Polyamines and Flower Development in the Male Sterile Stamenless-2 Mutant of Tomato (Lycopersicon esculentum Mill.) : II. Effects of Polyamines and Their Biosynthetic Inhibitors on the Development of Normal and Mutant Floral Buds Cultured in Vitro

The floral organs of the male sterile stamenless-2 (sl-2/sl-2) mutant of tomato (Lycopersicon esculentum Mill.) contain significantly higher level of polyamines than those of the normal (R Rastogi, VK Sawhney [1990] Plant Physiol 93: 439-445). The effects of putrescine, spermidine and spermine, and three different inhibitors of polyamine biosynthesis on the in vitro development of floral buds of the normal and sl-2/sl-2 mutant were studied. The polyamines were inhibitory to the in vitro growth and development of both the normal and mutant floral buds and they induced abnormal stamen development in normal flowers. The inhibitors of polyamine biosynthesis also inhibited the growth and development of floral organs of the two genotypes, but the normal flowers showed greater sensitivity than the mutant. The inhibitors also promoted the formation of normal-looking pollen in stamens of some mutant flowers. The effect of the inhibitors on polyamine levels was not determined. The polyamine-induced abnormal stamen development in the normal, and the inhibitor-induced production of normal-looking pollen in mutant flowers support the suggestion that the elevated polyamine levels contribute to abnormal stamen development in the sl-2/sl-2 mutant of tomato.     

Proteinase inhibitor II is developmentally regulated in Nicotiana flowers

Proteinase inhibitors (PI) are expressed in several members of the Solanaceae. According to species, PI can be both developmentally and environmentally regulated. We investigated the presence and developmental regulation of PI in the flowers of Nicotiana plumbaginifolia. By trypsin affinity chromatography a small protein, Np-PI-II, was isolated. This protein had an N-terminus similar to a part of a Nicotiana alata PI-II, and an inhibitory activity towards trypsin. Inhibitory activity is expressed at very early stages of floral development. No inhibitor is present in the vegetative meristems. The inhibitory activity remains high throughout flower maturation and rapidly declines in the ovary after pollination. In the stigma of mature Nicotiana tabacum flowers trypsin inhibitory activity is detected extracellularly. Proteinase inhibitor activity is not a regular feature of the stigmas of several solanaceous genera.
Proteinase inhibitors apparently have no function in the development of floral structures and probably act as protective agents against fungal infection of and insect damage to the floral parts and the developing fruit.     

Defense response in non-genomic model species: methyl jasmonate exposure reveals the passion fruit leaves’ ability to assemble a cocktail of functionally diversified Kunitz-type trypsin inhibitors and recruit two of them against papain

Main conclusion

Multiplicity of protease inhibitors induced by predators may increase the understanding of a plant’s intelligent behavior toward environmental challenges. Information about defense mechanisms of non-genomic model plant passion fruit (Passiflora edulis Sims) in response to predator attack is still limited. Here, via biochemical approaches, we showed its flexibility to build-up a broad repertoire of potent Kunitz-type trypsin inhibitors (KTIs) in response to methyl jasmonate. Seven inhibitors (20–25 kDa) were purified from exposed leaves by chromatographic techniques. Interestingly, the KTIs possessed truncated Kunitz motif in their N-terminus and some of them also presented non-consensus residues. Gelatin-Native-PAGE established multiple isoforms for each inhibitor. Significant differences regarding inhibitors’ activity toward trypsin and chymotrypsin were observed, indicating functional polymorphism. Despite its rarity, two of them also inhibited papain, and such bifunctionality suggests a recruiting process onto another mechanistic class of target protease (cysteine-type). All inhibitors acted strongly on midgut proteases from sugarcane borer, Diatraea saccharalis (a lepidopteran insect) while in vivo assays supported their insecticide properties. Moreover, the bifunctional inhibitors displayed activity toward midgut proteases from cowpea weevil, Callosobruchus maculatus (a coleopteran insect). Unexpectedly, all inhibitors were highly effective against midgut proteases from Aedes aegypti a dipteran insect (vector of neglected tropical diseases) opening new avenues for plant-derived PIs for vector control-oriented research. Our results reflect the KTIs’ complexities in passion fruit which could be wisely exploited by influencing plant defense conditions. Therefore, the potential of passion fruit as source of bioactive compounds with diversified biotechnological application was strengthened.     

杜仲雄花芽2个发育时期转录组分析

杜仲（Eucommia ulmoides）雄花富含多种活性成分和营养成分,具有重要的药用和营养价值。为了揭示杜仲雄蕊原基发育相关基因的表达情况,为杜仲雄花芽发育分子调控机制研究提供理论参考。本文以杜仲良种"华仲11号"（ "Huazhong No.11" ）为材料,采用lllumina高通量测序技术,分别对苞叶原基分化期和雄蕊原基分化期的花芽进行转录组测序,通过生物信息学对2个发育时期的转录组进行比较分析,筛选出与雄花芽形态发育相关的差异基因。结果显示,转录组测序共获得40.48 Gb过滤数据,各样品的clean reads与杜仲基因组进行序列比对,比对效率为90.56%~93.01%。在2个发育时期筛选出583个差异表达基因,其中在雄蕊原基发育期上调基因315个,下调基因267个。差异基因GO和KEGG功能分析显示,差异基因富集在与生长发育、光周期途径、激素合成和信号传导、碳代谢等相关的生物过程和代谢通路。结果显示光周期途径是杜仲成花诱导的重要途径,同时雄花芽在形态分化过程中受碳水化合物、植物激素和其他代谢物质调控。此外,MADS-box家族成员FLC、SOC1、AGL3和AGL8参与杜仲雄蕊器官发育。本研究为杜仲花发育基因调控提供了基础数据,也为雄花用杜仲的分子育种提供了参考。     

FLORAL DEVELOPMENT AND STAMEN FILAMENT ELONGATION IN CLEOME HASSLERIANA

Floral development in Cleome hassleriana is briefly described. Experimental evidence is presented supporting the hypothesis that the anthers control stamen filament elongation by supplying IAA rather than kinetin or gibberellic acid. This control depends upon the developmental stage of the bud and does not exclude the effect of other floral organs on stamen filament elongation at early developmental stages. Evidence that the anthers also partially control stamen filament and floral abscission by supplying IAA is given.     

Proteolytic enzymes; further studies on protein,polypeptide, and other inhibitors of serum proteinase,leucoproteinase, trypsin,and papain

1. Serum proteinase precursor was found in plasma protein fractions I and III of Cohn. Inhibitors of serum proteinase, leucoproteinase, trypsin, and papain were found in fractions IV-1 and IV-4, and to a lesser extent in fractions V and I. 2. Pancreatic, soy bean, lima bean, and egg white inhibitors inhibited trypsin stoichiometrically. Pancreatic inhibitor had comparable inhibitory activity against serum proteinase; soy bean inhibitor had somewhat less, lima bean inhibitor even less, and egg white inhibitor very little. None of these inhibitors appreciably inhibited leucoproteinase or papain. 3. Serum and fractions IV - 1 and IV - 4 had marked inhibitory activity against trypsin and leucoproteinase, and somewhat less against serum proteinase and papain. The inhibitory activity of the plasma proteins against trypsin and leucoproteinase was due almost entirely to fractions IV - 1 and IV - 4; against serum proteinase and papain fraction V was slightly more important. The "reconstituted plasma proteins" accounted for 8 to 25 per cent of the proteinase-inhibitory activity of whole serum or plasma. 4. The proteinase-inhibitory activity of serum, plasma protein fractions, and soy bean inhibitor was heat labile, while that of pancreatic, lima bean, and egg white inhibitors was relatively heat stable. 5. Reducing and oxidizing agents, in very high concentration, inhibited serum proteinase, as well as trypsin and leucoproteinase. These proteinases were not influenced by mercurial sulfhydryl inhibitors, indicating that free sulfhydryl groups do not play an important part in their activity.     

Presence of Malformin-Like Substances in Malformed Floral Tissues of Mango

Malformin-A like substances were detected in malformed floral tissues of mango at four stages of development, viz., fully swollen buds, bud inception, fully grown panicles prior to full bloom and in panicles at full bloom. Spraying with 2000 ppm ascorbic acid, prior to flower bud differentiation significantly reduced the incidence of malformation and resulted in increased fruit yield.     

Isolation of a partial sequence of a putative nucleotide sugar epimerase, which may involve in stamen development in cucumber (Cucumis sativus L.)

Sex determination is the most widely studied subject in cucumber. The sex of cucumber plants can be monoecious, hermaphrodite, gynoecious, androecious, or andromonoecious. Besides environmental factors, three major genes, F/f, M/m, and A/a mainly govern the sex types in cucumber. Regardless of their sex all floral buds are bisexual at the early bud stage. A stage specific arrest of either stamen or carpel leads to unisexual flower development. The possible downstream product of the interaction of the sex determining genes that may directly allow the growth or selectively arrest stamen or pistil is not yet identified. Therefore, in the current study, we performed suppression subtractive hybridization using floral buds from nearly isogenic gynoecious and hermaphrodite cucumber plants and identified for the first time a cDNA homologous to nucleotide sugar epimerase. The expression level of the isolated putative nucleotide sugar epimerase is weak in female floral buds but strong in bisexual and male flowers. The weak level of the putative nucleotide sugar epimerase may be an indication for its improper functioning, which may influence stamen development in cucumber plants.     

The formation and distribution of ice within dormant and deacclimated peach flower buds

Abstract A freeze-fixation technique was used to examine the distribution of ice crystals and the pattern of freezing in peach flower buds. In dormant buds, ice crystals formed at localized sites within the bud axis and scales. Ice crystal formation disrupted tissues and mechanical injury from repetitive freezethaw cycles was apparent. There was evidence of ice formation in the floral organs of dormant buds exposed to ?25°C but none observed in buds exposed to either ?5 or ?10°C. The distribution of ice crystals was different in deacclimated buds. In addition to large ice crystals within the subtending bud axis and scales, evidence of large crystals within the developing floral organs was noted. These crystals were most prominent in the lower portions of the developing flower and peduncle, and caused a separation of the epidermal layer from adjacent cells. The distribution of ice crystals within both dormant and deacclimated peach flower buds corroborated the results of previous thermal analysis experiments.     

Protein profiles in pin and thrum floral organs of distylous Averrhoa carambola L.

Floral organs (tepal, stamen, style, including stigma, and ovary) from immature and mature (1 day prior to anthesis) flower buds of pin and thrum morphs of Averrhoa carambola were subjected to one and two-dimensional IEF/SDS-PAGE gel electrophoresis and visualized by silver staining. One-dimensional gel electrophoresis of organ extracts from mature floral buds showed a number of protein bands common to all organs in both pin and thrum morphs. In the stamen and style, these bands differed in intensity between the two morphs. Under two-dimensional gels, the differences in protein profiles between the two morphs were more distinct in these organs. When compared with polypeptide spots from leaflets, a total of 14 floral organ-specific polypeptides was detected, the majority appearing in the stamen, followed by the style but none in the ovary. In the stamen, most of these polypeptides were detected in both the pin and thrum morphs. However, in the style, a 72-kDa polypeptide was detected exclusively in the pin morph, and this was also the most abundant floral organ-specific polypeptide. Floral organ-specific polypeptides of 45 kDa (detected in stamens of the thrum morph) and 70 kDa (detected in stamen and style of both morphs) were found to bind concanavalin A.     

Protease inhibitors from ripened and unripened bananas.

The proteolysis of casein by trypsin, chymotrypsin and papain was inhibited by ripened and unripened bontha, poovan, nendran, cavendish and rasthali bananas. The inhibition of trypsin, chymotrypsin and papain by different ripened banana cultivars was much more than that of unripened banana cultivars. The trypsin and chymotrypsin inhibitory activity of ripened poovan was heat stable, resistant to pronase and partly stable to trypsin but the trypsin and chymotrypsin inhibitory activity of unripened poovan was stable to heat and resistant to pronase only. The partial stability of trypsin inhibitory activity and instability of papain inhibitory activity of ripened poovan to alkaline pH suggests that the inhibitory factors of trypsin and papain were dissimilar. The probable role of unripened banana papain inhibitors in curing stomach ulcers and antinutritional role of ripened banana trypsin inhibitors is discussed.     

The Exogenous Hormornal Control of the Development of Regenerated Flower Buds in Hyacinthus orientalis

The critical role of exogenous hormone on inducing the initiation of different floral organs in the regenerated flower bud and controlling their numbers was further evidenced. The initiation of the flower buds was first induced from the perianth explants of Hyacinthus orientalis L. cv. White pearl by a combination of 2 mg/L 6-BA and 0.1 mg/L 2,4-D, and then a continuous initiation of over 100 tepals (a flower bud of H. orientalis in situ has only 6 tepals) was successfully controlled by maintenance of such a hormone concentration. However, a change of hormonal concentration (2 mg/L 6-BA and 0-0.000 1 mg/L 2,4-D) caused cessation of continuous initiation of the tepals but gave rise to induction of stamen initiation. Keeping the changed hormone concentrations could successfully control the continuous initiation of over 20 stamens (a flower bud of H. orientalis in situ has only 6 stamens). The experiment showed that the number of identical floral organs in the regenerated flower buds can be controlled by certain defined concentrations of the exogenous hormones, and the amount of the induced identical floral organs has no effect on the differentiation sequence of the different floral organs in the regenerated flower bud. Based on a systematic research on controlling the differentiation of the floral organs from both the perianth explants and the regenerated flower buds by the exogenous hormones in H. orientalis over the past decade, the authors put forward here a new idea on the role of phytohormone in controlling the automatic and sequential differentiation of the different floral organs in flower development. The main points are as follows: 1. the development of flower bud in plant is a process in which all of the floral organs are automatically and sequentially differentiated from the flower meristem. 2. Experiments in vitro showed that the effect of exogenous hormones in controlling the initiation of different floral organs is strictly concentration dependent, i.e., one kind of the floral organ can continuously and repeatedly initiate from the flower meristem as long as it is maintained in that specific concentration of the exogenous hormone which is suitable for the initiation of that particular kind of floral organ. 3. It shows that the flower buds in situ must be automatically able to adjust the endogenous hormonal concentrations just after the completion of the differentiation of one whorl of floral organ to suit the differentiation of the next whorl. Thus, the phytohormone in different concentrations takes after many change-over switches of the organ differentiation and plays a connective and regulatory role between the differentiation of every two whorls of the floral organ. In other words, these change-over switches play the roles of inhibiting the expression of the genes which control the initiation of the floral organs in the first whorl, meanwhile, activating the expression of the genes which control the initiation of the floral organs in the second whorl during the successive initiation of the different floral organs from the flower bud. It results in the automatic and sequential initiation of the various floral organs from the floral meristem.      

罗汉果花芽分化过程中形态及其激素水平变化特征

采用石蜡切片和酶联免疫法(ELISA)对罗汉果雄性、雌性、两性花芽分化过程的形态和激素水平变化进行观测,为罗汉果开花调控和品种选育提供科学依据。结果表明:(1)罗汉果雄性、雌性、两性花的花芽分化过程均可分为花芽未分化期、花芽分化初期、花序分化期、萼片原基分化期、花瓣原基分化期、雄蕊原基分化期和雌蕊原基分化期7个阶段。雄蕊原基分化期前,3种花芽分化过程无明显差异,各时期形态特征均依次为:茎端呈圆锥状(花芽未分化期)→茎端经半球形变成扁平状(花芽分化初期)→距茎端5~7节位处分化出穗状花序(花序分化期)→小花原基周围形成5个萼片原基(萼片原基分化期)→萼片原基内侧形成5个花瓣原基(花瓣原基分化期)。雄蕊和雌蕊原基分化期,3种花芽分化过程存在明显差异,雄蕊原基内侧出现雌蕊原基后,雄花芽雄蕊原基继续发育成雄蕊,雌蕊原基停滞生长,退为一个小突起;雌花芽雌蕊原基继续发育成雌蕊,雄蕊原基生长缓慢,退化为小花丝;两性花芽雌蕊和雄蕊原基均继续发育,形成外观正常的雌蕊和雄蕊。(2)内源激素脱落酸(ABA)、赤霉素(GAs)和玉米素核苷(ZR)含量在3种花芽分化过程中变化规律相似,即ABA含量在花芽生理分化期降低,花芽形态分化期升高,而GAs和ZR含量则基本保持不变;吲哚乙酸(IAA)含量在3种花芽分化过程中变化存在明显差异,雌花芽IAA含量在花芽生理分化期升高,花芽形态分化期逐渐降低,而雄性和两性花芽的IAA含量则基本保持不变。ABA/GAs、ABA/IAA、ZR/IAA和ZR/GAs激素含量比值在3种花芽分化过程中变化规律相似,ABA/GAs在花芽生理分化期降低,花芽形态分化期升高,而BA/IAA、ZR/IAA和ZR/GAs则基本保持不变。研究认为,罗汉果花芽分化过程经历一个"两性期",高ABA含量和ABA/GAs比值有利于罗汉果花芽分化,IAA可能对罗汉果花性分化具有重要作用。     

Proteinase Inhibitors in the Nonvenomous Defensive Secretion of Grasshoppers: Antiproteolytic Range and Possible Significance

The defensive secretion produced in the metathoracic tracheal glands of the grasshoppers, Romalea guttata and Taeniopoda eques, contains a diversity of proteinase inhibitors. The exudate contains inhibitors of trypsin, chymotrypsin, cathepsin G, papain and pancreatic and leukocyte elastases. The inhibitory profile of the secretion differs markedly from that of the hemolymph both, in terms of antiproteolytic activities and isoinhibitor composition. We suggest that these proteinase inhibitors may constitute a complementary defense system, for example, directed against diverse entomopathogenic fungi that characteristically attack grasshoppers.     

Change in plasma membrane ATPase activity during dormancy release of vegetative peach-tree buds

Plant dormancy and dormancy breaking depend, at least partially, on peculiar short distance relationships between buds and tissues underlying buds (bud stands). In peach-tree, it was previously observed that dormancy was related to a high nutrient absorption capacity in tissues underlying buds. This situation could be linked to higher plasma membrane ATPase activity (EC 3.6.1.3), inducing a higher nutrient absorption, in bud stands. This work consists of characterization of the plasma membrane ATPase activity in vegetative buds and bud stands during the rest period and dormancy release. During the dormant period (October and November), plasma membrane ATPase activity was found to be higher in bud stands than in buds. This was correlated with a lower amount of plasma membrane ATPase in buds compared to bud stands during this period. Moreover, plasma membrane ATPase activation by trypsin treatment was not the same in both tissues and different levels of ATPase activation could be noted within the same tissue during the different stages of dormancy release. According to these results, it can be postulated that dormancy release in peach-tree, is related to modifications of plasma membrane ATPase properties in buds and bud stands during winter time.     

Protease inhibitors in plasma of the softshell clam Mya arenaria: identification and effects of disseminated sarcoma

Despite the ecologic and economic significance of the softshell clam (Mya arenaria), little is known about the humoral factors involved in its host defense mechanisms. Protease inhibitors, a group of proteins believed to play a role in host defense mechanisms against infections and proliferative diseases, have recently been identified in bivalve molluscs. In the present study we provide evidence for the presence of protease inhibitors in softshell clam plasma. Levels of protease inhibitory activities against the enzymes tested varied greatly, e.g. 1 μg of plasma protein inhibited 35.3±9.69 ng pepsin (aspartic protease), 4.9±1.45 ng papain (cysteine protease) and 3.1±0.88 ng trypsin (serine protease). On the contrary, the level of anti-metalloprotease (thermolysin) activities was much lower. The sensitivity to methylamine and the ability to protect trypsin from active site trypsin inhibitors provided evidence for the presence of an α₂-macroglobulin-like molecule in softshell clam plasma. In the Chesapeake Bay widespread epizootics of disseminated sarcoma have been described in M. arenaria populations. The impact of this lethal proliferative disorder on clam defense responses has received little attention. In this study the effects of sarcoma progression on plasma protease inhibitory activities were, therefore, assessed. Clams with early stages of sarcoma showed a non-significant decrease in protease inhibitor levels. Clams with advanced stages of sarcoma showed a significant decrease in the ability to inhibit trypsin and papain, while the protease inhibitory activity levels against aspartic and metalloprotease were completely exhausted.     

Early flower development in Arabidopsis.

The early development of the flower of Arabidopsis thaliana is described from initiation until the opening of the bud. The morphogenesis, growth rate, and surface structure of floral organs were recorded in detail using scanning electron microscopy. Flower development has been divided into 12 stages using a series of landmark events. Stage 1 begins with the initiation of a floral buttress on the flank of the apical meristem. Stage 2 commences when the flower primordium becomes separate from the meristem. Sepal primordia then arise (stage 3) and grow to overlie the primordium (stage 4). Petal and stamen primordia appear next (stage 5) and are soon enclosed by the sepals (stage 6). During stage 6, petal primordia grow slowly, whereas stamen primordia enlarge more rapidly. Stage 7 begins when the medial stamens become stalked. These soon develop locules (stage 8). A long stage 9 then commences with the petal primordia becoming stalked. During this stage all organs lengthen rapidly. This includes the gynoecium, which commences growth as an open-ended tube during stage 6. When the petals reach the length of the lateral stamens, stage 10 begins. Stigmatic papillae appear soon after (stage 11), and the petals rapidly reach the height of the medial stamens (stage 12). This final stage ends when the 1-millimeter-long bud opens. Under our growing conditions 1.9 buds were initiated per day on average, and they took 13.25 days to progress through the 12 stages from initiation until opening.     

Overlapping binding sites for trypsin and papain on a Kunitz-type proteinase inhibitor from Prosopis juliflora

Proteinase inhibitors are among the most promising candidates for expression by transgenic plants and consequent protection against insect predation. However, some insects can respond to the threat of the proteinase inhibitor by the production of enzymes insensitive to inhibition. Inhibitors combining more than one favorable activity are therefore strongly favored. Recently, a known small Kunitz trypsin inhibitor from Prosopis juliflora (PTPKI) has been shown to possess unexpected potent cysteine proteinase inhibitory activity. Here we show, by enzyme assay and gel filtration, that, unlike other Kunitz inhibitors with dual activities, this inhibitor is incapable of simultaneous inhibition of trypsin and papain. These data are most readily interpreted by proposing overlapping binding sites for the two enzymes. Molecular modeling and docking experiments favor an interaction mode in which the same inhibitor loop that interacts in a canonical fashion with trypsin can also bind into the papain catalytic site cleft. Unusual residue substitutions at the proposed interface can explain the relative rarity of twin trypsin/papain inhibition. Other changes seem responsible for the relative low affinity of PTPKI for trypsin. The predicted coincidence of trypsin and papain binding sites, once confirmed, would facilitate the search, by phage display for example, for mutants highly active against both proteinases.     

Elucidating the unusual floral features of Swartzia dipetala (Fabaceae)

In this study, we evaluated the floral ontogeny of Swartzia dipetala, which has peculiar floral features compared with other legumes, such as an entire calyx in the floral bud, a corolla with one or two petals, a dimorphic and polyandrous androecium and a bicarpellate gynoecium. We provide new information on the function of pollen in both stamen morphs and whether both carpels of a flower are able to form fruit. Floral buds, flowers and fruits were processed for observation under light, scanning and transmission electron microscopy and for quantitative analyses. The entire calyx results from the initiation, elongation and fusion of three sepal primordia. A unique petal primordium (or rarely two) is produced on the adaxial side of a ring meristem, which is formed after the initiation of the calyx. The polyandrous and dimorphic androecium also originates from the activity of the ring meristem. It produces three larger stamen primordia on the abaxial side and numerous smaller stamen primordia on the adaxial side. These two types of stamens bear morphologically similar ripening pollen grains. However, prior to the dehiscence of thecae and presentation of pollen in the anther, only the pollen grains of the larger stamens contain amyloplasts. Two carpel primordia are initiated as distinct protuberances, alternating with the larger stamens, in a slightly inner position in the floral meristem, constituting the bicarpellate gynoecium. Both carpels are able to form fruit, although only one fruit is generally produced in a flower. The increase in gynoecium merism probably results in an increase in the surface deposition of pollen grains and consequently in the chance of pollination. This is the first study to thoroughly investigate organogenesis and the ability of the carpel to form fruit in a bicarpellate flower from a member of Fabaceae, in addition to the pollen ultrastructure in the heteromorphic stamens associated with the ‘division of labour’ sensu Darwin. © 2013 The Linnean Society of London, Botanical Journal of the Linnean Society, 2013, 173 , 303–320.     

Extranuptial nectaries in flowers: ants increase the reproductive success of the ant‐plant Miconia tococa (Melastomataceae)

• Although the production of extranuptial nectar is a common strategy of indirect defence against herbivores among tropical plants, the presence of extranuptial nectaries in reproductive structures is rare, especially in ant‐plants. This is because the presence of ants in reproductive organs can generate conflicts between the partners, as ants can inhibit the activity of pollinators or even castrate their host plants. Here we evaluate the hypothesis that the ant‐plant Miconia tococa produces nectar in its petals which attracts ants and affects fruit set.
• Floral buds were analysed using anatomical and histochemical techniques. The frequency and behaviour of floral visitors were recorded in field observations. Finally, an ant exclusion experiment was conducted to evaluate the effect of ant presence on fruit production.
• The petals of M. tococa have a secretory epidermis that produces sugary compounds. Nectar production occurred during the floral bud stage and attracted 17 species of non‐obligate ants (i.e. have a facultative association with ant‐plants). Ants foraged only on floral buds, and thus did not affect the activity of pollinators in the neighbouring open flowers. The presence of ants in the inflorescences increased fruit production by 15%.
• To our knowledge, the production of extranuptial nectar in the reproductive structures of a myrmecophyte is very rare, with few records in the literature. Although studies show conflicts between the partners in the ant–plant interaction, ants that forage on M. tococa floral buds protect the plant against floral herbivores without affecting bee pollination.