Production of reactive oxygen species and reactive nitrogen species by angiosperm stigmas and pollen: potential signalling crosstalk?

Angiosperm stigmas exhibit high levels of peroxidase activity when receptive to pollen. To explore possible function(s) of this peroxidase activity we investigated amounts of reactive oxygen species (ROS), particularly hydrogen peroxide, in stigmas and pollen. Because nitric oxide (NO) was recently implicated in pollen tube growth, we also investigated amounts of NO in pollen and stigmas. Reactive oxygen species accumulation was assessed with confocal microscopy and light microscopy using ROS probes DCFH2-DA and TMB, respectively. NO was assayed using the NO probe DAF-2DA and confocal microscopy. Stigmas from various different angiosperms were found to accumulate ROS, predominantly H2O2, constitutively. In Senecio squalidus and Arabidopsis thaliana high amounts of ROS/H2O2 were localized to stigmatic papillae. ROS/H2O2 amounts appeared reduced in stigmatic papillae to which pollen grains had adhered. S. squalidus and A. thaliana pollen produced relatively high amounts of NO compared with stigmas; treating stigmas with NO resulted in reduced amounts of stigmatic ROS/H2O2. Constitutive accumulation of ROS/H2O2 appears to be a feature of angiosperm stigmas. This novel finding is discussed in terms of a possible role for stigmatic ROS/H2O2 and pollen-derived NO in pollen-stigma interactions and defence.     

6种铁线莲属植物的柱头特征对传粉的适应

为了解传粉过程中柱头对花粉的捕获策略,对6种铁线莲属植物（甘青铁线莲、灌木铁线莲、粉绿铁线莲、薄叶铁线莲、粗齿铁线莲和短尾铁线莲）的柱头显微结构进行扫描电镜观察,发现6种铁线莲属植物的柱头均位于花柱的腹缝面,由花柱腹缝两侧细胞发育成柱头乳突,乳突形状随花期逐步从球状到指状甚至长指状过度,并伴随着柱头受粉面从花柱顶端朝花柱基部渐次发育成熟的特殊发育式样。观察分析6种铁线莲的花部综合征及花粉胚珠比（P/O）发现,柱头的此类发育式样与其他花部构成存在功能上的协同一致。为理解铁线莲属植物花部的进化提供了新的思路和视野,对观赏用铁线莲属植物的育种栽培具参考价值。     

The role of stigma peroxidases in flowering plants: insights from further characterization of a stigma-specific peroxidase (SSP) from Senecio squalidus (Asteraceae)

Angiosperm stigmas have long been known to exhibit high levels of peroxidase activity when they are mature and most receptive to pollen but the biological function of stigma peroxidases is not known. A novel stigma-specific class III peroxidase gene, SSP (stigma-specific peroxidase) expressed exclusively in the stigmas of Senecio squalidus L. (Asteraceae) has recently been identified. Expression of SSP is confined to the specialized secretory cells (papillae) that compose the stigma epidermis. The literature on stigma peroxidases and hypotheses on their function(s) is reviewed here before further characterization of SSP and an attempt to determine its function are described. It is shown that SSP is localized to cytoplasmic regions of stigmatic papillae and also to the surface of these cells, possibly as a component of the pellicle, a thin layer of condensed protein typical of "dry" stigmas. Enzyme assays on recombinant SSP showed it to be a peroxidase with a preference for diphenolic substrates (ABTS and TMB) and a pH optimum of approximately 4.5. In such assays the peroxidase activity of SSP was low when compared with horseradish peroxidase. To explore the function of SSP and other stigmatic peroxidases, levels of reactive oxygen species (ROS) in stigmas of S. squalidus were investigated. Relatively large amounts of ROS, principally H(2)O(2), were detected in S. squalidus stigmas where most ROS/H(2)O(2) was localized to the stigmatic papillae, the location of SSP. These observations are discussed in the context of possible functions for SSP, other peroxidases, and ROS in the stigmas of angiosperms.     

三种耧斗菜属植物柱头的特征

为了深入了解植物捕获花粉的机制和生殖策略,我们对3种耧斗菜属Aquilegia L.植物华北耧斗菜A. yabeana Kitagawa、无距耧斗菜A. ecalcarata Maxim.和秦岭耧斗菜A. incurvata P. K. Hsiao的雌蕊进行了扫描电镜和荧光显微镜观察,发现其柱头发育的特殊式样。其柱头位于花柱的腹缝面,由花柱腹缝两侧细胞发育成柱头乳突,在花期中从顶端朝花柱基部渐次成熟。伴随花柱向外弯曲,成熟的柱头表面相继呈现,逐渐增加了花粉落置的空间。这种柱头发育的式样通过延长柱头的可授期,增加了植物在不可预测的传粉环境下的繁殖机会。     

Stigma development and receptivity of two Kalanchoë blossfeldiana cultivars

Several members of the Kalanchoë genus are popular as ornamental plants. Cross-breeding and wide hybridisation are essential to continuously introduce novel traits into cultivated plant material. This study aimed to identify the major factors related to the stigma affecting cross-pollination in the Kalanchoë blossfeldiana. Pollen tube growth after pollination of K. blossfeldiana ‘Jackie’ and ‘Reese’ was examined at different stigma developmental stages. Five distinct developmental stages were identified based on changes in morphology and activity of stigmatic peroxidase. After reciprocal pollination at the five stigma developmental stages, fluorescence microscopy was used to estimate the number of pollen tubes in situ. Both cultivars had receptive stigmas from stage I to IV, which concurred with the continuous expansion of the stigma covered with exudates. No pollen tube growth was observed at stage V for both cultivars. The number of pollen tubes was significantly higher in carpels pollinated at stage III, characterized by loose arrangement of the papillae and maximal amount of exudates, compared to all other developmental stages. Stigmas showing drying exudates and absence of peroxidase exhibited a relatively decreased number of pollen tubes in situ. No pollen tubes germinated on wilting stigmas. The arrangement of the papillae, the presence of exudates and peroxidase activity affected the number of pollen tubes in cross-pollination of K. blossfeldiana cultivars ‘Jackie’ and ‘Reese’. These results will help breeders to better select the optimal time for effective pollination. The findings may be applicable for other cultivars of K. blossfeldiana and relevant for different species of Kalanchoë.     

The stigmatic orifice in Cassia,Senna, and Chamaecrista (Caesalpiniaceae): morphological variation,function during pollination,and possible adaptive significance

In species of Cassia, Senna, and Chamaecrista an orifice leading into a stigmatic cavity is present at the tip of the style. The size of the orifice, the occurrence and morphology of surrounding trichomes or papillae, and the occurrence of a drop of secretion at its outlet were recorded in 17 species belonging to the three genera of the subtribe Cassiinae. Much of the observed variation in these characters apparently reflects different modes of pollen capturing and varying degrees of secretion exposure. In some of the species studied no secretion was noticeable at the entrance to the stigmatic cavity. The unusual type of stigma in the Cassiinae does not fit into any of the recognized main groups of angiosperm stigmas. It is conjectured that in the buzz-pollinated Cassiinae species with small stigmatic orifices, the secretory material is retained within the stigmatic cavity, to be extruded by vibratory movements of the style induced by a buzzing bee. It is also hypothesized that in the wet tropics, concealment of secretory materials within a cavity prevents their washing away or dilution by rain. Furthermore, in the Cassiinae, the considerable variation in features of the style and of the stigma may function as mechanisms isolating between sympatric, visitor-sharing, concurrently blooming species.     

Two novel reports of semidry stigmatic surface in Asteraceae

Research documents related to the morphology and function of style branches and stigmatic surface of Asteraceae are still rather few, and the literature reports are thus controversial. We report in the present study that the stigmatic surfaces of two non-related species of Asteraceae (Lessingianthus grandiflorus and Lucilia lycopodioides) have features of semidry stigmas. Sporodermis of both species was also analyzed so that we could understand how the stigmatic surface works during pollen deposition and rehydration. Stylar branches and pollen grains (sporodermis) were studied using scanning and transmission electron microscopy (SEM and TEM) and histochemistry techniques. The inner and marginal bands of stylar branches in these species display intermediary features between the dry and wet types of stigma: the cuticle characterizes the dry stigma and cells with secretory activity characterize the wet stigma; these showed differences from what has been described to the Asteraceae family, where stigmatic surface of species from several tribes is considered dry. Pollen grains are medium-size to large with exine ornamentation (echinate and echinolophate) and abundant secretion which latter characterizes pollenkitt. We can assume that two processes might help pollen grain hydration on stigmatic surface in Lessingianthus grandiflorus and Lucilia lycopodioides: (1) the presence of pollenkitt, as observed in the secretory content inside exine cavities and around pollen grains; and (2) the secretory activity of stigmatic surface cells, whose secretion accumulates among intercellular and subcuticular spaces and leads to cuticle disruption during the floral receptive phase. Our results suggest that ultrastructural and histochemical studies should be considered when describing stigmatic surface and that the “semidry” feature within Asteraceae should be investigated still more in detail, so that the taxonomic or adaptation value of this trait in the family can be verified.     

DEVELOPMENT OF THE STIGMATIC SURFACE OF PRUNUS AVIUM L., SWEET CHERRY

The stigmatic papillae of sweet cherry were examined to determine developmental characteristics of the wet-stigma surface. Early stages of secretion are detectable 1 wk prior to anthesis by using a 1% crystal violet solution. The number of stainable cells and the amount of interstitial staining subsequently increase, although secretions are not visible on unstained specimens until anthesis. Auto-fluorescence above 500 nm (excited by 335–480 nm) becomes microscopically detectable at floral maturity and grows more intense after anther dehiscence. Light microscopy of plastic sections shows that papillae degenerate in peripheral regions of unpollinated mature stigmas, and that this is even more pronounced in pollinated ones. The distal portions of the papillae are covered with a homogeneous cuticular cap, which when viewed with electron microscopy encloses a subcutaneous secretion prior to cuticle exfoliation. Other exudates observed with electron microscopy prior to anthesis are interstitial electron-translucent globules and surrounding matrix, and assorted vesicles, lipid globules, and starch grains which are present at floral maturity. Flowers observed under field conditions in the terminal secretion stage accumulate trichomatous structures. Our observations indicate that the stigma of Prunus avium L. is characterized by several phases of secretion which appear to be facilitated by mechanical abrasion. A model for the primary pollen-receptive area is proposed and suggestions are made concerning the origin of the secretions.     

The dry and wet stigmas ofPrimula obconica: Ultrastructural and cytochemical dimorphisms

Summary The stigmatic papillae of the distylous speciesPrimula obconica are studied by means of cytochemical, light and electron microscopic techniques. The papillae on thrum stigmas are smaller than those on pin stigmas. At the bud stage, secretory vesicles are not a conspicious part of the cytoplasm, although certain signs of secretory activity are present. The young papillae bear the thin, superficial pellicle typical to dry stigmas. Small vesicles are numerous in mature papillae of both morphs, and seem to originate from the ER. A layer of closely packed, osmiophilic globuli is present in the outermost part of mature walls of pin papillae. At sites with cuticle disruption, the globuli seem to migrate outwards to be incorporated with the copious, blistery exudate. Due to this exudate the pin stigma is characterized as wet. Cytochemical tests suggest that the exudate contains mainly lipids, and different carbohydrates and protein are detected. It reacts positively in tests for peroxidase, acid phosphatase, and non-specific esterases. The thrum stigma remains dry at maturity, with a distinct pellicle also reacting positively to the enzyme tests. Only a few, scattered osmiophilic globuli, sized and situated as those in the pin papillae walls, are found in the thrum walls, and they do not form a proper layer.Thus the generally accepted correlation between dry stigmas and the sporophytic kind of self-incompatibility system is not substantiated withinP. obconica, and the possible influence of the dimorphisms to the pollen/stigma interaction is discussed.     

Expression of a polygalacturonase enzyme in germinating pollen of <Emphasis Type="Italic">Brassica napus</Emphasis>

Penetration of pollen tubes through stigmatic tissues in Brassica napus L. may involve the release of cell wall modifying enzymes from the pollen tube tip. We examined the expression of a pectin-degrading polygalacturonase (PG) enzyme in unpollinated and early and late pollinated stigmas via immunoblotting and immuno-light microscopy using a PG polyclonal antibody. Immunoblotting analysis indicated that PG enzyme was present at low levels in unpollinated stigmas and at high levels in pollinated stigmas. The level of PG did not detectably increase between early and late pollinated stigmas. Immuno-light microscopy demonstrated that PG enzyme was present in ungerminated pollen grains, stigmatic papillae and in the tip of pollen tubes growing into the papillar wall. This latter evidence suggests that PG enzyme may play an important role in papillar cell wall penetration during pollination although other interpretations of the role of pollen PG should not be discounted. Received: 9 November 2000 / Accepted: 7 December 2000     

Isolation and characterization of a polymorphic stigma-specific class III peroxidase gene from <Emphasis Type="Italic">Senecio squalidus</Emphasis> L. (Asteraceae)

A novel stigma-specific class III peroxidase gene, SSP (Stigma-Specific Peroxidase), has been isolated from the self-incompatible daisy Senecio squalidus L. (Asteraceae). Expression of SSP in flower buds is developmentally regulated, with maximal levels of expression coinciding with anthesis, when stigmas are most receptive to pollen and when self-incompatibility is fully developed. In situ hybridization revealed SSP expression to be localized exclusively to the specialized secretory epidermal cells (papillae) of the stigma, which receive and discriminate pollen. SSP is therefore the first tissue-specific and cell-specific peroxidase gene identified in a plant. SSP belongs to a distinct clade of class III plant peroxidases that possess two introns, instead of the more normal situation of three conserved introns. The deduced amino acid sequence of SSP revealed a 27 amino acid signal peptide, suggesting that the SSP protein is secreted to the cell wall of the stigmatic papillae. In-gel peroxidase activity assays showed that SSP has relatively low peroxidase activity compared to other, as yet uncharacterized, peroxidases present in stigmatic extracts. Six SSP alleles have been cloned from different lines of S. squalidus carrying a range of self-incompatibility (S)-alleles but there was no consistent association between the presence of a particular SSP allele and S-genotype indicating that SSP is not the female determinant of SSI in S. squalidus. Nevertheless, the precise expression of SSP in stigmatic papillae suggests that it may have a more general function in pollen–stigma interactions, or alternatively in protection of stigmas from pathogen attack. Extensive database screens have identified homologues of SSP in other plant species, but available expression data for these genes indicates that none are flower-specific, suggesting that SSP represents a new functional type of class III peroxidase specific to the stigma. We discuss the possible function(s) of S. squalidus SSP in pollen–stigma interactions and in protection of stigmas from pathogen attack.     

Fine Structure and Cytochemistry of the Stigma Surface and Incompatibility in some Distylous Linum Species

The receptive surface of the stigma in distylous Linum grandiflorumand L. pubescens was studied by electron microscopy and cytochemicaltechniques. In both floral morphs a proteinaceous-lipoidal coatingis present on the papilla surface. In thrum stigmas the cuticleis highly irregular and pitted at the papilla tip. The cuticleis dislodged and torn at anthesis and an osmiophilic secretionproduct is released within a pectinaceous matrix. The secretionproduct stains for proteins and lipids and contributes to adhesionof pollen. In the larger pin papillae the cuticle is wavy, continuous,thicker than in thrum papillae and adjoins the cell wall. Inboth species the surface of the two types of pollen grains iscoated with lipids and protein. A similar behaviour of the male gametophyte is observed in incompatiblepollinations of L. pubescens, L. mucronatum and L. grandiflorum.In intramorph thrum pollinations pollen tubes are arrested withinthe stigma. In intramorph pin pollinations the majority of pollengrains fail to adhere to the stigma. Low permeability to waterin pin papillae, as determined by the neutral red test, maybe a factor preventing imbibition of the few adhering grains.Tubes of the few germinated grains are inhibited inside thestigma. On the part of the stigma, the difference in the major siteof inhibition in the two intramorph incompatible combinationsmay be accounted for by the dissimilar properties of the papillae,i.e. the occurrence of wet thrum stigmas and dry pin stigmas.Functionally, the unusual association of sporophytic incompatibilitywith wet thrum stigmas is attributed to retention of the secretorymaterial on individual papillae. Stigmatic papillae, cuticle, pollen coat, distyly, incompatibility, Linum grandiflorum, L. pubescens, L. mucronatum     

The control of incompatibility in distylous Pulmonaria affinis Jordan (Boraginaceae)

In P. affinis, pin pollen is shorter on average than thrum pollen. Pins have more coronal hooks on stigmatic papillae than thrums, but gaps between papillae are relatively smaller for thrums. Pin stigmas receive more pollen than thrum stigmas. Thrum stigmas receive more (dissortive) pin pollen, but pin stigmas are assortively pollinated. Pollen only germinates when trapped below papilla coronas. On thrum stigmas, most trapped pollen is pin. Pollen germination is better on thrum stigmas than pin stigmas, and thrum stigmas show a close relationship between numbers of legitimate pollen grains, numbers of germinating grains, and numbers of pollen tubes in the style. There is no inhibition of illegitimate pollen germination. Illegitimate pollen tubes are inhibited in the style. Incompatibility operates by a combination of dissortive pollination, dissortive pollen trapping, and stylar pollen tube inhibition. All heteromorphic features differing between pins and thrums are implicated in the inhibition of within-morph fertilization in thrums.     

Ultrastructural Studies on the Pollen-stigma Interaction of Intersectional Hybridization in Populus

The ultrastructural changes of pollen-stigma interaction were studied under artificial pollination in intersectional crosses of Populus lasiocarpa Oliv. × P. nigra L., P. lasiocarpa Oliv. × P. simonii Cart., P. lasiocarpa Oliv. × P. adenopoda Maxim. and P. lasiocarpa Oliv. X P. lasiocarpa Oliv. The results are as follows. Before pollination, the stigmatic cells of P. lasiocarpa containing large amounts of endo- plasmic reticulum, abund ant dictyosomes and well-developed mitochondria appear physiologi- cally active. Its outer wails are covered by a layer of cuticle with numerous branching channels toward the outer space. When the pollens of P. lasiocarpa and P. nigra are dusted, respectively, to the stigma of P. lasiocarpa, the degeneration of the stigmatic cells are rather slow. The cuticle of the stigma surface just adjacent to the alighting pollen is dissolved, but the cell contents still have large amounts of endoplasmic reticulum and the structure of the membrane system remains distinctly. When the pollens of P. simonii and P. adenopoda are forced, respectively, upon the stigma of P. lasiocarpa, the stigmatic cells degenerate rapidly. In addition to the disruption of the cuticle, heavy callose is deposited on the walls of the stigma cells adjoining the dropping pollens. Numerous vesicles are formed by the rough endoplasmic reticulum, and the electron density is increasing. The structure of the membrane system disappears gradually and becomes indistinct. Osmiophilic globuli occurs in the central vacuole. Plastids accumulate starch grains. The behavior of pollen tubes of P. nigra is similar to that of P. lasiocarpa. The pollen grains germinate rapidly and the pollen tubes penetrate into the stigma after the short-tube patten. Abnormal behavior is rare. A lot of minute exudates appear on the pollen walls. As for P. lasiocarpa × P. simonii and P. lasiocarpa × P. adenopoda, only half of the tubes can penetrate into the stigma after short-tube patten and is associated with callose deposition on the walls. The other half arresting on the stigma surface shortly after germination shows abnormal behavior; such as swelling, creeping, bursting, twisting and distortion with callose deposition on the tip of the pollen tubes. As a result of our experiments, It is concluded that the degeneration speed of the stigmatic cells may be a sign of incompatibility and the crossability in progamic phase may arrange as follows: P. lasiocarpa × P. nigra, P. lasiocarpa × P. simonii, P. lasiocarpa × P. adenopoda. The first one is compatible while the second and the third are incompatible.     

Asynchronous development of stigmatic receptivity in the pear (Pyrus communis; Rosaceae) flower

While stigma anatomy is well documented for a good number of species, little information is available on the acquisition and cessation of stigmatic receptivity. The aim of this work is to characterize the development of stigma receptivity, from anthesis to stigma degeneration, in the pentacarpellar pear (Pyrus communis) flower. Stigma development and stigmatic receptivity were monitored over two consecutive years, as the capacity of the stigmas to offer support for pollen germination and pollen tube growth. In an experiment where hand pollinations were delayed for specified times after anthesis, three different stigmatic developmental stages could be observed: (1) immature stigmas, which allow pollen adhesion but not hydration; (2) receptive stigmas, which allow proper pollen hydration and germination; and (3) degenerated stigmas, in which pollen hydrates and germinates properly, but pollen tube growth is impaired soon after germination. This developmental characterization showed that stigmas in different developmental stages coexist within a flower and that the acquisition and cessation of stigmatic receptivity by each carpel occur in a sequential manner. In this way, while the duration of stigmatic receptivity for each carpel is rather short, the flower has an expanded receptive period. This asynchronous period of receptivity for the different stigmas of a single flower is discussed as a strategy that could serve to maximize pollination resources under unreliable pollination conditions.     

Morphological diversity and function of the stigma in Ficus species (Moraceae)

The stigma plays several roles such as pollen hydration and selection, and pollen tube nutrition. In the Ficus-fig wasp mutualism, stigmata have an additional, almost unknown, function by representing a physical interface for both plant and wasp reproduction. We used light and electron microscopy to compare the detailed morphology of the stigmata of nine Ficus species of different sections and with different pollination modes and sexual expressions. Figs were collected at the stage when the stigmata were receptive for pollination. Stigmata in actively pollinated monoecious species have well developed papillae concentrated on the adaxial surface exposed towards the fig cavity. Conversely, the passively pollinated monoecious species have the whole surface of the stigmata covered by somewhat smaller papillae. In both actively and passively pollinated monoecious species these features are consistent, irrespective of style length. In all actively pollinated gynodioecious species, the stigmata of pistillate flowers were tubular or infundibuliform whereas in almost all actively pollinated monoecious species (except F. racemosa) the stigmata were filiform, with one branch or two asymmetric branches. In gynodioecious species the short-styled flowers in “male” figs show a limited receptive surface with small papillae, while the stigmata of long-styled flowers in “female” figs are covered by papillae that extend down the sides of the style, increasing the stigmatic surface. In actively pollinated species, stigmata are cohesive, forming a common surface for pollen tube germination (= synstigma). The synstigma arrangement was quite variable: lax, cohesive or very cohesive, with entanglement by stigmatic papillae and stylar trichomes. Entanglement by stylar trichomes is common in gynodioecious species. The synstigma arrangement did not correlate with phylogeny or breeding system. This study is the first to report a very loose synstigma in actively pollinated monoecious Ficus species. Our analyses revealed that, in Ficus, the synstigma is functionally analogous to an extra-gynoecial compitum. Comparative studies will be required to test further hypotheses about the evolutionary determinants of such variation.     

Structure of the stigma and style of <Emphasis Type="Italic">Callaeum psilophyllum</Emphasis> (Malpighiaceae) and its relation with potential pollinators

The family Malpighiaceae, particularly in the Neotropic, shows a similar floral morphology. Although floral attraction and rewards to pollinators are alike, stigmas and styles show more diversity. The stigmas were described covered with a thin and impermeable cuticle that needs to be ruptured by the mechanical action of the pollinators. However, this characteristic was only mentioned for a few species and the anatomy and ultrastructure of the stigmas were not explored. In this work, we analyze the morphology, anatomy, and ultrastructure of the stigma and style of Callaeum psilophyllum. Moreover, we identify the potential pollinators in order to evaluate how the disposition of the stigmas is related with their size and its role in the exposure of the receptive stigmatic surface. Our observations indicate that Centris flavifrons, C. fuscata, C. tarsata, and C. trigonoides are probably efficient pollinators of C. psilophyllum. The three stigmas are covered by a cuticle that remained intact in bagged flowers. The flowers exposed to visitors show the cuticle broken, more secretion in the intercellular spaces between sub-stigmatic cells and abundant electron-dense components inside vacuoles in stigmatic papillae. This indicates that the stigmas prepares in similar ways to receive pollen grains, but the pollinator action is required to break the cuticle, and once pollen tubes start growing, stigmatic and sub-stigmatic cells release more secretion by a granulocrine process.     

Differential localization of enzymes in the stigmatic exudates ofPrimula obconica

Summary The stigmatic dimorphisms in the distylous speciesPrimula obconica, which has been dealt with in an earlier paper, has been described further. An ultrastructural localization of various enzymes in the exudates is hereby revealed, and evidence is given for intermorph differences. Esterases are confined to the lipid phase of the exudates, including the lipid globuli in the papillae walls of both morphs, but they are not found in the pellicle of the dry thrum stigma. However, this pellicle exhibits acid phosphatase activity, as does the lumen of the blisters in the viscous exudate on pin stigmas. The blisters are presumed to hold the watery phase of the pin secretion. From the present findings and from previous results with LM cytochemical methods it is suggested that the sites of peroxidase activity resemble those of acid phophatases.     

Secretory Activity Is Rapidly Induced in Stigmatic Papillae by Compatible Pollen,but Inhibited for Self-Incompatible Pollen in the Brassicaceae

[In the Brassicaceae, targeted exocytosis to the stigmatic papillar plasma membrane under the compatible pollen grain is hypothesized to be essential for pollen hydration and pollen tube penetration. In contrast, polarized secretion is proposed to be inhibited in the stigmatic papillae during the rejection of self-incompatible pollen. Using transmission electron microscopy (TEM), we performed a detailed time-course of post-pollination events to view the cytological responses of the stigmatic papillae to compatible and self-incompatible pollinations. For compatible pollinations in Arabidopsis thaliana and Arabidopsis lyrata, vesicle secretion was observed at the stigmatic papillar plasma membrane under the pollen grain while Brassica napus stigmatic papillae appeared to use multivesicular bodies (MVBs) for secretion. Exo70A1, a component of the exocyst complex, has been previously implicated in the compatible pollen responses, and disruption of Exo70A1 in both A. thaliana and B. napus resulted in a loss of secretory vesicles/MVBs at the stigmatic papillar plasma membrane. Similarly, for self-incompatible pollinations, secretory vesicles/MVBs were absent from the stigmatic papillar plasma membrane in A. lyrata and B. napus; and furthermore, autophagy appeared to be induced to direct vesicles/MVBs to the vacuole for degradation. Thus, these findings support a model where the basal pollen recognition pathway in the stigmatic papilla promotes exocytosis to accept compatible pollen, and the basal pollen recognition pathway is overridden by the self-incompatibility pathway to prevent exocytosis and reject self-pollen.