Ultrastruktur und Entwicklungsgeschichte des Pollenkitts vonEuphorbia cyparissias,E. palustris undMercurialis perennis (Euphorbiaceae)

Development, fine structure and distribution of pollenkitt is investigated inEuphorbia cyparissias, E. palustris, andMercurialis perennis. The predominantly anemophilousM. perennis produces a great amount of strictly homogeneous pollenkitt, which is deposited in the exine caves. In contrast to this and to all other angiosperms so far investigated, bothEuphorbia species produce large quantities of an extremely inhomogeneous and particular pollenkitt. Its ultrastructure is quite different, both during its development and after its deposition on the exine surface: Lipid particles with different electron density and size are wrapped in a strictly homogeneous electron transparent matrix. This can be considered as new and additional proof for the secondary entomophily ofEuphorbia.

     

Structural analysis of stigma development in relation with pollen–stigma interaction in sunflower

Structural analysis of stigma development in sunflower highlights the secretory role of papillae due to its semi-dry nature. Production of lipid-rich secretions is initiated at the staminate stage of the flowers in stigma development and increases at the receptive stage, coinciding with an extensive development of elaioplasts and endoplasmic reticulum network in the basal region of the papillae. Transfer cells, earlier identified only in the wet type of stigma, are also present in the transmitting tissue of the sunflower stigma. Attainment of physiological maturity by the stigmatic tissue, accompanying development from bud to pistillate stage, appears to affect the initial steps of pollen–stigma interaction. The nature of self-incompatibility in Helianthus has also been investigated in relation with pollen adhesion, hydration and germination. Pollen adhesion to the stigma is a rapid process in sunflower and stigma papillae exhibit greater affinity for pollen during cross pollination as compared to self-pollination. Components of the pollen coat and the pellicle on the surface of stigmatic papillae are critical for the initial phase of pollen–stigma interaction (adhesion and hydration). The lipidic components of pollen coat and the proteinaceous and lipidic components from the surface of the papillae coalesce during adhesion, leading to the movement of water from stigma to the pollen, thereby causing pollen hydration and its subsequent germination. Pollen germination (both in self-and cross-pollen) on the stigma surface and the growth of the pollen tube characterize the flexibility of self-incompatibility in sunflower. Compatible pollen grains germinate and the pollen tube penetrates the stigma surface to enter the nutrient-rich transmitting tissue. The pollen tube from incompatible pollen germination, however, fails to penetrate the stigmatic tissue and it grows parallel to the papillae. Present findings provide new insights into structural and functional relationships during stigma development and pollen–stigma interaction.     

Nonradioactive in situ localization of poly(A)+ RNA during pollen development in anthers of tobacco (Nicotiana tabacum L.)

Summary A method is described for non-radioactive labeling of total mRNA [poly(A)+ RNA] in plastic-embedded plant tissue sections. Oligo-deoxythymidylic acid (oligo-dT) labeled with digoxigenin-conjugated dUTP was used for in situ hybridization to poly(A)+ RNA in sections of tobacco (Nicotiana tabacum) anthers. The digoxigenin was immuno-stained using antidigoxigenin IgG and gold-labeled protein-A, followed by silver enhancement of the gold label. Reproducibly similar positive staining patterns were obtained with digoxigenin-labeled oligo-dT and polyuridylic acid [poly(U)], but not with a similarly labeled sense probe, poly(A). In the developing anthers, from the onset of meiosis to the production of pollen grains, labeling patterns were compatible with a gradual depletion of nuclear and chromosome-associated sporophytic mRNA molecules during prophase of meiosis, followed by postmeiotic production of gametophytic mRNA in microspore nuclei and the vegetative nuclei of the pollen grains.Abbreviations BSA bovine serum albumin - DIG digoxigenin - IgG immunoglobulin-G - oligo-dT oligo-deoxythymidylic acid - PAS-ABB periodic acid Schiff-aniline blue black - PBS phosphate buffered saline - poly(A) polyadenylic acid - poly(U) polyuridylic acid - SSC standard saline citrate     

杜鹃属马银花亚属花粉形态的研究

首次报道了杜鹃属马银花亚属四组 2 0种 2变种植物的花粉形态。本亚属植物的花粉均为四合花粉 ,呈正四面体排列 ,四合体直径为 35 .85～ 6 0 .72 μm。单粒花粉球形或近球形 ,具三孔沟。在四合花粉上 ,相邻花粉粒上的沟相连 ,花粉粒表面或多或少具粘丝。在扫描电镜下 ,花粉粒呈现出粗糙、不明显聚颗粒状至致密的聚颗粒状等不同的纹饰 ,在不同的组间存在或多或少的差异 ,具有一定的分类学意义。对某些种的分类处理也能够提供某些孢粉学证据。     

Reproductive biology of a rare cactus, Opuntia spinosissima (Cactaceae), in the Florida Keys: why is seed set very low?

 Opuntia spinosissima (Martyn) Mill. (Cactaceae) is an extremely rare taxon with a single remaining wild population of 13 plants located on Little Torch Key, Florida. The plants rarely set viable seeds and most ovaries abscise without initiation of fruits. Pollination and breeding system were examined in Little Torch Key and in plant accessions located at Fairchild Tropical Garden. Four pollination treatments were carried out to test for apomixis, self-pollination, outcrossing, and autogamy; a control treatment was also monitored. Additionally, pollen viability, pollinators, and seed set and viability were investigated. On selfed, crossed, and open (control) stigmas pollen grains germinated, but the tubes usually did not reach the base of the style. This suggests that O. spinosissima has pre-zygotic self-incompatibility. None of the pairwise crosses set seed, so the extant plants were apparently not inter-compatible. Out of 173 manipulated and control flowers, only one set fruit. Although this flower was outcrossed, no pollen tubes germinated on the stigma; this suggests agamospermy, a process common in the Cactaceae. In those flowers where pollen tubes did reach the ovary they failed to penetrate ovules, suggesting ovarian inhibition or that this taxon has lost the ability to be fertilized. Most field-collected seeds were viable, but there is no seedling recruitment under natural conditions, and vegetative reproduction is common. Based on these findings, I hypothesize that O. spinosissima is a sterile polyploid and that the 13 extant plants are asexually derived from a single lineage. Received: 17 April 1998 / Revision accepted: 3 July 1998     

The clues to species specificity of pollination among Brassicaceae

The Brassica S product of the pollen-signalling S-gene (SP11 for Specificity Pollen, or SCR for S locus Cysteine Rich) has recently been identified as a member of the family of PCPs (Pollen Coat Proteins), a group of small basic proteins. In female plants SRK (S Receptor Kinase) has been demonstrated, among several stigma-expressed S genes, to exclusively control self-pollen rejection. Genes and gene products that are highly related to the sporophytic SI system appear to take part in the control of several stages of pollen-stigma interactions in the Brassicaceae. These genes ensure, in particular, the species specificity of late pollen adhesion. Pollen capture itself is not species specific, since it depends essentially on lipophilic affinities between pollen coatings and waxy pellicles on the stigma. These interactions and their control are reviewed here. Received: 2 August 2000 / Revision accepted: 11 August 2000     

Effect of pollen competition and stigmatic receptivity on seed set in white clover (Trifolium repens L.)

The effect of competition between incompatible and compatible pollen grains on the seed production of white clover was studied. Stigmatic receptivity was also studied. A selection line of white clover that has red leaves was used as a pollen donor and as a genetic marker to allow determination of the pollen donor responsible for ovule fertilisation. Results show that incompatible pollen did not inhibit compatible pollen grains from fertilising ovules and producing seeds, although it did slightly impair seed yield. At temperatures of 20/10°C (day/night) stigmas of white clover remained receptive to additional pollination up to 32 h after an initial compatible pollination and 40 h after an incompatible pollination. The results imply that factors other than inadequate pollination and the self-incompatibility system are responsible for failure of white clover to attain its potential seed yield. Received: 31 August 1999 / Revision accepted: 28 February 2000