＇端不同缺失片段都能启动GUS报告基因表达,启动活性最高的是WQ1区（-565bp）,核心区位于-565～-449bp。在100μmol·L-1ABA诱导下启动活性增强,但不同区段的增长幅度不同。WQ1区增长幅度最大,比未处理时提高41.4%。     

Expression of sucrose: fructan 6-fructosyltransferase (6-SFT) and myo -inositol 1-phosphate synthase (MIPS) genes in barley (Hordeum vulgare) leaves

Fructan is an important class of non-structural carbohydrates present in cool-season grasses. Sucrose: fructan 6-fructosyltransferase (6-SFT, EC 2.4.1.10), one of the enzymes thought to be involved in grass fructan biosynthesis, catalyzes the initiation and extension of 2,6-linked fructans.Myo-inositol is a central component in several metabolic pathways in higher plants.Myo-inositol 1-phosphate synthase (MIPS) (EC 5.5.1.4), the first enzyme in inositolde novo biosynthesis, catalyzes the formation ofmyo-inositol 1-phosphate (MIP) from glucose-6-phosphate. The expression of 6-SFT and MIPS genes is compared in barley (Hordeum vulgare L.) leaves under various conditions. In cool temperature treatments, both 6-SFT and MIPS mRNAs accumulate within two days and then decline after four days. Under warm temperatures and continuous illumination, the amount of 6-SFT and MIPS mRNA gradually accumulated in detached leaves and increased significantly by 8 h. In contrast, we observed no significant changes over time in attached (control) leaves. Treating detached leaves with glucose or sucrose in the dark resulted in accumulations of both 6-SFT and MIPS mRNA. Homologous expression patterns for 6-SFT and MIPS genes suggest that they may be similarly regulated in barley leaves. Although sucrose and glucose may play important roles in the expression of 6-SFT and MIPS genes, regulation likely involves multiple factors.     

温度刺激对斑马鱼仔鱼基因转录表达的影响

许多优良鱼类养殖品种不耐低温或高温的特点给水产养殖业带来诸多限制和困难,这些鱼类在胚胎和仔鱼等早期阶段的抗寒和抗热能力比成体更差,育苗过程中很容易受到温度突然变化的影响。虽然目前利用基因芯片技术已研究了温度刺激对几种鱼类成体组织中基因表达的影响,但温度刺激对仔鱼基因转录表达的影响还未见报道。研究以斑马鱼受精后96h的出膜仔鱼为实验材料,分别在低温(16℃)和高温(34℃)条件下处理12h和24h,用基因芯片技术检测温度刺激对其基因表达的影响。与培养在28℃的对照相比,低温和高温处理后共有3633个基因发生差异表达,其中低温处理后差异表达基因数目多于高温处理,而且低温抑制基因数目多于诱导表达基因的数目。生物信息学分析结果表明,低温诱导基因主要参与RNA加工和核糖体生物发生等生物学过程,高温诱导基因则主要参与应激反应和未折叠蛋白结合。低温抑制基因主要参与蛋白质水解、视觉感知以及铁离子结合等生物学功能,高温抑制基因参与的生物学功能包括DNA复制、神经系统过程和类固醇激素生物合成等。除了已报道的温度刺激响应基因外,研究鉴定出了大量尚未报道与温度刺激相关的基因,如参与RNA加工的rnmtl1a和pus3基因,以及参与转录调控的twistnb和aebp2基因等。研究结果为进一步揭示鱼类冷或热适应的分子机理和培养耐寒或耐热的养殖新品种提供理论基础。