臭蜣螂体壁的组织结构

对臭蜣螂Copris ochus Motschulsky体壁的组织学结构进行了光镜观察。用伊红和马洛赖氏三色法染色可见体壁尤其在腹壁的折叠处及膜翅壁中存在着胶原纤维。鞘翅中有内腔,具皮细胞,鞘翅背部表皮下陷形成桥墩状结构以支撑加固鞘翅腔并减轻重量。膜翅的背腹壁之间也具有内腔和皮细胞,并充满油脂腺（经分析是棕脂肪细胞腺）及其分泌物。足的肌肉束中被大量棕脂肪细胞腺环绕。棕脂肪细胞的存在为周围器官提供所需能量,并有减轻重量和润滑的作用。体壁表面具有大量突起、刚毛及大量粗细不等的管道与其下相通,加上大量油脂腺及其分泌机能,为其体表的减粘特性提供了形态和化学基础。鞘翅内腔的结构可为建筑仿生学提供一定参考。     

五唇兰珠被细胞的超微结构观察

应用透射电镜对五唇兰(Doritis pulcherrima)珠被细胞进行超微结构观察。结果表明,授粉38d后,五唇兰外珠被细胞尚保持完好,而内珠被细胞开始退化;线粒体内嵴减少或消失,内质网上的核糖体数量减少,液泡增加,在新形成的液泡内含有膜状结构和模糊的细胞器,但核膜完整,与细胞程序死亡的部分特征相似。     

Oviposition site of and gall formation by the fruit gall midge Asphondylia aucubae (Diptera: Cecidomyiidae) in relation to internal fruit structure

Most gall insects use young developing plant organs for gall formation; however, little information is available on the histological identification of such tissues or the changes in their availability with plant growth. We investigated the oviposition site of and the tissue used for gall formation by the midge Asphondylia aucubae Yukawa and Ohsaki, which is responsible for galls on the fruit of Aucuba japonica Thunb., by comparing the internal structures of young developing fruit, mature intact (uninfested) fruit, and galled fruit. The midge deposited eggs between the integument and the carpel of young fruit. Larval chambers were made of callus‐like tissue and were formed between the embryo sac and the carpel, where the integument was initially situated. The integument and part of the carpel were thus identified as critical plant tissues used by A. aucubae in forming galls. The integument degenerates in mature intact fruit; therefore, the season of emergence and oviposition by the midge may be determined by the timing of integument degeneration.     

The Fine Structure of the Integument of Free-Living and Parasitic Copepods. A Review

A perusal of the literature on copepod cuticles has been made, and results of the investigation of six species made by the author are included in this review. The integument of copepods is of the arthropod type. Pore canals and other structures traversing the cuticle, common in most arthropods, are not always present in free-living and some parasitic copepods. In parasitic forms, with advanced morphological changes, the cuticle is generally very thin and the epicuticle in many species forms external microvilli-like structures. In the copepods hitherto investigated the epicuticle is probably the sole layer present in the cuticle. Some copepods show specialized regions of the cuticular surface, the function of which still remains obscure. Integumental organs and integumental structures are numerous and variable. The association of bacteria with the cuticle has been observed in many species. The structure of the integument of parasitic species lacking an alimentary tube and in close contact with the host tissue or hemocoelic cavity supports the idea that the integument could be the obligatory site of nutrient uptake. In spite of the relatively few species of copepods that have been investigated, a remarkable variation of cuticular fine structure has been revealed.     

Seed coat development in Leucospermum cordifolium (Knight) Fourcade (Proteaceae) and a clarification of the seed covering structures in Proteaceae

MANNING, J. C. & BRITS, G. J., 1993. Seed coat development in Leucospermum cordifolium (Knight) Fourcade (Proteaceae) and a clarification of the seed covering structures in Proteaceae . The development of the seed coat and pericarp is studied in Leucospermum cordifolium from ovule to mature seed. The ovule and seed are characterized by a tegmic pachychalaza. The pericarp is adnate to the integuments from anthesis and remains unthickened to maturity. The outer integument forms the seed coat and the seed is endotestal: the outer epidermis becomes tanniniferous and the inner epidermis develops into a crystalliferous palisade. The inner integument degenerates at an early stage. Examination of the literature reveals that the crystal palisade layer of the outer integument has been erroneously assumed to constitute an endocarp. This finding indicates that a re-interpretation of all published information on the seed coat in indehiscent Proteaceae is necessary before any speculations on the phylogenetic significance of the seed coat can be entertained.     

The histogenesis of integuments in some species of menispermanceae

The mode of initiation and development of integuments was investigated in six species of five genera in Menispermanceae, which have bitegmic and unitegmic ovules. The species investigated have similar integumentary structures at maturity in each of the bitegmic and unitegmic ovules. In bitegmic ovules (e.g.Cocculus), both integuments are for the most part two-cell layered. The initiation of inner integument (ii) begins with divisions of dermal cells of the nucellar primordium. The initiation of the outer integument (oi) commences with divisions of subdermal cells. In unitegmic ovules (e.g.Stephania), the integument is initiated by periclinal divisions of dermal cells, and cells of subdermal origin (which may represent the oi in case of bitegmy) form a small swelling on the raphal side and, on the antiraphal side, are included in the base of the single integument. Unitegmy of Menispermanceae (at least in the case of the genera investigated) seems to have been derived through elimination of oi, rather than through “integumentary shifting” (Bouman and Calis, 1977), a process suggested for explanation of unitegmy as in Ranunculaceae.     

Homeotic Transformation of Ovules into Carpel-like Structures in Arabidopsis

Ovules are specialized reproductive organs that develop within the carpels of higher plants. In Arabidopsis, mutations in two genes, BELL1 (BEL1) and APETALA2 (AP2), disrupt ovule development. In Bel1 ovules, the inner integument fails to form, the outer integument develops abnormally, and the embryo sac arrests at a late stage of megagametogenesis. During later stages of ovule development, cells of the outer integument of a Bel1 ovule sometimes develop into a carpel-like structure with stigmatic papillae and second-order ovules. The frequency of carpel-like structures was highest when plants were grown under conditions that normally induced flowering and was correlated with ectopic expression in the ovule of AGAMOUS (AG), an organ-identity gene required for carpel formation. Together, these results suggested that BEL1 negatively regulates AG late in ovule development. Likewise, mutants homozygous for the strong AP2 allele ap2-6 sometimes displayed structures with carpel-like features in place of ovules. However, such abnormal Ap2 ovules are much less ovulelike in morphology and form earlier than the Bel1 carpel-like structures. Because one role of the AP2 gene is to negatively regulate AG expression early in flower development, it is possible that AP2 works in a similar manner in the ovule. A novel ovule phenotype observed in Bel1/Ap2-6 double mutants suggested that BEL1 and AP2 genes function independently during ovule development.     

蜣螂与壁虎刚毛的比较及改形对其功能的影响

脱附与粘附是工程作业的两个相互矛盾的难题,土壤和物料的粘附严重降低了机械的作业效率和质量,没有粘附又使某些机械无法工作或运行。目前世界流行的脱附技术,包括向界面注入空气的充气法、向界面注入溶液的充液法、利用机械或超声波的振动法、施加电场的电渗法、施加磁场的磁     

Ovular development and morphology of the outer integument of Magnolia grandiflora (Magnoliaceae)

Ovular development of Magnolia grandiflora was examined to determine the morphology of the outer integument. At the time the ovular primordium begins incurving, the outer integument is initiated subdermally, and later the inner integument arises from the dermal layer. Whereas the inner integument is annular, the outer integument is formed as a semiannular rim interrupted on the concave side of the funiculus. Later the outer integument becomes a hood-shaped envelope. The obturator is formed as a transversely elongate outgrowth on the concave side of the funiculus and intervenes in the gap of the outer integument. During further development the inner integument produces several distal lobes, and the outer integument becomes bilobed. The exostome is a transverse slit with a middle notch, formed by the outer integument and the obturator. Presumed wide occurrence of the hood-shaped outer integument in primitive families suggests that it is a primitive state. The outer integument is compared with the ovuliferous sporophylls of the glossopterid and caytonialean seed ferns.     

Temporal and Spatial Expression of MADS Box Genes, FBP7 and FBP11, During Initiation and Early Development of Ovules in Wild Type and Mutant Petunia hybrida

Abstract: The temporal and spatial distribution of the Petunia Floral Binding Proteins 7 and 11 (FBP7/11) were determined immunocytochemically during ovule initiation and development. In wild type plants, FBP7/11 were first detected in the placenta before ovule primordia were formed. At ovule primordium stage, FBP7/11 levels increased in the placenta and appeared in ovule primordia at the sites where integument primordia developed. At the megagametogenesis stage, FBP7/11 were present at high levels in the placenta, funicle and integument, but not in the nucellus or gametophyte. Transgenics with cosuppression of FBP7/11 formed normal ovule primordia on the placenta from which both normal ovules and carpel-like structures developed. The amount of FBP7/11 was low in the ovules and undetectable in the carpel-like structures. Plants with ectopic expression of FBP7/11 developed normal ovules on the placenta and, in addition, ovule- and carpel-like structures on sepals. Placental and sepal ovules showed the same labeling pattern as observed in wild type ovules. FBP7/11 levels were, however, low or undetectable in the carpel-like structures. The results indicate that FBP7/11 only have indirect roles in ovule primordium initiation. However, at least small quantities are needed for proper ovule differentiation. Thus, the amount of FBP7/11 is related to the type of development after primordium formation, i.e., towards the formation of real ovules or carpel-like structures.     

The structure and modification of integumental tissues in Pagurus bernhardus (L.) (Decapoda: Anomura)

The histological structure of cephalothoracic and abdominal integuments has been studied in the hermit crab Pagurus bernhardus (L.). In the branchial region of the carapace, the integument shows a similar structure as described hitherto in a number of other decapod species; there are a thin epicuticle, an exocuticle, and a relatively thick endocuticle, followed by a layer of columnar epithelium and underlying connective tissue. This pattern is repeated on the inner surface of the carapace fold but with generally thinner cuticular layers. Within the connective tissue there are tegumental glands, haemocytes, and some reserve inclusions. The abdominal integument shows a modified cuticle structure which is probably related to its specific function as an adhesive organ attaching the hermit crab to the inner surface of the gastropod shell. The cuticle is uncalcified and it shows deep wrinkles and grooves. Endocuticle and exocuticle are thick and layered whereas the epicuticle is very thin. Large funnel-shaped ducts with secretions occur frequently in the abdominal integument. The cells that are responsible for these secretions are described. The chemical nature of integumental structures has been studied with histochemical tests.     

Evidence for pyroelectric and piezoelectric sensory mechanisms in the insect integument.

Quantitative pyroelectric (PE) and piezoelectric (PZE) measurements were carried out on the insect integument of live Blaberus giganteus (cockroach) and on dry integument preparations of the same species. Voltage responses to optical pulses of 10--500 ms, absorbed in the live integument, were PE: interference filter measurements showed the responses to be proportional to the absorbed thermal radiation flux and independent of the wavelength. The voltage/time-course of the responses was in agreement with theoretically calculated PE signals. Voltage responses to mechanical pulses were PZE. The responses of the inner and outer integument surfaces always had opposite electric signs. The polar character of the integument was confirmed by means of a separate dielectric heating method. To explain these results, we hypothesize that the PE properties are for the most part localized in the two outermost layers (outer and inner epicuticle) of the integument, which consists mainly of polar lipids and proteins. Parallel alignment of these polar molecules perpendicular to the integument surface is very likely. PE and PZE responses, therefore, will not only occur in live insects but will also be measurable in dead, dry integument preparations as long as the polar tissue texture remains intact. Due to its polar texture, the insect integument will react to rapid changes in temperature, illumination, or uniaxial pressure in the same way as nonbiological PE materials, where the voltage responses depend on dX/dt (X, pressure or temperature). It seems clear, therefore, that the well-known physiological reactions of various arthropods to such physical outside influences may be related to the PE property of their integument.     

Morphological and ontogenetic studies on southern African podocarps. Initiation of the seed scale complex and early development of integument, nucellus and epimatium

STOFFBERG, E., 1991. Morphological and ontogenetic studies on southern African podocarps. Initiation of the seed scale complex and early development of integument, nucellus and epimatium. The primordium of the seed scale complex (ssc) (ovule with epimatium) is initiated in the axil of the first or second cone bracts (prophylls) as a dome shaped structure consisting of a group of uniform, meristematic cells. A distinct protodermal layer develops. The nucellus is a dome on the ventral side of the ssc primordium. In the species of section Podocarpus the integument is initiated as a circular ridge around the nucellus, while in P.falcatus two protrusions on the anterior and posterior sides of the nucellus are the first indications of integumentary differentiation. The integument of all species studied is of subdermal origin. The epimatium (sensu stricto) is initiated after the integument, is of subdermal origin and forms a hood around the developing ovule. Considering research results, together with related literature, it is concluded that the integument of gymnosperms may be homologous with the outer integument of a bitegmic angiospermous ovule, that the position of integumentary initiation may be specific for certain taxa and that there seems to be no constant sequence of emergence of ovular envelopes in gymnosperms.     

The Structure and Function of the Spore Outer Membrane in Dormant and Germinating Spores of Bacillus megaterium

Attempts to demonstrate the presence of the spore outer membrane in mature, dormant spores of a strain of Bacillus megaterium are described. The outer, integument, layers of this organism were found to contain one-third of the total spore cytochrome content, several enzymes of the electron transport chain (specifically NADH oxidase, dehydrogenase, cytochrome c reductase and NADPH dehydrogenase) and a large number of polypeptides extractable with sodium dodecylsulphate in the presence of dithiothreitol and protease inhibitors. These all suggest the presence of a membraneous element. Electron microscopic evidence is presented on the structure of the dormant integument enzymes. Changes in the integument enzymes and in the gel electrophoresis profile of the extractable integument polypeptides which occur during spore gemination, are described and compared with those that take place in the spore inner membrane. The heat sensitivity of the integument enzymes is compared with that of the inner membrane enzymes and the implications for theories of spore heat resistance discussed.     

Time studies of ecdysone-action on in vitro apolysis of Chilo suppressalis integument

The relationship between induction of in vitro apolysis and the duration of hormone treatment, and the effects of metabolic inhibitors on the ecdysone-induced apolysis were investigated in the cultured integument taken from the rice stem borer larva, Chilo suppressalis. When fragments of integument were subjected to 0.3 μg/ml β-ecdysone for more than 5 hr and then transferred to hormone free medium, they were induced to apolyse one day after treatment. If the fragments of integument were treated with hormone for 1 to 4 hr at first and then treated with hormone for 2 to 5 hr again after a 5 day interval in hormone free medium, almost all the fragments were induced to apolyse one day after treatment. This result suggests that the action of β-ecdysone on the cultured integument is accumulative. If the fragments of integument were cultured in the medium containing actinomycin-D and then transferred to medium containing β-ecdysone, a strong inhibitory effect on the apolysis of the integument was observed. Similarly, an inhibitory effect appeared when fragments of integument were treated first with hormone and then with puromycin. These results show that the m-RNA synthesis necessary for apolysis was completed within 6 hr after hormone treatment. However, the protein synthesis required for apolysis was not. The relationship of the results obtained from these in vitro experiments to the mode of action of ecdysone is discussed.     

Ovular development and morphology in some magnoliaceae species

Floral phenology and ovular development ofLiriodendron tulipifera are described. The ovule primordia are initiated in December, followed by prominent development in March, and the ovules are mature in May. The inner integument is formed as an annular rim on the incurving ovule primordia, but the outer integument develops as a semi-annular rim interrupted on the concave side of the funicle. Later, an outgrowth, which is interpreted here as an obturator, arises on the concave side of the funicle. The funicular outgrowth arises far from the inner integument, while the outer integument is close to the inner. The outer integument and the funicular outgrowth together form an envelope complex. Later the outer integument produces two distal lobes, which disappear at maturity. Mature ovules of the threeMagnolia species examined have similar lobes. It is suggested that the hood-shaped outer integument is primitive in angiosperms.     

A preliminary report on complex fibrillar aggregates in the gill epithelium of Panulirus interruptus (Randall)

Complex structures have been found in gill epithelium of the spiny lobster, Panulirus interruptus. These fibrillar structures are located at the base of gill filaments and at the ends of longitudinal septa which divide the gill filaments into channels for directional blood flow. The complex fibrillar aggregates compare favorably with secretory granules seen in crustacean integument and are believed to play a role in chitin metabolism.     

Mechanisms of derived unitegmy among Impatiens species

Morphological transitions associated with ovule diversification provide unique opportunities for studies of developmental evolution. Here, we investigate the underlying mechanisms of one such transition, reduction in integument number, which has occurred several times among diverse angiosperms. In particular, reduction in integument number occurred early in the history of the asterids, a large clade comprising approximately one-third of all flowering plants. Unlike the vast majority of other eudicots, nearly all asterids have a single integument, with the only exceptions in the Ericales, a sister group to the other asterids. Impatiens, a genus of the Ericales, includes species with one integument, two integuments, or an apparently intermediate bifid integument. A comparison of the development of representative Impatiens species and analysis of the expression patterns of putative orthologs of the Arabidopsis thaliana ovule development gene INNER NO OUTER (INO) has enabled us to propose a mechanism responsible for morphological transitions between integument types in this group. We attribute transitions between each of the three integument morphologies to congenital fusion via a combination of variation in the location of subdermal growth beneath primordia and the merging of primordia. Evidence of multiple transitions in integument morphology among Impatiens species suggests that control of underlying developmental programs is relatively plastic and that changes in a small number of genes may have been responsible for the transitions. Our expression data also indicate that the role of INO in the outgrowth and abaxial-adaxial polarity of the outer integument has been conserved between two divergent angiosperms, the rosid Arabidopsis and the asterid Impatiens.