花粉——雌蕊相互作用的分子基础

显花植物授粉过程包含了花粉与雌蕊一系列复杂的细胞间相互作用。花粉在柱头上必须发生粘附与水合作用后才能萌发,花粉胞被蛋白可能在粘附机制中起主要作用,而水孔蛋白调节了花粉的水合过程;花粉管在花柱引导组织中定向生长,受引导组织胞间质、向化性物质及细胞粘附机制等因素的影响,也与花粉受体及子房有关。在植物的自交不亲和性反应中,配子体型自交不亲和性反应主要是由自交不亲和基因蛋白产物降解花粉RNA或以Ca^2 介导的信号级联反应实现的;孢子体型自交不亲和性反应则依赖于干性柱头以及雌蕊的S受体激酶及S位点糖蛋白与花粉S基因配体之间的相互作用。     

Pollen–pistil interaction in protogyny and self-incompatibility system of Indian mustard (Brassica juncea (L.) Coss.)

The pollen morphology of two species of Drosera has been investigated by means of both light and electron microscopy. The apertures are situated proximally, a state rarely found in the pollen of Angiospermous plants. The pollen morphology of Aldrovanda, Dionea and Drosophyllum is compared.     

Pollen-pistil interactions in Hermodactylus tuberosus Mill. (Iridaceae)

ABSTRACT

Hermodactylus tuberosus Mill. (Iridaceae) is a species with a very short style and a tricarpellar unilocular ovary. For ornamental purposes it is usually reproduced by means of tubers, although both vegetative and seed reproduction occur in nature. However, its capsules do not contain many seeds in comparison to the high number of ovules inside the ovary. To understand this conflicting process a study on H. tuberosus pollen-pistil interaction was carried out. Pollen viability was evaluated by different techniques. Germination rate was tested in vitro and in vivo after stigma, intrastylar and intraovarian pollinations. A high percentage of the pollen grains were found to be viable resulting in a high percentage of in vitro germination and a low rate of germination on the stigma. Indeed, many pollen tubes developed after intrastylar and intraovarian pollinations. Several anomalies characterized pollen germination and pollen tube growth in vitro and in vivo. Observations from field trials indicated that capsules were only produced from open or hand, cross- pollinated flowers, confirming that the plant is self- incompatible and not apomictic. In addition, all the mature capsules contained only a few mature seeds suggesting the existence of pre- and postzygotic seed set inhibition.     

Photosynthetic and stomatal responses of the halophyte,Plantago maritima L. to fluctuations in salinity

Abstract Measurements of photosynthesis as a function of intercellular CO₂ (A-C₁ curve) were made on single. attached leaves of Plantago maritima L. while plants were exposed to changes in salinity. Salinity was increased in steps from 50 to 500 mol m^-3 NaCl and then returned to 50 mol m^-3 NaCl at two rates, 75 mol m^-3 (NaCl) day^-1 (experiment 1) and 150 mol m^-3 (NaCl) day^-1 (experiment 2). In experiment one, the CO₂ assimilation rate declined at high CO₂ concentrations, but the initial slope of the A-C₁ curve was unaffected in young leaves after salinity was increased to 500 mol m^-3 NaCl. The insensitivity of photosynthesis to increases in CO₂ concentration above air levels was not associated with insensitivity to a reduction in oxygen concentration. In experiment two increasing the rate at which salinity was changed resulted in larger declines in photosynthesis and leaf conductance than were observed in experiment one. Both the initial slope and the CO₂ saturated region of the A-C₁ curve were substantially reduced at high salinity suggesting that mesophyll biochemical capacity had been inhibited. However, concurrent measurements of photosynthesis as oxygen evolution under 5% CO₂ indicated no effect of increased salinity on photosynthetic capacity. This suggests that the apparent non-stomatal limitations indicated by A-C₁ measurements were artifacts caused by strong, nonuniform stomatal closure.     

Pollination-induced ethylene promotes the early phase of pollen tube growth in Petunia inflata

In Petunia inflata, a species with gametophytic self-incompatibility, pollination triggers two phases of ethylene production by the pistil, the first of which peaks 3 hours after pollination with compatible or incompatible pollen. To investigate the physiological significance of the first phase of ethylene production, pollinated flowers were treated with 2,5-norbornadiene (NBD), an inhibitor of ethylene action. Treatment with NBD reduced pollen tube growth in a dose-dependent manner during the first six hours after pollination; however, pollen tube growth was insensitive to NBD if the treatment was applied 6 hours or more after pollination. Simultaneous application of exogenous ethylene substantially offset the inhibitory effects of NBD in flowers pollinated for 4 hours. Another inhibitor of ethylene action, 1-methylcyclopropene (1-MCP), also produced a strong inhibition of pollen tube growth during the first six hours of pollination. The experiments with 1-MCP pretreatment indicate that pistil tissues are the primary target of the pollination-induced ethylene.     

Gametophyte–Sporophyte Interactions in the Pollen–Pistil System: 4. The Hormonal Status and the Mechanism of Self-Incompatibility

Following 4 and 8 h after self-incompatible pollination of Petunia hybrida plants, ethylene evolution and the contents of IAA, ABA, and cytokinins were measured in pistils and their parts (stigma, style, and ovary). The germination and initial growth of pollen tubes within the initial 4 h of the experiment were accompanied with an almost tenfold increase of the rate of ethylene production by the stigma and a twofold increase of the ABA content in the stigma and style. The inhibition of pollen tube growth in the style tissues during next 4 h coincided with a fivefold increase in the cytokinin content in the style, while high ABA content was maintained in the stigma and style. The authors conclude that phytohormones participate in the mechanism of gametophyte self-incompatibility.     

盐生车前根液泡膜ATPase对盐胁迫的响应

用蔗糖密度梯度离心法从对照和盐处理的盐生车前根中分离出液泡膜,并对其ＡＴＰａｓｅ某些特性进行了比较研究,蔗糖连续密度梯度离心后ＮＯ＾－３敏感的ＡＴＰａｓｅ活性主要分布在２２％－３５％蔗糖浓度之间,用不连续密度梯度离心法从２２％－３５％界面收集到的膜主要源于液泡膜。因为,这种膜ＡＴＰａｓｅ活性受到Ｃｌ＾－的促进和ＮＯ＾－３的强抑制,而叠氮化钠和正钡酸钠只抑制酶活性的１０％左右,最适ｐＨ８．０。     

Na+/H+ antiport activity in tonoplast vesicles from roots of the salt-tolerant Plantago maritima and the salt-sensitive Plantago media

Plantago species differ in their strategy towards salt stress, a major difference being the uptake and distribution of Na⁺ ions. A salt-sensitive ( Plantago media L.) and a salt-tolerant ( P. maritima L.) species were compared with respect to Na⁺/H⁺ antiport activities at the tonoplast. After exposure of the plants to 50 m M NaCl for 6 days isolated tonoplast vesicles of P. maritima showed Na⁺/H⁺ antiport activity with saturation kinetics and a K_m of 2.4 m M Na⁺, NaCl-grown P. media and the control plants of both species showed no antiport activity. Selectivity of the antiport system for Na⁺ was high and was determined by adding different chloride salts after formation of a Δ pH in the vesicles. Specific tonoplast ATPase activities were similar in the two species and did not alter after exposure to NaCl stress.     

Changes in the Plantago lanceolata mature pollen ultrastructure and Pla l 1 allergen localisation after grain hydration

Abstract

We have conducted the study of ultrastructural changes of wall and cytoplasm of Plantago lanceolata (English plantain) pollen grains during the first 10 min of hydration and activation processes, prior to germination, and localisation of Pla l 1, the major allergen of these pollen grains with immunocytochemical methods. The samples were fixed using conventional and freezing protocols for transmission electron microscopy. During the activation process, the intine is thickened in the apertural region and cytoplasm undergoes changes in the number of lipid bodies, amyloplasts, vacuoles and ribosomes. Also, we observed an association between lipid bodies, cisternae of rough endoplasmic reticulum, dictyosomes and vacuoles. An increase in the presence of allergenic particles (Pla l 1) in the exine, intine and the cytoplasm in activated pollen grains was detected, whereas this presence is not significant in mature pollen grains. The increase in the production and release of this allergen when pollen grains are activated suggest that Pla l 1 has an important role in pollen–stigma recognition and in the subsequent development of the pollen tube.     

四种植物粘液繁殖体粘液的比较研究

对百里香(Thymus serpyllum)、平车前(Plantago depressa)、盐生车前(P．maritima)、野亚麻(Linum stelleroides)进行了粘液繁殖体粘液情况比较．以在水浸和浇水条件下植物种子粘沙量的多少衡量粘液量．结果表明,对于不同浸水时间处理,野亚麻和平车前未表现明显差异,盐生车前和百里香有随浸泡时间加长而粘液溶出量增多的趋势．对于不同浇水量处理,4种植物均有随浇水量增多而粘液增多的倾向．浸泡80min后,盐生车前种子的粘液粘沙使重量达原重的60多倍,平车前种子达原重的10倍左右,百里香和野亚麻种子达原重的4～6倍左右．浇水8mm后,盐生车前种子的粘液粘沙使重量达原重的20多倍,平车前种子达原重的6～10倍左右,百里香和野亚麻种子达原重的2～7倍左右．将各种处理平均,得到各种植物粘沙种子百分率为：野亚麻67．7％,百里香94．5％,平车前97．7％,盐生车前99．5％．     

Genetic structure among populations in the endemic Hawaiian Plantago lineage: insights from microsatellite variation

Endemic Hawaiian species in the genus Plantago show considerable morphological and ecological diversity. Despite their variation, a recent phylogenetic analysis based on DNA sequence data showed that the group is monophyletic and that sequence variation among species and morphotypes is low. This lack of sequence polymorphisms resulted in an inability to resolve species and population affinities within the most recently derived clade of this lineage. To assess species boundaries, population genetic structure and interpopulation connectivity among the morphologically and ecologically distinct populations within this clade, genetic variation was examined using eight microsatellite loci. Within‐population genetic diversity was found to be lowest in the Maunaiu, Hawai'i population of the endangered P. hawaiensis, and highest in the large P. pachyphylla population from 'Eke, West Maui. Isolation by distance across the range of populations was detected and indicated restricted dispersal. This result is likely to be attributable to few interisland dispersal events in the evolutionary history of this lineage. Genetic differentiation within islands tended to be higher among populations occurring in contrasting bog and woodland habitats, suggesting ecological barriers to gene flow and the potential role of ecological divergence in population diversification. Overall, these results are consistent with findings from phylogenetic analysis of the entire lineage. Our data bring new insights regarding patterns of dispersal and population genetic structure to this endemic and endangered group of island taxa. As island environments become increasingly fragmented, information of this type has important implications for the successful management of these fragile populations and habitats.