Circadian rhythmicity in emission of volatile compounds by flowers of Rosa hybrida L. cv. Honesty

Quantitative headspace analyses of rose flowers showed no significant differences in composition of emitted volatile compounds between flowers on the intact plant and cut flowers placed in vase water containing sucrose at 0, 15 or 30 g · l⁻¹. Volatile components emitted were geraniol, nerol, citronellol, E-citral, Z-citral, methylgeranylate, trans-caryophyllene, β-cubebene, dihydro-β-ionone, 2-phenylethanol, 2-phenylethylacetate, 3,5-dimethoxytoluene and hexylacetate. When exposed to a 12-h photoperiod these components showed maximum emission during the light period and a rhythmicity which differed for the individual compounds. The circadian nature of the rhythmicity was confirmed by the continuation of rhythmicity during continued darkness or light, and was characterized by `transient' and `free running' periods of 27 and 24 h, respectively, and a phase shift of 12 h in rhythmicity when a 24-h period of continuous darkness was followed by re-exposure to a 12-h photoperiod. Rhythmicity in emission was not observed when flowers were kept in darkness before flower bud opening, but started immediately upon exposure to a 12-h photoperiod. Received: 14 April 1998 / Accepted: 28 May 1998     

Localization of methyl benzoate synthesis and emission in Stephanotis floribunda and Nicotiana suaveolens flowers

The emission of fragrances can qualitatively and quantitatively differ in different parts of flowers. A detailed analysis was initiated to localize the floral tissues and cells which contribute to scent synthesis in STEPHANOTIS FLORIBUNDA (Asclepiadaceae) and NICOTIANA SUAVEOLENS (Solanaceae). The emission of scent compounds in these species is primarily found in the lobes of the corollas and little/no emission can be attributed to other floral organs or tissues. The rim and centre of the petal lobes of S. FLORIBUNDA contribute equally to scent production since the amount of SAMT (salicylic acid carboxyl methyltransferase) and specific SAMT activity compensate each other in the rim region and centre region. IN SITU immunolocalizations with antibodies against the methyl benzoate and methyl salicylate-synthesizing enzyme indicate that the adaxial epidermis with few subepidermal cell layers of S. FLORIBUNDA is the site of SAMT accumulation. In N. SUAVEOLENS flowers, the petal rim emits twice as much methyl benzoate due to higher total protein concentrations in the rim versus the petal centre; and, both the adaxial and abaxial epidermis house the BSMT (salicylic acid/benzoic acid carboxyl methyltransferase).     

Further observations on rhythmic emission of fragrance in flowers

Observations regarding floral fragrance and the rhythmicity of its emission in four plant species are reported. In the case of flowers of Hoya carnosa R. Br. which are characterized by circadian rhythmicity of scentedness (R. Altenburger and P. Matile, 1988, Planta 174, 248–252), temperature compensation of the free-running period as well as persistence of oscillations in permanent darkness have been demonstrated. A hitherto unidentified component of fragrance turned out to be identical to an unusual sesquiterpene recently discovered in cardamom oil (B. Maurer et al., 1986, Tetrahedron Lett. 27, 2111–2112). In Stephanotis floribunda Brongs. the rhythmic emission of fragrance is circadian in nature, but in a constant environment the oscillations of individual components are increasingly asynchronous. In excised flowers of Odontoglossum constrictum Lindl. the diurnal oscillations observed in a natural photoperiod are abolished under constant environmental conditions. They are resumed upon the return to a 1212-h photoperiod. The absence of circadian control could also be demonstrated in excised flowers of Citrus medica L. In this species, too, the daily maxima of scent emission reappear upon the transfer of flowers to a 1212-h light/ dark cycle. Results obtained upon the comparative analysis of volatiles in the headspace above the flowers and in petal extract indicate that the relative abundance of an individual compound in the floral fragrance is not a function of differential volatility.Abbreviations DL 1212 h photoperiod - DD continuous darkness - GLC gas-liquid chromatography - LL continuous illumination The authors are indebted to R. Kaiser, Givaudon Corp.for kindly carrying out the identifikation of volatiles by gas-liquid chromalography/mass spectrometry.     

Circadian rhythmicity of fragrance emission in flowers of Hoya carnosa R. Br.

In flowers of Hoya carnosa R. Br. the nocturnal emission of fragrance occurs according to an endogenous circadian rhythmicity. This was demonstrated by the continuation of rhythmical emission for two to three cycles under conditions of permanent illumination. The free-running period was approx. 29 h under these conditions. The inversion of light/dark cycles caused the entrainment of the next peak of emission by approx. 12 h whether the inversion was started with a light period or a with dark period prolonged for 12 h. When only the flower used for fragrance analysis was subjected to an inverted photoperiod, the rest of the plant remaining under the original light/dark cycle, the synchronization of fragrance emission occurred according to the Zeitgeber perceived by the individual flower.     

林烟草蛋白激酶NsylCIPK3基因的克隆与功能分析

CIPK蛋白激酶家族(CBL-interacting protein kinase)是一类丝氨酸/苏氨酸蛋白激酶家族,与类钙调磷酸酶B亚基CBL(calcineurin B-like protein)蛋白共同形成CBL-CIPK网络,在植物的生长发育和逆境胁迫响应过程中发挥重要作用。烟草中该家族的研究还比较少,本研究从林烟草(Nicotiana sylvestris)中获得一个CIPK家族基因,该基因与拟南芥和杨树中的CIPK3同源性分别为68.4%和87.5%,将其命名为Nsyl CIPK3。氨基酸序列分析表明,Nsyl CIPK3具有CIPK蛋白家族的典型结构特征,在N端和C端分别具有典型的激活环结构域和NAF结构域。进化树分析显示,Nsyl CIPK3属于CIPK蛋白亚家族Ⅱ。表达模式研究表明,该基因在林烟草的叶和腋芽中的表达量相对较高,在主根中的表达量次之,在侧根、茎、花瓣和萼片中的表达量相对较低,并且在烟草成熟期的叶中表达量明显升高。在高盐、紫外光和低钾胁迫下该基因的表达发生不同程度的上调。酵母双杂交结果显示,Nsyl CIPK3可与Nsyl CBL9互作。推测Nsyl CIPK3可能通过与Nsyl CBL9互作形成信号通路,激活下游靶蛋白,参与烟草响应非生物逆境胁迫的信号转导过程。     

大气二氧化碳浓度增加对木本植物BVOCs释放的影响

植物挥发性有机化合物(biogenic volatile organic compounds,BVOCs)在近地表臭氧和二次有机气溶胶生成中有重要作用,而大气CO2浓度上升对植物BVOCs释放有显著影响。利用Meta-analysis方法对已发表的数据进行整合分析发现:(1)总体而言,大气CO2浓度增加会导致不同木本植物(常绿与落叶) BVOCs释放降低;(2)就不同木本植物BVOCs释放而言,大气CO2浓度增加主要导致落叶植物BVOCs释放速率降低,而常绿植物则以增加为主;(3)就植物释放BVOCs种类而言,大气CO2浓度增加显著降低异戊二烯的释放速率,对单萜烯释放速率则无显著影响。结果可为阐明陆地生态系统BVOCs释放对全球CO2浓度增加的响应提供依据。     

Developmental Aspects of Ultrastructure and Histochemistry of the Stylar Transmitting Tissue of Nicotiana sylvestris

The structure and histochemistry of the solid style of Nicotiana sylvestris Speg. and Comes have been studied by light and electron microscopy. The transmitting tissue develops large intercellular spaces filled with secretions rich in proteins and carbohydrates during maturation. The cells possess large nuclei, numerous plastids with starch grains, mitochondria, ribosomes and well developed endoplasmic reticulum and golgi apparatus. The plastids in the stylar region immediately below the stigma produce electron-dense osmiophilic substances which are probably transferred into the cytoplasm by a process resembling budding-off of vesicles. The Golgi apparatus may use the starch grains as a source of sugars for the synthesis and secretion of extracellular polysaccharides. The structural and cytochemical differences between the glandular cells of the stigma and the stylar transmitting tissue are discussed.     

Ethylene and the regulation of senescence processes in transgenic Nicotiana sylvestris plants

BACKGROUND AND AIMS: Exposure of plants to ethylene can influence a spectrum of developmental processes including organ senescence and abscission. The aim of this study was to examine the role of the gaseous regulator in Nicotiana sylvestris plants exhibiting a silenced or constitutive ethylene response. METHODS: Transgenic N. sylvestris plants were generated that either ectopically expressed the Arabidopsis mutant ethylene receptor ETR1-1 or the tomato EIN3-like (LeEIL1) gene. Highly expressing homozygous lines were selected and the time-course of development, from germination to organ senescence, was studied. KEY RESULTS: Fifty percent of the homozygous Pro(35S):ETR1-1 lines examined showed a high susceptibility to collapse prior to flowering, with plant death occurring within a few days of leaf wilting. The time-course of leaf senescence in the remaining Pro(35S):ETR1-1 lines was visibly arrested compared to wild type (negative segregant) plants and this observation was reaffirmed by chlorophyll and protein analysis. Petal necrosis was also delayed in Pro(35S):ETR1-1 lines and corolla abscission did not take place. When senescence of Pro(35S):ETR1-1 plants did take place this was accompanied by leaf bleaching, but tissues remained fully turgid and showed no signs of collapse. A single Pro(35S):LeEIL1 line was found to exhibit consistently accelerated leaf and flower senescence and precocious flower bud shedding. CONCLUSIONS: These observations support a role for ethylene in regulating a spectrum of developmental events associated with organ senescence and tissue necrosis. Furthermore, the transgenic lines generated during this study may provide a valuable resource for exploring how senescence processes are regulated in plants.     

Composition and Chemical Variability of Mentha suaveolens ssp. suaveolens and M. suaveolens ssp. insularis from Corsica

A detailed analysis of two essential oils from individual plants of Mentha suaveolens ssp. suaveolens growing wild in Corsica was carried out by combination of GC(RI), GC/MS, and ¹³C‐NMR analyses. One oil sample is characterized by the pre‐eminence of piperitenone oxide, and the second is dominated by piperitenone. In contrast, it was reported that the essential oil of M. suaveolens ssp. insularis, an endemic species to Corsica and Sardinia, contained pulegone and cis‐cis‐p‐menthenolide as main components. A principal‐component analysis (PCA) carried out on the composition of the essential oil of 59 individual plants of M. suaveolens sp. allowed the classification into three well‐defined groups. All the oil samples from Mentha suaveolens ssp. insularis belonged to the same group, while the oils from M. suaveolens ssp. suaveolens were distributed in the two other groups. The composition of the essential oil isolated from aerial parts of M. suaveolens ssp. has been shown to be an additional tool to differentiate the botanically close subspecies suaveolens and insularis.     

Tissue-specific regulation of volatile emissions moves predators from flowers to attacked leaves

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Strong correlation between isoprene emission and gross photosynthetic capacity during leaf phenology of the tropical tree species Hymenaea courbaril with fundamental changes in volatile organic compounds emission composition during early leaf development

Changes of the volatile organic compounds (VOC) emission capacity and composition of different developmental stages of the tropical tree species Hymenaea courbaril were investigated under field conditions at a remote Amazonian rainforest site. The basal emission capacity of isoprene changed considerably over the course of leaf development, from young to mature and to senescent leaves, ultimately spanning a wide range of observed isoprene basal emission capacities from 0.7 to 111.5 µg C g^?1 h^?1 during the course of the year. By adjusting the standard emission factors for individual days, the diel courses of instantaneous isoprene emission rates could nevertheless adequately be modelled by a current isoprene algorithm. The results demonstrate the inadequacy of using one single standard emission factor to represent the VOC emission capacity of tropical vegetation for an entire seasonal cycle. A strong linear correlation between the isoprene emission capacity and the gross photosynthetic capacity (GP_max) covering all developmental stages and seasons was observed. The present results provide evidence that leaf photosynthetic properties may confer a valuable basis to model the seasonal variation of isoprenoid emission capacity; especially in tropical regions where the environmental conditions vary less than in temperate regions. In addition to induction and variability of isoprene emission during early leaf development, considerable amounts of monoterpenes were emitted in a light‐dependent manner exclusively in the period between bud break and leaf maturity. The fundamental change in emission composition during this stage as a consequence of resource availability (supply side control) or as a plant's response to the higher defence demand of young emerging leaves (demand‐side control) is discussed. The finding of a temporary emergence of monoterpene emission may be of general interest in understanding both the ecological functions of isoprenoid production and the regulatory processes involved.     

Effects of RNases on rejection of pollen from Nicotiana tabacum and N. plumbaginifolia

S-RNases are implicated in both inter- and intra-specific pollen rejection in Nicotiana. At least two mechanisms contribute to S-RNase dependent rejection of pollen from self compatilble species such as Nicotiana plumbaginifolia and N. tabacum. Cloned S-RNases from self incompatible N. alata expressed in styles of self compatible N. tabacum cause rejection of N. tabacum pollen through a factor-independent mechanism. However, rejection of N. plumbaginifolia pollen occurs only when S-RNases are expressed in conjunction with non-S-RNase factors from N. alata (factor-dependent pollen rejection). Here, we compared the pollen rejection activity of four RNases in these two systems. Recombinant RNase expression levels in the factor-dependent N. plumbaginifolia system were insufficient to cause pollen rejection. However, three S-RNases were active in the factor-independent N. tabacum pollen rejection system. This system shows the broadest specificity of any system so far examined. However, RNaseI from E. coli could not cause N. tabacum pollen rejection. Thus, RNase activity alone is not sufficient for pollen rejection. Our results suggest that S-RNases are specially adapted to function in pollen rejection. Received: 15 December 2000 / Accepted: 1 May 2001     

灰树花子实体与发酵菌丝体挥发性化合物分析

分别采用固体栽培法和液体发酵法对同一灰树花菌株进行培养,获得灰树花子实体和发酵菌丝体,并采用顶空固相微萃取(HS-SPME)和气相色谱-质谱(GC-MS)分析技术对子实体和菌丝体的挥发性化合物进行了分析比较。结果表明,灰树花子实体和发酵菌丝体分别含有62种和94种挥发性物质,其中37种为相同物质,分别占总挥发性物质的86.81%和84.28%。灰树花子实体中含有醇(14种)、酮(13种)、醛(12种)、酸(7种)、酯(5种)等物质,主要以酯类(42.80%)、醛类(35.14%)物质为主,其中乙酸乙酯的相对含量达到了42.57%。发酵菌丝体中主要含有醛(22种)、酮(17种)、醇(16种)、酯(13种)、酸(12种)等挥发性物质,其中醛类、酯类、酸类、醇类分别占47.0%、10.90%、7.48%和5.94%。异戊醛和地衣酚的含量分别达到了23.31%、15.41%。     

Effects of the herbicide isopropyl-N-phenyl carbamate on microtubules and MTOCs in lines of Nicotiana sylvestris resistant and sensitive to its action

To clarify the mechanism of isopropyl-N-phenyl carbamate (IPC) action on higher plant cells the sensitivity of microtubules (cortical network and mitotic arrays) and microtubule organizing centers to IPC treatment (30 microM) in IPC-resistant and sensitive Nicotiana sylvestris lines was studied. It was clearly demonstrated that IPC does not depolymerize plant MTs but causes the MTOC damage in cells, which results in MTOC fragmentation, splitting of the spindle poles and in abnormal division spindle formation. It was also found that IPC-resistance of mutant N. sylvestris line correlates not with tubulin resistance to IPC action but possibly with resistance of one of the proteins involved in MTOC composition.     

城市植物源挥发性有机化合物排放特征及其大气环境效应研究进展

在外界环境的刺激下,植物会通过释放挥发性有机化合物来维护自身生长。城市是人类活动的主要集聚地,剧烈的人为干扰导致城市环境特征呈现出复杂的变化趋势,从而使城市植物排放挥发性有机化合物的过程与自然界出现较大差异。城市中的植物源挥发性有机化合物(Biogenic Volatile Organic Compounds, BVOCs)会直接与城市中的氧化物质接触,生成二次污染物,并在高温、强光照的条件下发生光化学反应,严重破坏城市大气环境,危害居民健康。总结了城市BVOCs的常见类型、作用机制及现有研究方法,分析了不同时间、空间和人类活动背景下的城市BVOCs排放特征,并进一步梳理了当前研究的不足,提出未来重点研究方向,旨在为大气环境治理、环境空间规划、居民健康保障等方面的城市管理工作提供指导。     

Comparison of volatile organic compounds from uninfested and Monochamus alternatus Hope infested Pinus massoniana Lamb.

Monochamus alternatus is a destructive stem‐boring herbivore of Pinus massoniana, and the principal vector of pine wood nematode. To investigate the impacts of boring by M. alternatus larvae on the emission of volatile organic compounds (VOCs) from their host trees, the VOCs from uninfested and M. alternatus larvae infested P. massoniana trees were observed using a gas chromatograph–mass spectrometer. We detected 12, 9, 18 and 14 volatile organic compounds from infested xylem, infested phloem, uninfested xylem and uninfested phloem, respectively. In P. massoniana xylem, the boring of M. alternatus larvae induced cyclosativene, and inhibited 4‐carene, humulene, styrene, α‐phellandrene, β‐myrcene, β‐phellandrene and γ‐terpinene. The relative amounts of camphene, copacamphene, longicyclene, longifolene, tricyclene and α‐longipinene were significantly increased, and the relative amounts of α‐pinene and β‐pinene were significantly decreased by the boring behaviors of M. alternatus larvae. In P. massoniana phloem, the boring of M. alternatus larvae induced 2‐bornanone, copacamphene, longicyclene and α‐longipinene, and inhibited 2‐carene, 4‐carene, styrene, α‐phellandrene, β‐myrcene, β‐phellandrene, β‐pinene, γ‐terpinene and ο‐cymene. The relative amounts of camphene, caryophyllene and longifolene were significantly increased by the boring behaviors of M. alternatus larvae. The results indicate that the boring behaviors of M. alternatus larvae changed both the sorts and contents of the VOCs from P. massoniana trees.     

樟树叶片挥发性有机物释放季节动态和日动态变化规律

采用动态顶空采集法和热脱附-气质联用技术,对不同季节和一天内不同时间点樟树叶片释放的挥发性有机物(VOCs)成分含量及其变化规律进行了分析。结果表明:全年樟树叶片释放的VOCs共计78种,其中萜烯类(19种)和烷烃类(18种)化合物种类较多; 32种樟树叶片释放的挥发性成分相对含量在不同季节存在显著差异(P<0.05); 3月份释放的VOCs种类最为丰富,萜烯类化合物相对含量最高(43.49%),主要为1-石竹烯、D-柠檬烯和α-蒎烯,其他月份释放的VOCs则以烷烃类和醇类为主;春季,樟树叶片在绝大多数时间点释放VOCs以萜烯类化合物为主,且早上8:00释放的萜烯类化合物相对含量最大。综上结果认为,樟树是营造保健型生态园林的理想树种,其叶片释放的VOCs中富含多种对人体健康有益的萜烯类化合物,春季的早晨是进行森林康养活动的最佳时间。