Anther starch variations in Lilium during pollen development

Starch was cytologically localized and biochemically assayed in different anther cell layers of Lilium cv. Enchantment during pollen development and its presence was correlated with anther growth. Two phases could be distinguished: the first, the growth phase, extends from the beginning of meiosis to the vacuolated microspore stage and corresponds to maximum increase in anther size and weight. During this period, microspores lack amyloplasts and starch is degraded in the outer staminal wall layers. The tapetum does not contain starch reserves but accumulates a PAS-positive substance in its vacuole. The second phase, the maturation phase, begins with the late vacuolated microspore stage and lasts until pollen maturation. Anther growth is slowed during this phase. A wave of amylogenesis/ amylolysis occurs first in the late vacuolated-microspores and young pollen grains and, next, in the staminal envelopes. In the pollen grain, the cytoplasm of the vegetative cell is filled with starch, but amyloplasts are not detected in the generative cell. When pollen grains ripen, amylaceous reserves are replaced with lipids. In the staminal envelopes, the second amylogenesis is particularly evident in the endothecium and the middle layers; the peak of starch is reached at the young bicellular pollen grain stage; starch disappears from the anther wall early during the maturation phase. The wave of amylogenesis/amylolysis occurring in the staminal envelopes during the maturation phase is peculiar to Lilium. It is interpreted as a sudden increase in carbohydrate level caused by lower anther needs when the growth is completed. Staminal envelopes may act as a physiological buffer and regulate soluble sugar level in the anther. Stages of anther growth correlate with starch content variations and this suggests that during the growth phase, products of starch hydrolysis in the staminal envelopes may be consumed partly by anther cell layers and partly by microspores.     

The loculus content and tapetum during pollen development in Lilium

 The ratio of loculus volume to the volume of the entire anther began to increase from the microspore mother cell stage and reached 32.3% at anthesis. The content of the loculus was examined in Lilium during pollen development and two waves could be distinguished. From the premeiotic stage until the vacuolated microspore stage, the loculus consisted of neutral polysaccharides, pectins and proteins. These substances originated from tapetal activity from the premeiotic stage until the young microspore stage. Dictyosomes and rough endoplasmic reticulum seemed to be involved in tapetal secretion, although, in some mitochondria, vesicles progressively developed as early as premeiosis and increased until the young microspore stage, which could reveal their involvement in the secretion process. At this stage, numerous cytoplasmic vesticles containing material similar to the locular material fused with the plasma membrane of the tapetum so that vesicle content was in contact with the loculus. It seems that tapetal and callose wall degradation at the late tetrad stage may also have contributed to the production of material in the loculus. From pollen mitosis to anthesis, the anther loculus contained mainly the pollenkitt which was synthesized in the tapetum between the young microspore stage and the vacuolated microspore stage. At the young microspore stage, proplastids divided and developed into elaioplasts and smooth endoplasmic reticulum (SER) increased dramatically. Pollenkitt had a double origin: some droplets were extruded directly from the plastid stroma through the plastid envelopes; the others were unsaturated lipid globules, which presumably derived from the interaction between SER saccules and plastids. Received: 2 September 1997 / Revision accepted: 12 March 1998     

凤仙花花药发育中多糖和脂滴组织化学研究

以不同发育时期的凤仙花花药为实验材料,采用组织化学方法,对花药发育中的结构变化及多糖和脂滴物质分布进行观察。结果表明:(1)凤仙花的花药壁由6层细胞组成,包括1层表皮细胞,2层药室内壁细胞,2层中层细胞和1层绒毡层细胞。其中绒毡层细胞的形态不明显,很难与造孢细胞区分,且在小孢子母细胞时期退化。(2)在小孢子母细胞中出现了一些淀粉粒,但减数分裂后,早期小孢子中的淀粉粒消失,又出现了一些小的脂滴;随着花粉的发育,小孢子形成大液泡,晚期小孢子中的脂滴也消失;小孢子分裂形成二胞花粉后,营养细胞中的大液泡降解、消失,二胞花粉中又开始积累淀粉;接近开花时,成熟花粉中充满细胞质,其中包含了较多的淀粉粒和脂滴。(3)在凤仙花的花药发育中,绒毡层细胞很早退化,为小孢子母细胞和四分体小孢子提供了营养物质;其后的中层细胞退化则为后期花粉发育提供了营养物质。     

Heat Shock Stress Causes Stage-specific Male Sterility in Arabidopsis thaliana

Arabidopsis during flower development, floral organs such as sepals, petals, stamens, and carpels developed normally. However, the development of pollen inside the anther was disrupted in a stage-specific manner, with floral stage 9 primordia failing to produce any pollen grains. Morphological analyses suggested that heat shock causes a failure of separation of pollen mother cells followed by microspore differentiation and/or inhibition of male meiotic processes. Heat shock also caused sterility in floral stage 12 flowers but the sterility was due to the failure of pollen release from the pollen sacs. Received 12 December 2000/ Accepted in revised form 4 April 2001     

Sucrose‐cleaving enzymes and carbohydrate pools in Lilium longiflorum floral organs

The activities of soluble invertase (EC 3.2.1.26), cell wall invertase (EC 3.2.1.26) and sucrose synthase (EC 2.4.1.13) were determined in Easter lily ( Lilium longiflorum Thunb. cv. Nellie White) floral organs during flower development. These enzyme activities were correlated with dry weight gains and carbohydrate pools to investigate the importance of their expression in maintaining sink strength of floral organs. In the early stages of flower bud development, anthers exhibited the highest rates of dry weight gain and activity of sucrolytic enzymes. Once anther growth was completed, the dry weight gain of tepal, filament, stigma and style increased with a concomitant increase in hexose concentrations and invertase activity. Although all three enzymes capable of catalyzing sucrose cleavage were present in every flower organ of L. longiflorum , soluble invertase was the predominant enzyme in all flower organs except stigma where cell wall invertase dominated. Soluble invertase activity was highly correlated with dry weight gain in most of the flower organs.     

黄瓜花性别分化与内源多胺的关系

研究了黄瓜雌、雄花几个主要发育时期和性别逆转过程中内源多胺的变化。结果表明 ,雄花在不同发育时期 ,内源腐胺含量均高于雌花 ,腐胺含量的显著升高伴随着花粉粒的形成 ,高腐胺含量是雄花发育的特征。雌花在大孢子母细胞时期以后直到雌花发育成熟 ,其内源尸胺含量均高于雄花 ,高尸胺含量可能有利于雌花的发育。高水平的内源多胺、精胺和亚精胺可能有利于雌花大孢子母细胞的形成。亚精胺和腐胺含量随着大小孢子四分体形成和大孢子核的连续分裂而分别表现下降和上升。雌性系黄瓜经硝酸银诱导雄花处理后 ,茎尖内源亚精胺含量下降 ,腐胺含量上升 ,从而诱导雄花形成 ;雄性系黄瓜经乙烯利诱导雌花处理后 ,茎尖内源亚精胺含量上升 ,腐胺含量下降 ,从而诱导雌花形成     

Dynamic changes in insoluble polysaccharides and neutral lipids in the developing anthers of an endangered plant species, <Emphasis Type="Italic">Pancratium maritimum</Emphasis>

Dynamic changes in the distribution of lipid and insoluble polysaccharide reserves of Pancratium maritimum L. (Amaryllidaceae) anthers were investigated throughout the successive stages of pollen development, using cytochemical methods, to determine whether the synthesis, transformation, and mobilization of reserve materials in developing anthers follow the regular pathway in angiosperms and support the physiological activities in developing pollen. Polysaccharides and lipid reserves exhibited a variable pattern of distribution from the sporogenous cell stage to the anthesis. Starch granules and lipid bodies were scarce in the cytoplasm of sporogenous cells, but their number increased significantly at the premeiotic stage. Conversely, starch and lipid reserves of meiocytes reduced at the early prophase of the first meiotic division, and then their amount showed fluctuations during the microsporogenesis. The cytoplasm of free and vacuolated microspores was poor regarding the polysaccharide and lipid reserves. However, at the late vacuolated microspore stage, small insoluble polysaccharides began to appear in the microspore cytoplasm, and their number increased remarkably in the cytoplasm of the bicellular pollen grain. During the maturation of pollen grains, polysaccharide reserves were replaced with lipids. The starch and lipid reserves of the staminal envelope also showed variations at different stages of the anther development. The dynamic changes in the polysaccharide and lipid reserves of P. maritimum anthers were consistent with the physiological activities such as differentiation, cell division and material synthesis that occur in the anther tissue at different stages of the male gametophyte development, and supported the normal pollen development.     

The role of gibberellins in the growth of floral organs of Mirabilis jalapa

Evidence that the anther is a source of GAs which may be a mainfactor limiting the growth of floral organs of Mirabilis jalapais presented. GAs in floral tubes at different developmentalstages were surveyed using TLC followed by bioassay with ‘Tan-ginbozu’dwarf rice seedlings. The amount of GA_s in the floral tube increasedrapidly after the calyx became visible above the bract 8 daysbefore anthesis, reached a maximum 5 days before anthesis, thendeclined markedly thereafter. The stamen had relatively largeamounts of GAs and mainly accounted for the change of GA_s duringthe flower development. The GA content in the anther was 3 timesas much as that in the filament. Exogenously supplied GA3 promotedelongation of sections in excised flower organs. Extracts ofanthers also showed definite growth promotion of style sections.Removal of the anthers greatly reduced the final length of thefloral tube. (Received December 7, 1974; )     

EMASCULATION EFFECTS ON FILAMENT GROWTH IN IPOMOEA NIL (CONVOLVULACEAE)

Filament growth in the morning glory Ipomoea nil is promoted by gibberellic acid (GA₃) and inhibited by ethylene production during the earlier stages in development (Koning and Raab, 1987). The effects of anther removal on filament growth were examined in I. nil. Three-quarters of the calyx and corolla tissues were removed in order to emasculate the stamens. This removal caused filament growth to be inhibited in the intact stamens (69 hr before anthesis) as well as the emasculated stamens (69 to 21 hr before anthesis). When the ethylene biosynthesis inhibitors CoCl₂ and aminoethoxyvinylglycine (AVG) were applied in separate experiments (to eliminate wound ethylene generated by the damaged tissues), filament growth was promoted to control levels observed in intact flower buds (69 hr before anthesis). Our data suggest that the wounding effect from the calyx and corolla tissues and subsequent reduction in filament growth override any observable effects with anther removal on filament growth. Apparently, the removal of the calyx and corolla tissues severs a normal hormonal relationship between these floral organs and the developing filament.     

短命植物甘新念珠芥（Neotorularia korolkovii）和宽翅菘蓝（Isatis violascens）的物候与性表达特征

甘新念珠芥（Neotorularia korolkovii）和宽翅菘蓝（Isatis violascens）是两种广泛分布于新疆准噶尔荒漠的十字花科早春短命植物。对其物候与性表达特征研究结果表明：(1) 二者种子均在3月下旬萌发,5月下旬和6月上旬果实完全成熟,生活周期分别为62d和71d,其中营养生长期约占1/3、生殖生长期约占2/3。(2) 花均为两性,四强雄蕊,单花开放时间较短,长雄蕊的花药开裂早于短雄蕊,但短雄蕊花药中的花粉数较长雄蕊的多。(3) 长、短雄蕊花药中花粉可育率均达90%以上,花粉活力的变化曲线基本相同,柱头可授期分别为9.0h和4.5h,花粉寿命及柱头可授期均短于单花花期,花粉活力最高的时期正是其柱头的最佳授粉期。柱头可授期与花粉活力及寿命在时间上的高度吻合,增加了在不可预测环境中授粉的机会与效率,从而保障生殖成功。(4) 二者的P/O（花粉/胚珠）值分别为108.07±17.17、992.10±272.16,属于自交繁育系统;对其传粉过程、套袋实验及荧光显微观察的结果也证明它们主要以自花传粉的方式来进行交配。(5) 两种植物从物候、花部性表达以及交配式样上均存在与其严酷荒漠环境相适应的特点,是长期适应准噶尔荒漠特殊生态环境的结果,对于保证繁殖成功并扩大种群具有重要的意义。     

Anther ontogeny in <Emphasis Type="Italic">Brachypodium distachyon</Emphasis>

Brachypodium distachyon has emerged as a model plant for the improvement of grain crops such as wheat, barley and oats and for understanding basic biological processes to facilitate the development of grasses as superior energy crops. Brachypodium is also the first species of the grass subfamily Pooideae with a sequenced genome. For obtaining a better understanding of the mechanisms controlling male gametophyte development in B. distachyon, here we report the cellular changes during the stages of anther development, with special reference to the development of the anther wall. Brachypodium anthers are tetrasporangiate and follow the typical monocotyledonous-type anther wall formation pattern. Anther differentiation starts with the appearance of archesporial cells, which divide to generate primary parietal and primary sporogenous cells. The primary parietal cells form two secondary parietal layers. Later, the outer secondary parietal layer directly develops into the endothecium and the inner secondary parietal layer forms an outer middle layer and inner tapetum by periclinal division. The anther wall comprises an epidermis, endothecium, middle layer and the secretory-type tapetum. Major documented events of anther development include the degradation of a secretory-type tapetum and middle layer during the course of development and the rapid formation of U-shaped endothecial thickenings in the mature pollen grain stage. The tapetum undergoes degeneration at the tetrad stage and disintegrates completely at the bicellular stage of pollen development. The distribution of insoluble polysaccharides in the anther layers and connective tissue through progressive developmental stages suggests their role in the development of male gametophytes. Until sporogenous cell stage, the amount of insoluble polysaccharides in the anther wall was negligible. However, abundant levels of insoluble polysaccharides were observed during microspore mother cell and tetrad stages and gradually declined during the free microspore and vacuolated microspore stages to undetectable level at the mature stage. Thus, the cellular features in the development of anthers in B. distachyon share similarities with anther and pollen development of other members of Poaceae.     

EMASCULATION EFFECTS ON THE STAMEN FILAMENT OF NIGELLA HTSPANICA AND THEIR PARTIAL REVERSAL BY GIBBERELLIC ACID

Anther removal from stamens whose filaments are 1–3 mm long restricts filament elongation to approximately 60% of the normal length. Removal of one-third to one-half of the anthers affects only the antherless filaments and does not appear to inhibit the growth of the other organs of the flower. Filament growth inhibition induced by anther removal involves both an inhibition of epidermal cell elongation along the length of the filament and also an inhibition of cell division. There is no evidence that the inhibition of filament growth is a response to damage caused by anther removal. Rather, it is suggested that anther removal severs a normal hormonal relationship existing between the anther and the developing filament. The application of gibberellic acid (GA₃) in lanolin paste stimulated the elongation of the antherless filaments to achieve an average of 87% of the filament length of adjacent intact stamens. The closer a filament is to having attained its final number of cells before anther removal, the closer does its length come to reaching the final length of filaments in intact stamens. The elongation of these antherless filaments with the application of GA₃ was accompanied by elongation of the epidermal cells of the filament to normal, or in some cases greater than normal, lengths. There is no evidence that GA₃ application affected the inhibition of epidermal cell devision induced by anther removal. The results of this study support the suggestion of Plack that emasculation-induced inhibition in the growth of floral organs and its reversal by GA₃ is a general phenomenon.     

PATTERNS OF PROTEIN ACCUMULATION IN DEVELOPING ANTHERS OF LILIUM LONGIFLORUM CORRELATE WITH HISTOLOGICAL EVENTS

Differentiation in the anther of Lilium longiflorum occurs in discrete stages that correlate well with flower bud length. Using both sodium dodecyl sulfate and two-dimensional polyacrylamide gel electrophoresis, detectable proteins that accumulated during the development of lily anthers were documented. In terms of histology and protein patterns, anther ontogeny was divided into three major phases. Phase I encompassed early proliferative stages as well as the differentiation of the locules. Phase II extended from the onset of meiosis through to mature microspores. Phase III began after microspore mitosis occurred to form pollen. Ten floral organ-enriched and 17 floral organ-specific polypeptides were detected during development. The appearance and disappearance of these polypeptides correlated well with the transitions between phases. Two groups of floral organ-specific proteins in Phase II were chosen for further analysis. Both groups of polypeptides were stamen-specific. The 15.0 kD proteins were anther-specific and were the most abundant floral proteins detected; the 75.0 kD proteins were detected in both the anther and filament.     

Sex‐specific floral attraction traits in a sequentially hermaphroditic species

• ● Many angiosperms are hermaphroditic and produce bisexual flowers in which male (pollen export) and female (stigma receptivity) functions are separated temporally. This sequential hermaphroditism may be associated with variation in flower size, color, or pattern, all of which may influence pollinator attraction. In this study, we describe variation in these traits across discrete functional sex stages within and between 225 greenhouse‐grown individuals of Clarkia unguiculata (Onagraceae). In addition, to identify the effects of floral phenotype on pollinator attraction in this species, we examine the effects of these floral traits on pollen receipt in ~180 individuals in an experimental field array.
• ● Petal area, ultraviolet (UV)‐absorbing nectar guide area, and blue and green mean petal reflectance differ significantly across the functional sex stages of C. unguiculata. Male‐ and female‐phase flowers display significantly different pollinator attraction traits. Petal and UV nectar guide area increase as flowers progress from male phase to female phase, while blue reflectance and green reflectance peak during anther maturation.
• ● In field arrays of C. unguiculata, female‐phase flowers with large UV nectar guides receive more pollen than those with small nectar guides, and female‐phase flowers with high mean blue reflectance values are more likely to receive pollen than those with low blue reflectance. Female‐phase flowers with green mean reflectance values that differ most from background foliage also receive more pollen than those that are more similar to foliage. These findings indicate that components of flower color and pattern influence pollen receipt, independent of other plant attributes that may covary with floral traits. We discuss these results in the context of hypotheses that have been proposed to explain sex‐specific floral attraction traits, and we suggest future research that could improve our understanding of sexual dimorphism in sequentially hermaphroditic species and the evolution of features that promote outcrossing.

     

Pectin secretion and distribution in the anther during pollen development in Lilium

Using the monoclonal antibodies JIM 5 and 7, pectin was immunolocalized and quantitatively assayed in three anther compartments of Lilium hybrida during pollen development. Pectin levels in both the anther wall and the loculus increased following meiosis, were maximal during the early microspore stages and declined during the remainder of pollen ontogenesis. In the microspores/pollen grains, pectin was detectable at low levels during the microspore stages but accumulated significantly during pollen maturation. During early microspore vacuolation, esterified pectin epitopes were detected both in the tapetum cytoplasm and vacuoles. In the anther loculus, the same epitopes were located simultaneously in undulations of the plasma membrane and in the locular fluid. At the end of microspore vacuolation, esterified pectin epitopes were present within the lipids of the pollenkitt, and released in the loculus at pollen mitosis. Unesterified pectin epitopes were hardly detectable in the cytoplasm of the young microspore but were as abundant in the primexine matrix as in the loculus. During pollen maturation, both unesterified and esterified pectin labelling accumulated in the cytoplasm of the vegetative cell, concurrently with starch degradation. In the mature pollen grain, unesterified pectin epitopes were located in the proximal intine whereas esterified pectin epitopes were deposited in the distal intine. These data suggest that during early microspore development, the tapetum secretes pectin, which is transferred to the primexine matrix via the locular fluid. Further, pectin is demonstrated to constitute a significant component of the pollen carbohydrate reserves in the mature grain of Lilium. Received: 3 July 2000 / Accepted: 19 October 2000     

‘圣诞快乐’朱顶红花芽分化研究

采用解剖观测和石蜡切片技术,对朱顶红品种‘圣诞快乐’花芽生长情况、花器官分化和性细胞分化过程进行了研究,以明确朱顶红花芽分化特征,为其花发育、花期调控、杂交育种和系统分类研究提供理论依据。结果表明：‘圣诞快乐’朱顶红每年产生2个花序芽,在第2年完成其内花芽花器官分化,经过低温作用后于第3年盛开,其中第2个花序偶有败育发生;花器官分化过程包括花原基分化期、外花被原基分化期、内花被原基分化期、雄蕊原基分化期、心皮原基分化期,对应的花芽大小分别约为0.02、0.05、0.1、0.2、0.3 cm,所有花器官均为螺旋状向心式发生;朱顶红花药4室,花药壁从外至内由表皮、药室内壁、中层和绒毡层组成,绒毡层类型为分泌型,小孢子减数分裂类型为连续型,四分体排列方式为十字交叉型,成熟花粉粒为2-细胞型;朱顶红雌蕊3心皮,下位子房,中轴胎座,3心室,每室两列倒生胚珠,胚珠为双珠被,厚珠心,具葱型胚囊。     

A COMPARISON OF CLEISTOGAMOUS AND CHASMOGAMOUS FLORAL DEVELOPMENT IN COLLOMIA GRANDIFLORA DOUGL. EX LINDL. (POLEMONIACEAE)

An individual of Collomia grandiflora typically produces both closed or cleistogamous (CL) and open or chasmogamous (CH) flowers. The developmental origin of these dimorphic floral types within a plant was investigated using histological techniques, allometric relationships, and scanning electron microscopy. Prior to archesporal cell stage in the anthers, CL and CH meristems are indistinguishable. In the CL anther, an absence of ventral locule cell differentiation together with a shorter period of time between archesporial cell differentiation and meiosis in the two dorsal locules results in accelerated anther dehiscence and a smaller mature anther size and pollen grain number. Divergence between the CL and CH patterns of corolla development is coincident with microspore mitosis in the CH anther. At this point, there is an increase in growth in corolla length relative to growth in calyx length in the CH flower which does not occur in the CL flower. Calyx and ovary development are similar in the two floral forms; however, ovary expansion due to fertilization occurs earlier in the CL flower as a result of precocious anther development and stigma receptivity. The hypothesis that anther differentiation may trigger organ growth rate changes and differentiation events in the flower and hypothetical roles for abscisic acid and gibberellin in modifying floral development in C. grandiflora are discussed.     

LEVER ACTION ANTHERS AND THE FORCIBLE SHEDDING OF POLLEN IN TORENIA (SCROPHULARIACEAE)

The anthers of Torenia fournieri were found to shed pollen forcibly by lever action. Anther structure was modified for this function by a flangelike outgrowth of the lateral pollen sac wall forming a lever. When pressed, this lever causes an infolding of the thinner, subadjacent, pollen sac wall forcing pollen from the stomium. A force of 1–1.5 g pressing against the four levers of an anther pair resulted in the forcible shedding of 2,000–3,000 pollen grains in two parallel rows. During the 2-day anthesis the flowers shift from functioning as males to hermaphroditic outcrossers, and yet only have a pollen:ovule ratio of 98.6, a ratio more indicative of facultative autogamy. The outermost pair of anthers functions on the first day of anthesis, while the second, inner pair functions on both days. In each flower, the 2-day anther pair produces approximately twice as many pollen grains as the 1 -day anther pair, a pollen production highly correlated with the length of their functional lives. This difference in pollen production is apparent in the larger size of the 2-day anthers, a size difference that first appears with the initiation of the anther primordia.     

THE CYTOLOGY OF POLLEN ABORTION IN C-CYTOPLASMIC MALE-STERILE CORN ANTHERS

Anther development of the C-cytoplasmic male-sterile (cms C) and the normal cytoplasm version (N) in the W182BN corn inbred was studied by light and electron microscopy. Deviation from normal pollen development was first observed in the tapetal cells at the tetrad stage of development. Two types of tapetal abnormalities were observed in plants with C cytoplasm. The first behaved like the N anther until the tetrad stage, when numerous small vacuoles appeared in the tapetal cells. Inner and radial tapetal cell walls broke down normally, but irregular Ubisch body deposition was observed, and exine development was inhibited and delayed. The tapetum and microspores disintegrated at the intermediate microspore stage. The second type of tapetum was highly vacuolated at the early tetrad stage, with dense inner and radial cell walls that remained intact and enlarged when the tetrads aborted. No organellar abnormalities, such as the mitochondrial changes observed in cms T, were observed in C anthers.