异叶苦竹花粉管生长及双受精过程

以异叶苦竹为材料,采用扫描电镜、荧光显微镜技术及传统的石蜡制片技术,解剖观察其花粉管生长途径及双受精过程。结果表明:(1)授粉后,花粉在柱头上吸水膨胀,约30 min即可萌发。(2)授粉1～2 h后花粉管可达到花粉长度的5～10倍,花粉管在柱头分支中进一步伸长,并开始伸入花柱中生长。(3)授粉后5 h,大量花粉管沿引导组织进入花柱基部与子房顶部之间的子房壁,有少量花粉管在子房壁与外珠被之间的缝隙中生长。(4)授粉后8 h,少量花粉管到达珠孔端。(5)授粉后15～18 h,精核与极核融合,形成初生胚乳核;精、卵核融合,形成合子。(6)授粉后20～30 h,仍可在花柱中见到大量呈束状的花粉管。(7)授粉后48 h,子房内的大部分花粉管出现解体,大多数花粉死亡。研究认为,精细胞到达胚珠的时间为8 h。     

Comparative morphology,anatomy and palynological studies of perennial species of Onobrychis (Fabaceae) in northeast Iran

This study examined morphological, anatomical and palynological characters for six species, two subspecies and two varieties of perennial Onobrychis growing in northeast Iran. In the morphological study, shape, size and color of vegetative organs and legumes were assessed. For the anatomical study, cross sections of mature fresh or dried stems, leaflets and petioles were prepared and stained. In the palynological study, pollen were extracted, acetolysed and observed by SEM. The morphological study indicated that some characteristics varied among species, such as shape of stipules and calyx teeth, color and shape of corolla segments and legumes and an identification key is provided based on these characters. Also, in internal structure some differences were noticed in the shape of petiole cross sections, the thickness of cortex and pith shape in petioles and the arrangement of vessels in stems. Some anatomical characters proved useful to identify species, but not sections. Palynological results showed circular and obtuse triangular pollen in polar view and elliptical pollen in equatorial view with reticulate ornamentation. In addition, a cluster analysis was done based on morphological, anatomical and palynological features. The resulting dendrogram confirmed the taxonomic treatment suggested by Sirjaev and Rechinger.     

Pollen morphology in the genus Coffea (Rubiaceae) and its taxonomic significance

The pollen morphology of 38 representative species and varieties within the genus Coffea L. is described. Eight pollen types, placed in two major groups, have been identified on the basis of the number of colpi, colpus characteristics, exine morphology and pollen size. Differences in pollen structures of the species studied do not correspond to present taxonomic groupings, but support a current proposal to place some of the species in the genus Paracoffea Leroy. Among the four sections in the genus, the section Eucoffea contains a high degree of pollen polymorphism.     

Pollen morphology of polyscias (araliaceae): the malesian and australian species

The pollen morphology of 33 Malesian and Australian taxa of Polyscias is described, and the variation assessed by multivariate analysis. The analysis identified two main pollen types: (1) relatively small grains with a microreticulate tectum and lalongate ora (sect. Polyscias, Gelibia, Eupteron and six taxa not assignable to any of the sections as they are currently defined, (2) relatively large grains with a reticulate tectum, or which do not possess a tectum (previously unknown in the family), lalongate, lolongate or circular ora (sect. Kissodendron and Palmervandenbroekia). The systematic utility of palynologial data at various taxonomic levels within Polyscias is dicussed.     

Pollen morphology of selected Central European species from subgenera Vignea and Carex (Carex,Cyperaceae) and its relation to taxonomy

This study analysed the taxonomic utility of selected features of pollen grains of 45 Central European species of subgenera Vignea and Carex of the genus Carex. Seven quantitative features were analysed: [length of polar axis (P), length of equatorial axis (E), exine thickness on the pole (Exp), exine thickness on the equator plane (Exe), P/E ratio and the relative thickness of exine (Exp/P and Exe/E ratio)] and outline, shape and exine sculpture. Among the biometrical features, the most important for Carex taxonomy (particularly at the level of subgenus) is the thickness of exine (Exp). Marked differences in the morphological structure of inflorescences at the subgenus level are reflected in the differences of pollen features. Results of our studies clearly show an explicit (and not previously described in the palynological literature) taxonomic division of the genus Carex on the basis of pollen biometrical features into two units corresponding exactly to the subgenera (Vignea and Carex). However, the features of pollen grains analysed did not contribute any essential taxonomic criteria at levels lower than subgenus (e.g. sections). An exception was for C. disticha, where it was observed that the poroid areas occurred in pairs, a new feature for sedges. © 2010 The Linnean Society of London, Botanical Journal of the Linnean Society, 2010, 164 , 422–439.     

Floating-Out Technics for Rapid Placement of Ribbons of Serial Sections on Slides

The floating-out technic, popular for single paraffin sections, can be applied successfully to ribbons of serials by either of two procedures. (1) If spreading time for the sections is uncritical suitable lengths of ribbon for attachment to a slide are laid on water at a temperature about 8° C below the melting point of the paraffin and manipulated with a rubber bulb pipette to form a unit. This ensemble can then be picked up by the slide in much the same manner as a single section. (2) If spreading time is critical, as for objects that have had guide limes embedded with them, several ribbons are arranged on a cold, dry slide and transferred to the water as a unit. Placing the ribbons on the cold slide so that they slightly overhang one end and the sides of the slide allows them to make proper contact with the water as the slide is immersed. To facilitate controllable spreading in both methods, the water should have added to it 0.5 ml of albumen-glycerol adhesive per 100 ml. Adding water to the slide after the sections have been picked up or manipulation of the ribbons is generally unnecessary if the ribbons have been aligned accurately on the floating-out bath.     

In vitro differentiation of embryogenic pollen,control by cold treatment and embryo formation inab initio pollen cultures ofNicotiana tabacum var. badischer burley

Summary InNicotiana cold treatment causes differentiation of embryogenic pollen. This differentiation initiates on the plant and is completed in culture. Differentiation on the plant results in pollen dimorphism and differentiation in culture leads to pollen embryogenesis. An increased number of pollen capable of embryogenesis is possible on plants induced to flower in short days and low temperature (8 hours light, 18 °C). These embryogenic pollen on selective isolation, from buds at a petal length of 3.4±0.1 cm, fail to form embryos but do so in the cultures which receive cold treatment at 10 °C for 10 days. To some extent the differentiation of embryogenic pollen can be completed on plants induced to flower at 15 °C and embryogenic pollen from such plants form embryos at a low frequency which can be substantially increased on giving the cultures a cold treatment. The frequency of embryogenesis is higher in cultures of 15 °C plants than those of 18 °C plants. Low temperature requirements at two stages—to the plant and to the culture—are essential and complimentary for embryogenesis inab initio pollen cultures.Cold treatment causes repression of gametophytic differentiation and this results in the differentiation of embryogenic potential. The embryogenic pollen, unlike gametophytic pollen, are not fully differentiated structures. They are unable to divide and form embryos in presence of metabolic inhibitors such as actinomycin-D and cycloheximide.     

The evolution of pollen heteromorphism inViola: A phylogenetic approach

Pollen heteromorphism, defined here as the production within all flowers of a plant of several pollen morphs differing in aperture number, is common in angiosperms. We have focused on the evolution of pollen heteromorphism in the genusViola, in which about 1/3 of the species are pollen-heteromorphic. We have studied the distribution of pollen heteromorphism in the genusViola using a molecular phylogeny based on ITS sequence data. We show that pollen heteromorphism has evolved independently at least six times inViola. A comparative analysis shows that the occurrence of pollen heteromorphism is correlated with sporophytic polyploidy in all sections of the genus apart from sectionMelanium. This section differs from all other sections on several aspects such as flower morphology, absence of cleistogamous flowers, and a high proportion of heteromorphic species. We discuss the possible adaptiveness of pollen heteromorphism in this section.     

PALYNOLOGY AND SYSTEMATICS OF CUPHEA (LYTHRACEAE). I. MORPHOLOGY AND ULTRASTRUCTURE OF THE POLLEN WALL

A survey of pollen from 153 species of Cuphea has revealed a remarkable array of morphological forms. The survey involved light and electron microscope investigations of C. crassiflora, jorullensis, and koehneana to determine details of exine morphology, and a more general study of pollen from an additional 150 species. Comparison of pollen types within a single morphological category and within taxonomic groups (i.e., sections or subsections) indicates considerable variation at subgeneric levels. The genus is distinctly eurypalynous, and the extent to which pollen varies among the sections, subsections, species and varieties is probably exceeded by few genera of comparable size. The pollen is also variable within each taxon, but size studies of single-anther lactic acid preparations demonstrate the genus is not polymorphic, as in Lythrum, where pollen polymorphism is associated with heterostyly. The latter phenomenon is as yet unknown in Cuphea. These results reveal that pollen morphology constitutes an important and useful character for taxonomic studies of Cuphea.     

SYSTEMATIC SIGNIFICANCE OF POLLEN NUCLEAR NUMBER IN EUPHORBIACEAE,TRIBE EUPHORBIEAE

Pollen nuclear number is determined in 139 species of 5 genera in the Euphorbieae, subtribe Euphorbiinae. The 111 new determinations are tabulated along with previous reports, and the results indicate that the distribution of binucleate (II) and trinucleate (III) pollen is strongly associated with the taxonomic groupings within the Euphorbieae. Although binucleate pollen is probably primitive within the tribe Euphorbieae, as suggested by the nuclear condition in Neoguillauminia, the situation in Euphorbia still requires further elucidation. Within Euphorbia, the morphologically most primitive species studied have III pollen despite the fact that II pollen is presumably the original condition for the subtribe Euphorbiinae. In Euphorbia, II pollen only is reported from nine sections and III pollen only from ten sections, while in four sections (Esula, Goniostema, Aphyllis, and Deuterocalli) both II and III pollen have been found. The New World species of Euphorbia nearly all have III pollen, whereas the vast majority of the African succulents have II pollen. The genera of New World origin, Chamaesyce and Pedilanthus, have III pollen, while the African genera Monadenium and Synadenium have II pollen. Independent derivations of III pollen from II pollen appear to have occurred in sections Goniostema, Aphyllis, and Deuterocalli (all of subg. Euphorbia). There is no evidence that reversals from III to II pollen have occurred.     

REVERSIBLE ANTHER OPENING IN LILIUM PHILADELPHICUM (LILIACEAE): A POSSIBLE MEANS OF ENHANCING MALE FITNESS

Studies of Lilium philadelphicum on Isle Royale National Park, Lake Superior, show that thecae (pollen-containing sacs) of dehisced anthers close in the rain, thus protecting the pollen and prolonging the pollen donor phase of the flower. To our knowledge, this is the first report of anthers with longitudinal dehiscence reclosing after opening. Individual flowers of L. philadelphicum are long lived (8–11 d), do not shorten their flowering period in response to successful fertilization of the ovules, and are primarily pollinated by butterflies. Butterflies do not forage in the rain and may first visit a flower several days after anthesis. Under such circumstances, strong selection may exist to protect pollen during unfavorable weather conditions in order to prolong the pollen donor phase. Flowers with long pollen donor phases are likely to contribute more offspring to the next generation than flowers with short pollen donor phases.     

Intergeneric pollen – megagametophyte relationships of conifers in vitro

 Germinating pollen from larch (Larix occidentalis), Sitka spruce (Picea sitchensis) and white pine (Pinus monticola) were co-cultured with megagametophytes dissected from cones of other genera (Pseudotsuga menziesii, Larix×eurolepis and Pinus monticola). Pollen was presented to megagametophytes possessing archegonia which were either alive, degenerating or dead. In addition, pollen was presented to fertilized megagametophytes and to megagametophytes that had been cut in half. Megagametophyte penetration by pollen tubes and male gamete release into archegonia were verified by serial sections of glycomethacrylate-embedded specimens. Pollen tubes penetrated through any part of the apex of the megagametophyte. Division of the body cell into the two gametes was regularly observed. Delivery of gametes was confirmed between spruce and larch. Pollen tubes also penetrated fertilized megagametophytes, dead or degenerating archegonia as well as wounded and/or cut surfaces. This demonstrates the inability of the male gametophyte to optimize its mating efforts, since it is unable to differentiate between healthy and unhealthy archegonia. The megagametophyte cells are unable to optimize male selection. They may produce secretions of a generally attractive nature, as pollen is attracted to the apex of the megagametophyte, but archegonia themselves do not produce pollen-specific signals of either a promotive or inhibitory nature. These results open new avenues for the development of novel breeding strategies where natural breeding barriers may be bypassed. Received: 19 March 1998 / Accepted: 29 April 1998     

Stigma behavior in Mimulus aurantiacus (Scrophulariaceae)

The bilobed stigma of many species in the order Scrophulariales closes in response to touch by an animal pollinator. In hummingbird-pollinated bush monkey flower, Mimulus aurantiacus (Scrophulariaceae), closure is rapid, occurring within seconds of tactile stimulus. We investigated the proximate causes of stigma closure and subsequent reopening in M. aurantiacus, as well as potential costs and benefits of stigma closure for female fitness. Stigma closure is elicited by both touch and pollen, but closure in response to pollen is much slower, requiring 0.5–1.5 h. Stigmata reopen within 2.5–4.5 h if touch, but no pollen, is applied. Upon receipt of pollen, most stigmata remain closed for the remaining lifetime of the flower, even if less pollen is received than is needed for full seed set. Those stigmata that do reopen after pollination generally require between 20 and 28 h to do so, much longer than for unpollinated stigmata. Reopening after pollination appears to be a response to low seed set rather than to low pollen load. Natural pollination of stigmata manipulated to prevent closure shows that closure does not increase capture of pollen or seed set. In fact, closure reduces the average pollen load received by flowers. Despite this, there is no evidence that stigma closure has any negative effect on female fitness in terms of seed set or germinability. Hypotheses for the adaptive significance of stigma closure are discussed. Understanding proximate causes of stigma closure and reopening is essential in the evaluation of these hypotheses.     

The palynology of the genus Rondeletia L. (Rubiaceae-Cinchonoideae-Rondeletieae)

Pollen of 20 species of Rondeletia, covering three subgenera and seven sections or “species groups” of the genus, was studied using light and scanning microscopy. Rondeletia, characterized by binucleate mature pollen grains like numerous other Rubiaceae, was found to be eurypalynous. The pollen is isopolar and small-sized (average equatorial diameters 11.4–22.8 μm) and 3-colporate (rarely 4-colporate). In equatorial view, the pollen grains are mostly ± spheroidal (rarely suboblate); in polar view (ambitus), they are mainly circular or semiangular (intersemiangular in one species only). Three different exine types are distinguishable: exine with 1) tectum minutely perforate, perforations usually isodiametric, 2) tectum with comparatively large, not isodiametric perforations or 3) coarsely reticulate; supratectal sculpturing elements are lacking; the width of the perforations and lumina is either equal or different at the apo- and mesocolpia; in a few species rod-like luminal processes are present. Palynological features of most of the investigated taxa tend to overlap so that palynology is not very helpful in supporting the subgeneric division of Rondeletia. It was, however, noted that pollen morphology, to some extent, supports the sections of subgen. Arachnothrix. Palynologically, the subgen. Rogiera was found to be heterogeneous in that each of the three investigated species is characterized by a different exine type; one of these, R. strigosa, differs from all other Rondeletia species investigated in having a coarsely reticulate exine. R. odorata (subgen. Rondeletia) differs from all other investigated species in its intersemiangular pollen shape.     

Pollen morphology of Xanthium L. (s.l.) (Asteraceae,Asteroideae, Heliantheae,Ambrosiinae) in the Iberian Peninsula - a palynotaxonomic approach to a poisonous,allergenic and invasive genus

Abstract

The pollen morphology of the Iberian taxa of the genus Xanthium s.l. and of the non-Iberian species X. ambrosioides was studied to help to identify these poisonous, allergenic and invasive taxa and clarify their taxonomic relationships. In addition, the question of the existence and structure of a mesoaperture in the apertural system of Xanthium was also considered. The pollen grains of sections Acanthoxanthium and Xanthium clearly differ by their characters, which supports the separation of both taxa and allows for their distinction based on pollen morphology. It is suggested that the morphological and palynological differences between Xanthium and Acanthoxanthium, together with the lack of hybridisation between the two sections and the monophyly of Acanthoxanthium, could lead to the elevation of the latter to the generic status. The two species of section Xanthium present in the Iberian Peninsula (X. orientale and X. strumarium) and of section Acanthoxanthium are well separated by their palynological features. Likewise, the Iberian subspecies of Xanthium, X. orientale subsp. orientale and X. orientale subsp. italicum are palynologically distinguishable. However, no significant difference could be found between the pollen of X. strumarium subsp. strumarium and of X. strumarium subsp. brasilicum. The pollen data do not support the hypotheses of a hybrid origin for X. strumarium subsp. brasilicum. A mesoaperture intersecting the foot layer and the upper part of the endexine is present in both sections, which is congruent with the results already found for other Asteroideae.     

β-Sheet Models for the Ordered Filamentous Structure Formed by a Peptide That Enhances the Action of Insulin

Certain peptides with sequences related to part of the major histocompatibility complex class I antigen enhance the action of insulin. These peptides also aggregate into fibrous structures that seem to be related to their biological activity. In the current study, the 17-residue peptide with amino acid sequence Gly-Asn-Glu-Gln-Ser-Phe-Arg-Val-Asp-Leu-Arg-Thr-Leu-Leu-Arg-Tyr-Ala is used as a representative example of these bioactive molecules. As seen by electron microscopy, the peptide associates into gently twisted ribbons, 50 Å thick, in which the amount of twist decreases as the ribbons become wider. X-ray diffraction analysis suggests that the peptides are arranged as in an antiparallel β-sheet extending essentially endlessly along the fiber axis. The amino acid sequence of the peptide is such that one side of the β-sheet is predominantly polar while the opposite side is nonpolar. This allows the β-sheets to form multilayers with alternating hydrophobic and hydrophilic interfaces. The length of the extended peptide (≈54 Å) determines the thickness of the ribbon and the tendency of individual β-sheets to twist accounts for the twisting of the ribbons. An alternative model is also discussed, again based on antiparallel β-sheets, but with adjacent sheets interdigitated in a “side-by-side” fashion rather than forming stacked layers. Comparable inactive peptides such as Gly-Asn-Glu-Gln-Ser- A_l_a_-Arg-Val-Asp-Leu-Arg-Thr-Leu-Leu-Arg-Tyr-T_y_r_ (changed amino acids underlined) do not form ordered filamentous structures.     

Parental effects on growth in Solanum conditioned at multiple levels

Summary Reciprocal crosses were made between plants that had nuclear genes of S.tuberosum L. ssp tuberosum combinated, by recurrent backrossing, with cytoplasmic factors of S. phureja Juz. & Buk. and, separately, of S. tuberosum ssp. andigena (Juz. & Buk.) Hawkes. Significant differences in growth between 19 of 23 intra-cytoplasmic reciprocal progenies occurred in vigor at one or more growth stages during the season and/or in yield as measured by tuber number and weight. If no transmission of cytoplasmic factors occurred through the pollen, the cytoplasmic factors of the parents were the same, and these reciprocal differences were caused by parental chromosomal gene mechanisms such as maternal effect, pollen-tube selection, and/or imprinting. Early seedling vigor was, in some cases, associated with greater seed weight, but this did not account for all of the reciprocal contrasts. The data do not show whether these parental effects are a result of maternal and/or paternal effects. Analysis to determine whether parental effect was a single gene character or alleles expressed at two levels, or multi-genic and so expressed at multiple levels, was based on a study of progeny of ten parents that were used in more than one reciprocal pair combination. The data showed that the parents could be classified at eight successive levels of relative effectiveness as staminate or pistillate parents. Of 23 crosses, 19 showed significant differences between reciprocal progenies that were consistent with this eight-level array. The data support the interpretation that parental effect is a multi-genic character.Authorized for publication as paper No. 163 of the Department of Horticulture     

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     

A combined light and scanning electron microscopy study

The uppermost Eocene Florissant Formation, Rocky Mountains, Colorado, has yielded numerous insect, vertebrate and plant fossils. Three previous comprehensive palynological studies investigated sections of lacustrine deposits of the Florissant Formation and documented the response of plant communities to volcanic eruptive phases but overall found little change in plant composition throughout the investigated sections. These studies reported up to 150 pollen and spore phenotypes. In the present paper, we used a taxonomic approach to the investigation of dispersed pollen and spores of the Florissant Formation. Sediment samples from the shale units containing macrofossils were investigated using light microscopy (LM) and scanning electron microscopy (SEM). The general picture of the palynoflora is in agreement with previous studies. However, the combined LM and SEM investigation provides important complementary information to previous LM studies. While a fairly large amount of previous pollen determinations could be confirmed, the purported taxonomic affinities of several pollen phenotypes need to be revised. For example, pollen referred to as Podocarpus or Podocarpidites sp. belongs to the Pinaceae Cathaya, Malus/Pyrus actually belongs to Dryadoideae, pollen of the form genus Boehlensipollis referred to as Proteaceae/Sapindaceae/Elaeagnaceae or Cardiospermum belongs to Sapindaceae but not to Cardiospermum, and pollen of Persicarioipollis sp. B with previously assumed affinities to Polygonaceae actually belongs to Thymelaeaceae. Pandaniidites and one type of Malvacipollis cannot be linked with Pandanaceae and Malvaceae. A few taxa are new records for Florissant (Ebenaceae: Diospyros; Mernispermaceae; Trochodendraceae: Tetracentron). In general, SEM investigations complement the LM palynological studies and improve the identification of dispersed pollen and spores and enable integration of data from dispersed fossil pollen into a wide range of comparative morphological, taxonomic, evolutionary, biogeographic and phylogenetic studies.     

Bumble bee-initiated vibration release mechanism of rhododendron pollen

Although Rhododendron spp. anthers have apical pores and should be expected to be buzz pollinated, bees do not normally sonicate them to release pollen. Stamens were examined to determine their pollen release mechanism; the filaments were shown to have natural vibration modes that cause pollen to be forcibly ejected by vibration, providing the pollen is mature. The first natural vibration mode of the stamens was found to generate centrifugal force sufficient to throw the pollen toward the apical pore and out of the anther, so that it adheres to the anther tip and hangs in the bee's path to the nectaries. These vibrations may be triggered by bees brushing past the long stamens when foraging for nectar, so that the flowers retain their pollen until insect vectors begin foraging on them. The low frequency vibration modes of the viscin threads, which hold the pollen together, may contribute towards the pollen ejection by low frequency stamen vibration. Vibration transmission of dehiscent anthers containing pollen was good from 50 Hz to 850 Hz, suggesting that sonication should be an efficient method of pollen collection, although this rarely occurs. Vibratory ejection occurs at a constant energy level, rather than the constant force levels found in previous research on Actinidia.