Independent regulation of microtubule spacing and microtubule stability following redundancy of nutritive tubes in telotrophic ovaries in hemiptera (insecta)

The nutritive tubes that act as conduits between the nutritive cells and the developing oocytes within the ovaries of hemipteran insects, contain vast aggregates of aligned microtubules. During the previtellogenic stages of oogenesis, components synthesised in the nutritive cells pass within the nutritive tubes and accumulate in the oocytes. Using polarised light and electron microscopy, we have monitored the changes in both the spacing and stability of the microtubules which occur when, at the onset of vitellogenesis, translocation within the nutritive tube ceases and the tube becomes redundant. Having investigated nutritive tube redundancy in the ovaries of 4 species of hemipterans, we have discovered the outcome to be similar in each case, with the microtubules losing their characteristic spacing and becoming closely packed prior to their depolymerisation. The feature that differs is the timing of these changes because, in certain species, microtubule depolymerisation closely follows the microtubule rearrangement, while in other species, depolymerisation of the microtubules occurs some considerable time after their change in pattern. This evidence demonstrates that microtubule spacing and stability are regulated independently following redundancy of nutritive tubes, and we speculate upon how this regulation might be achieved within the insect ovaries.     

The effect of colchicine on the sleeve element of microtubules

The microtubules in the nutritive tubes of telotrophic insect ovaries, like those in many other situations, are surrounded by an electron clear zone or ‘sleeve’ after conventional preparative procedures for electron microscopy. Ribosomes, which also pack the nutritive tubes, do not encroach into this region, and although microtubules are often closely opposed, they are rarely seen to touch. The composition of the microtubule sleeve zone is unknown. This study shows that colchicine not only destroys the microtubules in the nutritive tubes, but also the sleeve zone which surrounds them, suggesting that the integrity of the microtubules is essential for the existence of the sleeves.     

Direct evidence for the nature of the binding of mitochondria to microtubules in ovarian nutritive tubes of an hemipteran insect

Interactions between mitochondria and microtubules have been investigated in the nutritive tubes that link the nurse cells to the oocytes in ovarioles of the hemipteran insect, Notonecta. The nutritive tubes comprise large numbers of microtubules, which can be dissected manually from ovarioles. This approach, which retains the intrinsic components of the system, has allowed the in vivo interactions between the microtubules and mitochondria, which are also present in the nutritive tubes, to be studied directly. Static binding occurred between mitochondria and microtubules, and investigations of its nucleotide and salt-sensitivities have indicated its microtubule-associated protein (MAP)-dependency. Received: 30 September 1996 / Accepted: 1 February 1997     

The distribution and function of microtubules in nutritive tubes

The density and distribution of microtubules in the nutritive tubes of three hemipteran insects, Corixa punctata, Notonecta glauca and Dysdercus cingulatus, were analysed from electron micrographs by computer. Both parameters varied amongst all three species, the density of microtubules in Corixa being approximately three times that seen in Dysdercus. The density and distribution of microtubules within the nutritive tubes correlated directly with the size of particle transported by them, suggesting that the microtubules may act as a sieve to preclude certain cellular components from entering the tubes. If microtubules are further involved in the generation of motive force for cytoplasmic transport along the nutritive tubes, this function is not dependent upon the number of microtubules, or upon their arrangement with respect either to each other or to the particle being transported.     

Binding of axonemal dynein to microtubules comprising the cytoplasmic transport system in insect ovarioles

Dynein isolated from ciliary axonemes of Tetrahymena is shown to bind in a characteristic fashion as arms to microtubules dissected from the nutritive tubes of insect ovarioles. The microtubules in nutritive tubes are associated with the transport of cytoplasmic components along their length, and the significance of their ability to bind axonemal dynein, to the possibility that microtubule/dynein interactions are involved in microtubule-associated movements, generally, is discussed.     

The mechanism of microtubule associated cytoplasmic transport

Summary The nutritive tubes of telotrophic insect ovaries are cytoplasmic channels along which ribosomes are transported over distances of several mm from trophic cells to the developing oocytes. The presence within the nutritive tubes of a massive number of orientated microtubules renders them strongly birefringent in polarised light, a property which, together with their size, rendered them amenable to isolation by microdissection. Ultrastructurally the isolated tubes were indistinguishable from undissected controls. Polyacrylamide gels revealed a consistent pattern of some 30 bands of which tubulin was the most prominent. The tubes also contained a band which comigrated with the major high molecular weight micro tubule associated protein (MAP) from mouse brain but no detectable actin, myosin or dynein. Microtubules in the isolated tubes were not depolymerised by treatments (cold, calcium and colchicine) which typically disrupt cytoplasmic microtubules. Following extraction of the membrane enclosing the tubes and the cytoplasmic matrix the microtubule cytoskeleton persisted, retaining its cylindrical organisation although no bridges between the microtubules were detected in the electron microscope. The possibility that the stability and spatial deployment of the nutritive tube microtubules is conferred by specific microtubule accessory proteins is discussed.     

Observations on cytoplasmic transport along ovarian nutritive tubes of polyphagous coleopterans

Summary The ovarioles of Coccinella and Tenebrio are shown to be telotrophic — a characteristic normally associated with hemipterans rather than coleopterans. They possess an anterior region of trophic cells and a chain of oocytes. The trophic cells are connected with the latter by a series of nutritive tubes, and autoradiography has shown that RNA is transported along the tubes to the oocytes. However, the system in these beetles differs markedly from that of hemipterans in that the nutritive tubes do not contain an extensive complement of aligned microtubules. The significance of this to both the mechanism and the selectivity of transport is discussed.     

Quinacrine-induced dilation of the rat cecum and degeneration of large granular vesicle-containing neurons in the myenteric plexus

Summary An electrophoretic analysis of the microtubule-containing transport channels, known as nutritive tubes, which link the nutritive cells with the chain of developing oocytes in the telotrophic ovarioles of the hemipteran Notonecta glauca, has been carried out. The major polypeptide components resolved have been identified tentatively as -and -tubulin subunits by their comparable electrophoretic mobility to tubulin subunits from purified mammalian brain microtubule protein. Co-migration of some of the minor components with proteins resolved from insect ribosomes (which are the only other components of the nutritive tubes as seen in ultrastructural studies) indicates that these may be ribosomal proteins. Also characterized by electrophoresis were the nutritive cells, which are the source of synthesis of the components transported via the nutritive tubes, and the oocytes, the sites of their accumulation.     

Perturbed turnover of microtubule-based nutritive tubes in ovarioles of virgin and precocene-treated Dysdercus fasciatus

During early oogenesis in Dysdercus fasciatus, anteriorly positioned nurse cells supply each oocyte with mRNA, ribosomes, and proteins via a microtubule-rich nutritive tube that lengthens as the oocyte is displaced backwards down an ovariole. Nurse cell-dependent development of an oocyte continues until the latter reaches a particular stage of oogenesis after which the nutritive tube supplying it becomes redundant and breaks down. The signal for nutritive tube breakdown is believed to derive from the oocyte, and to be developmental stage-specific. To explore this, nutritive tube turnover has been investigated following the experimental inhibition of oocyte maturation both by the prevention of mating, and also the topical application of precocene II. In each case, the nutritive tubes with their component microtubules continued to extend and failed to show normal tube redundancy, typified by microtubule rearrangement and then depolymerisation. This provided an in vivo demonstration that the dynamics of a large microtubule aggregate are influenced by the developmental state of the cytoplasm.     

Reorganisation of microtubule arrays in the telotrophic ovaries of hemipteran insects: Correlation with meiotic reinitiation

We have shown that, in the ovaries of hemipteran insects, microtubule reorganisation and depolymerisation in the oocytes, and in the nutritive tubes supplying them, correlate with the activation of M-phase promoting factor (MPF) and mitogen-activated protein kinase (MAP kinase) as the oocytes proceed to arrest at the first meiotic metaphase. The application, however, of Xenopus egg extracts with high MPF activities to isolated nutritive tube microtubules failed to result in their depolymerisation, suggesting that a novel factor may be required for the breakdown of these highly stable microtubule arrays in vivo.     

The nature of the clear zone around microtubules

Summary The clear zones seen around microtubules in transverse sections of nutritive tubes vary in size depending on whether a microtubule is bordered by ribosomes or by another microtubule. We consider that such a finding is not consistent with the current view, that the clear zone is maintained by microtubule-associated material. It can, however, be accounted for by an electrostatic repulsion between the surfaces of negatively charged microtubules and between microtubules and ribosomes which are also negatively charged. The experiments presented here, involving on the one hand the addition of cationic substances to microtubules and on the other the alteration in charge of the microtubules, support this hypothesis.     

Transmitting Tissae and Pollen Tube Growth in Sweet Pepper

Fine structural events in the mature stylar transmitting tissue ofsweet pepper (Capsicum frutescens L. var. grossum Bally) have been investigated byelectron microscope with regard to pollen tribe grwoth. The transmitting tissue consists of parenchymatous cells with large intercellular spaces filled with an electron densesubstance. The pollen tubes grow through the intercellular spaces in the intercellular substance. Cells of this tissue are rich in organelles, especially the rough and tubular ER, and numerous lomasomes near the plasma membrane. It is demonstrated that they function as secretory cells. On the other hand, the fact that the transmitting tissue contains many large amyloplastids with several starch grains in the cytoplasm and numerous globular protein bodies in vacuoles, indicates that the transmitting tissue mayhave some nutritive value for the growth of pollen tubes. The results obtained from this observation are in agreement with those of mostspecies reported by other authors and support the conclusion that the transmitting tissue is not a collenchyma tissue and the nature of intercellular substances is essentially same as that of the middle lamella.     

Disturbance and investment: developmental responses of tropical lotic midges to repeated tube destruction in the juvenile stages

Abstract. 1. Investment in silken tubes may give tubicolous chironomid larvae more to lose than non‐tube building taxa when physical disturbances or the actions of other organisms induce dispersal. In this study, two chironomid species from flood‐prone Australian tropical streams were subjected to repeated experimental destruction of their larval and pupal tubes in laboratory experiments, with life‐history parameter responses recorded. 2. When subjected to the tube destruction treatments, Echinocladius martini (Orthocladiinae), whose larvae construct branched loose silken tubes in fast flow, showed no reduction in survivorship to adult, whereas Polypedilum australotropicus (Chironominae), which builds compact tightly woven tubes incorporating detrital material within pool leaf packs, showed reduced survivorship of about 25%. 3. For both species, tube destruction reduced pupal duration, regardless of whether destruction occurred in the larval stage only, or in both the larval and pupal stages. This may be a response to the risks of exposure outside tubes in nature, particularly for pupae, which are incapable of spinning silk. 4. Tube destruction caused little or no reduction in adult size, longevity, or female fecundity (oocyte number) for either species, but oocyte development and size was retarded in E. martini females, reflecting the energetic and nutritive costs of the tube destruction treatments. 5. Contrasts in the responses of the two species reflect differences in tube‐building behaviour and in situ habitat use. These results demonstrate that tube loss can affect the fitness of individual chironomids, though both species proved generally resilient, which may reflect their long‐term exposure to variable tropical lotic conditions.     

Stigmatic exudate in the Annonaceae: Pollinator reward,pollen germination medium or extragynoecial compitum?

Although “dry‐type” stigmas are widely regarded as ancestral in angiosperms, the early‐divergent family Annonaceae has copious stigmatic exudate. We evaluate three putative functions for this exudate: as a nutritive reward for pollinators; as a pollen germination medium; and as an extragynoecial compitum that enables pollen tube growth between carpels. Stigmatic exudate is fructose dominated (72.2%), but with high levels of glucose and sucrose; the dominance of hexose sugars and the diversity of amino acids observed, including many that are essential for insects, support a nutritive role for pollinators. Sugar concentration in pre‐receptive flowers is high (28.2%), falling during the peak period of stigmatic receptivity (17.4%), and then rising again toward the end of the pistillate phase (32.9%). Pollen germination was highest in sugar concentrations <20%. Sugar concentrations during the peak pistillate phase therefore provide optimal osmolarity for pollen hydration and germination; subsequent changes in sugar concentration during anthesis reinforce protogyny (in which carpels mature before stamens), enabling the retention of concentrated exudate into the staminate phase as a pollinator food reward without the possibility of pollen germination. Intercarpellary growth of pollen tubes was confirmed: the exudate therefore also functions as a suprastylar extragynoecial compitum, overcoming the limitations of apocarpy.     

Occurrence of an inhibitor of lactic Acid bacteria in green olives

Green olives were found to contain an inhibitor(s) of several species of lactic acid bacteria usually associated with the Spanish-type brined olive fermentation. The inhibitor was demonstrated by the presence of inhibition zones surrounding tissue which had been cut from frozen olives and implanted in a seeded nutritive agar medium. Relative potencies of aqueous extracts of frozen olives were determined by a paper disc assay method. The Mission variety of olive contained the most inhibitor, and the Manzanillo and Ascolano, about 50 and 40% as much as the Mission variety, respectively. Sevillano and Barouni varieties contained comparatively little inhibitor. Effects of the inhibitor on growth rates of lactic acid bacteria were determined by adding various amounts of a concentrated aqueous extract of olives to a nutritive broth medium contained in screw-capped tubes. Of the four species of lactic acid bacteria tested, Leuconostoc mesenteroides was the most sensitive, and Lactobacillus plantarum was the least sensitive; Pediococcus cerevisiae and Lactobacillus brevis were intermediate in sensitivity. Extracts possessed a bactericidal property, as evidenced by their effect on L. mesenteroides. Sodium chloride, especially at concentrations of about 5% and higher, greatly increased the effectiveness of the inhibitor. The inhibitor was ethyl alcohol-soluble and was stable when heated at 100 C in aqueous solution. Potencies of extracts were reduced greatly by adjustment to pH 10, but no appreciable effect was noted by adjustment to pH 0.8.     

甘肃省谷子地方品种营养品质的分析与评价

对甘肃省199份谷子地方品种子粒的营养品质分析结果表明:蛋白质和脂肪的平均含量较高,品种间差异大,变异丰富;不同地区谷子品种的营养品质存在差异,陇东地区谷子蛋白质和脂肪含量较高;不同粒色谷子营养品质也存在差异,青色籽粒的谷子其蛋白质、脂肪和赖氨酸含量较高。     

Cytoarchitecture of Utricularia nutritive tissue

Beginning with light microscopy studies in the late 19th century, the placental "nutritive tissue" in carnivorous plants of Utricularia spp. has been well described by several authors. Based on observations of direct contact between the embryo sac and the "nutritive tissue" and the lack of vascularization of the ovule, it has been suggested that this nutritive tissue plays a key role in the nutrition of the female gametophyte. To date, however, the structure of this tissue has received only scant attention. To fill this knowledge gap, we have characterized its anatomy and histochemistry in more detail and addressed the speculations of a number of earlier researchers. Nutritive tissue during the period of flower opening in three Utricularia species, each belonging to different sections and subgenera (Polypompholyx, Bivalvaria and Utricularia), was examined by light and, in particular, electron microscopy. In all of the investigated species, nutritive tissue cells differ from placental parenchyma cells in having no huge vacuole, no large amyloplasts with starch grains, and no protein inclusions in the nucleus. The funicular nutritive tissue in U. dichotoma consists of active cells with a secretory character, while U. sandersonii has a small placental nutritive tissue consisting of colenchymatous cells accumulating lipids. The most complex nutritive tissue occurs in aquatic U. intermedia, which occupies a derived position in the genus phylogeny. In this latter species, the cells of this tissue resemble meristematic cells in having a relatively large nucleus, thin cell walls, and reduced vacuoles, but the well-developed endoplasmic reticulum (ER) in some cells is similar to that in secretory cells. The cytoplasm is rich in microtubules, some of which are in close contact with the ER cisternae. We found very thick cell walls between nutritive tissue cells and parenchyma cells, but plasmodesmata between these types of cells are rare. Similarities in both the position and structure of nutritive tissue in Polypompholyx and section Pleiochasia support their classification together in one subgenus, based on results from a molecular study. The position and structure of the nutritive tissue in Utricularia spp. are related to the position of various species in the genus phylogeny.     

The telotrophic nature of ovarioles of polyphage coleoptera

Summary The ovarian type of 23 families of polyphage Coleoptera has been determined. The ovaries of all species belong to the telotrophic-meroistic type, indicated by nutritive cords connecting oocytes with the trophic tissue. These nutritive cords persist during previtellogenesis and the main part of vitellogenesis. The cytoplasm of the nutritive cords shows the same elements in similar frequencies as they were found in the nurse cell cytoplasm or in the ooplasm of oocytes during previtellogenesis. No indications are found supporting the idea that a reduction of nutritive cords early in ovarian development gives rise to a deviated panoistic ovary. The histological uniformity of nutritive cords among all investigated species as well as the fact that these species are scattered by chance among the polyphage Coleoptera seems to justify the conclusion that all Polyphaga s. str. have telotrophicmeroistic ovarioles. This investigation was supported in part by the Stiftung Volkswagenwerk     

The redifferentiation of nutritive cells in galls induced by Lepidoptera on Tibouchina pulchra (Cham.) Cogn. reveals predefined patterns of plant development

Insect galls may present nutritive tissues with distinct cytological features related to the order of the gall inducer. Galling Lepidoptera larvae chew plant cells and induce the redifferentiation of parenchymatic cells into nutritive ones. The nutritive cells in the galls induced by a microlepidoptera on the leaves of Tibouchina pulchra (Cham.) Cogn. (Melastomataceae) are organelle-rich, with developed Golgi apparatus, endoplasmic reticulum, ribosomes, polyribosomes, mitochondria, plastids, and one great central or several fragmented vacuoles. The nonobservance of the nuclei in the nutritive cells deserves special attention, and confers a similarity between the nutritive cells and the vascular conductive ones. The great amount of rough endoplasmic reticulum, ribosomes, polyribosomes, and mitochondria is indicative of the high metabolic status of these cells. They are vascular cambium-like, with high protein synthesis and lipid storage. The proteins are essential to enzymatic metabolism, and secondarily, to larvae nutrition, similarly to the lipid droplets which confer energetic profile to these nutritive cells. The living enucleated cells receive mRNA from their neighbor ones, which may support the high metabolic profile of endoplasmic reticulum and ribosomes observed in galls. Thus, the nutritive cells are stimulated by the galling larvae activity, generating a new cell type, whose redifferentiation includes a mix of intrinsic and common plant pathways.     

The Nutrimentary Egg Development of the Mite,Varroa jacobsoni (Acari,Arachnida), an Ectoparasite of Honey Bees

The fine structure of the female gonad of Varroa jacobsoni is described. There are two components: the ovary proper and the so-called lyrate organ. The ovary is the place where oocytes mature, embedded in a supporting tissue composed of two cell types: somacells 1 and somacells 2. The lyrate organ has a nutrimentary function and is comprised of two components: supporting cells and nutritive tissue. The supporting cells are similar to the somacells 2 in that they contain abundant microtubules. The nutritive tissue is an extensive syncytium. It is connected with the oocytes via intercellular bridges, the nutritive cords. Oocytes and nutritive tissue are thought to have derived from common stem cells. From fine structural evidence it is concluded that ribosomes are one of the most important components to be transported via the nutritive cords into the oocytes. However, an increase in number of mitochondria in the middle-stage oocytes may also be a consequence of transport of these organelles from the nutritive tissue into the oocytes. Further characteristics make plausible that the interdependences of oocytes and nutritive tissue are comparable to those found in meroistic ovarioles of insects. The somatic components do not seem to be as important as the follicle cells of insects, however. It is assumed that the evolution of a nutrimentary oogenesis speeds up embryogenesis. Thus, the differentiation of the female gonad of Varroa jacobsoni may have facilitated the species' adaptation to a development completed in a short and limited time within the shelter of the covered brood cell of the bee.