The ontogeny of interstitial cells in Pennaria tiarella

The interstitial cells of Pennaria tiarella differentiate exclusively from the central endoderm of the planula. Shortly after their appearance, most of the interstitial cells become cnidoblasts. Subsequently, as the larva transforms into a polyp, both cnidoblasts and interstitial cells migrate from the endoderm, through endoblast and mesoglea, into the ectoderm. It is suggested that some interstitial cells remain in the endoderm and differentiate into the gland and mucous cells of the polyp gastroderm.     

An ultrastructural investigation of the striated subumbrellar musculature of the anthomedusan,Pennaria tiarella

The presence of striated subumbrellar musculature in hydromedusae can be related to the development in hydrozoans of a free-swimming life stage. The detailed ultrastructure of the striated subumbrellar musculature of the anthomedusan, Pennaria tiarella is presented. The striated musculature of Pennaria resembles vertebrate striated muscle in filament arrangement (L2 lattice pattern) and M line structure. The striation pattern, out-of-register myofilaments, filament structure as determined by rotational symmetry, Z line structure, types of intercellular junctions, and sarcoplasmic reticulum are more similar to structures found in other invertebrate striated muscle.     

A cytological and cytochemical study of hydranths of the hydroid coelenterate,Pennaria tiarella

Summary Cytological and cytochemical studies were undertaken on hydranths of the gymnoblastic hydroid, Pennaria tiarella and compared with conditions in the more abundantly studied but less typical genus, Hydra. The histological organization of Pennaria was more complex than in Hydra. This was particularly noted in: the regional organization of the endoderm into a pharynx, digestive region, and basal region; in the enhanced role of the epitheliomusculature in binding the endodermal epithelium to the mesolammella; and in the presence of two types of tentacles. The most striking cellular specialization was a much enlarged secretory cell in the digestive region which exhibited high levels of cytoplasmic and nucleolar RNA and protein. Current notions concerning form maintenance in coelenterates were discussed in connection with observations on nematocyst replacement and gonophore development in Pennaria.This work was supported by grants from the National Institutes of Health (RG-10003-02) and the National Science Foundation (G-18666), as well as a research career award (5-K3-HD-6176-02) from the National Institute of Child Health and Human Development.Contribution number 357 of the Bermuda Biological Station.     

The fine structure of spermatogenesis in Hymenolepis diminuta (Cestoda) with a description of the mature spermatozoon

The processes of spermatogenesis and spermiogenesis in Hymenolepis diminuta were studied by electron microscopy using improved preparative techniques. Spermatogonia (Type A) are characterized by nuclei 3.79 (+/- 0.17) micrometer in diameter, dense cytoplasm packed with free ribosomes and aggregates of mitochondria. After mitoses, certain spermatogonia (Type B) assume syncytial rosettes containing eight nuclei. Primary spermatocytes maintain the rosette syncytium and have large nuclei (4.28 +/- 0.24 micrometer in diameter), smooth endoplasmic reticulum, and polysomes. The secondary spermatocyte is short-lived and is characterized by nuclei (2.0 +/- 0.11 micrometer in diai (2.0 +/- 0.11 micrometer in diameter) and perinuclear membranous lamellae. The syncytial spermatid cluster contains avoid nuclei which condense and elongate to a final diameter of 0.22 +/- 0.04 micrometer. Once elongated, these nuclei become delimited from the syncytium by invaginations of the plasma membrane. During delimitation, cortical peripheral microtubules arise beneath the spermatozoon plasmalemma and a 9 + 1 axoneme extends the length of the mature lance-shaped spermatozoon.     

A fine-structural study of embryonic and larval development in the gymnoblastic hydroid Pennaria tiarella.

1. The pregastrulation blastomers contain electron-dense granules which become localized after gastrulation in the apices of the developing epithelio-muscle cells and persist throughout larval development. The cytoplasm of the blastomeres is organized into anucleate, membrane-delimited lobules. The lobules, which persist until six hours of development, come to contain a single, peripherally located cisterna of granular endoplasmic reticulum. Microvilli are present at the earliest stages examined and persist throughout development. Cilia are first detected at four hours. 2. Gastrulation, marked by the appearance of the mesoglea, occurs between six and eight hours of development. Basal foot processes of epithelio-muscle cells are detected by eight hours, but myonemes cannot be detected until later in development. 3. Immediately following gastrulation, mucous cells begin their differentiation from dividing cells located near the apex of the ectoderm. During their differentiation, the cells elongate toward the mesoglea. 4. By 16 hours post-fertilization, a third cell type can be detected in the ectoderm. The cell, which contains no granules, has an unusual cytoplasmic organization in which fused membranes divide the cytoplasm into parallel compartments containing a single cisterna of granular endoplasmic reticulum. 5. The findings of the present study are correlated with those of previous studies of development in Pennaria and other hydroids. The possible functional roles of the Type I granules, the cytoplasmic lobules, and the nongranular cell are discussed.     

Further observations on the fine structure of the human spermatozoon

Summary The limiting membrane of the equatorial segment of the acrosome has a five layered appearance due to a thin dense layer apposed to the inner aspect of the unit membrane. Shorter localized areas with the same appearance are seen in the inner membrane of the anterior segment of the acrosome, but most of this membrane and all of the outer membrane of this segment show the tri-laminar unit membrane structure.In longitudinal sections the postacrosomal sheath is seen to consist of two different portions separated by a circumferential groove in the cell membrane. The anterior part is composed of a homogeneous dense layer from which regularly arranged projections extend toward the cell membrane. The posterior part is composed of a dense granular or homogeneous material apposed to the inner aspect of the cell membrane. This layer is limited posteriorly by a close union of the cell membrane with the nuclear envelope via a dense homogeneous material.In the implantation fossa the two layers of the nuclear envelope are interconnected by regularly spaced linear structures. The centriole found in this region has a constant orientation with respect to the long axis of the flagellum, and a system of numbering the triplets is proposed.The coarse fibers of the flagellum are finely cross striated with a period of 40 A. Near the abaxial surface of the fibers every forth line is somewhat thicker than the others, thus demarcating a major period of 160 A with three intraperiod lines of which the middle one is slightly thicker than the others.—A somewhat regular mode of termination of the tubular elements of the flagellum in the end piece is described.Supported by a Public Health Service International Postdoctoral Research Fellowship (number 1 F05 TW 1681-01), by Contract 69-2107 from the Center for Population Studies, National Institute of Child Health and Human Development, and by Statens Laegevidenskabelige Forskningsraad and P. Carl Petersens Fond, Denmark.     

The structure and development of the spermatozoon of Heterakis gallinamm (Nematoda)

The structure and development of the spermatozoon of the nematode Heterakis gallinamm has been described. The spermatozoon is amoeboid. The centrioles have the unusual structure of nine single fibres. The nucleus has no limiting membrane and is surrounded by mitochondria and organelles, here called alpha bodies. These alpha bodies appear to arise from Golgi complexes in association with granular endoplasmic reticulum in the spermatocytes and have a fibrillar component which is released into the peripheral cytoplasm of the spermatid when the spermatozoon is formed. There is no refringent cone as in other ascaroid spermatozoa.     

Morphology and fine structure of Acipenser persicus (Acipenseridae, Chondrostei) spermatozoon: Inter-species comparison in Acipenseriformes

This study describes morphology and fine structure of the Persian sturgeon (Acipenser persicus) (Acipenseridae, Chondrostei) spermatozoon. The results show that the spermatozoon of A. persicus is differentiated into an elongated head (length: mean±SD: 7.1±0.5μm) with an acrosome (length: 1.2±0.2μm), a cylindrical midpiece (length: 1.8±0.5μm), a flagellum (length: 50.3±5.9μm) and a total length of 59.2±6.2μm. Ten posterolateral projections (PLPs) arise from the posterior edge of the acrosome and there were 3 endonuclear canals that traversed the nucleus from the acrosomal end to the basal nuclear fossa region. Three to six mitochondria were in peripheral midpiece and the proximal and distal centrioles were located near to "implantation fossa" and basement of the flagellum. The axoneme has a typical eukaryotic structure composed of 9 peripheral microtubules and a central pair of single microtubule surrounded by the plasma membrane. Lateral fins were observed along the flagellum. The fins started and ended at 0.5-1μm from midpiece and at 4-6μm from the end of flagellum. There were significant differences in the size of almost all measured morphological parameters between males and flagellar, midpiece and nucleus characters were more isolated parameters that can be considered for detecting inter-individual variations. This study showed that sperm morphology and fine structure are similar among sturgeon species, but the dimensions of the parameters may differ.     

腔肠动物的毒素

腔肠动物是低等的后生动物,也是无脊椎动物中种数较多的一个重要类群。其触手等部位分布有大量的腔肠动物所特有的攻击及防卫性细胞——刺细胞,其中的毒液会引起动物的蜇伤中毒。腔肠动物毒素的主要成分为蛋白质、肽类、酶类和介质毒素,而肽类毒素是天然毒素中毒性最强的一种。腔肠动物在药用方面有着广阔的开发前景,随着医学科学的发展,对腔肠动物等海洋生物的药用研究日渐深入。     

Spermiogenesis and fine structure of the spermatozoon in a headstander, Chilodus punctatus (Teleostei, Characiformes, Anostomidae)

The main characteristic features of spermiogenesis in Chilodus punctatus (Characiformes) are rotation of the nucleus, development of a nuclear fossa, which extends as a narrow invagination deep into the nucleus and the way in which flagellum is formed. The chromatin condensation proceeds during the spermiogenesis from heterogeneous through homogenous and granular to a highly compact one present in the mature spermatozoon. Mature Ch. punctatus spermatozoon shows a spherical nucleus, short midpiece and flagellum with lateral fins. The centrioles are in perpendicular arrangement and are located in the deep nuclear fossa, which extends towards the anterior pole of the nucleus. The midpiece contains a few mitochondria, which are separated from the anterior fragment of flagellum by the cytoplasmic channel. Spermiogenesis and spermatozoon ultrastructure conform to the pattern observed in other ostariophysans, but for the first time the presence of lateral fins along flagellum has been documented in a representative of Characiformes.     

The organization and structure of nerve and muscle in the jellyfish Cyanea capillata (coelenterata; scyphozoa)

The perirhopalial tissue and swimming muscle of Cyanea were examined with light microscopical and electron microscopical techniques. The perirhopalial tissue is a thin, triangular septum found on the subumbrellar surface of the animal. It separates part of the gastric canal system from the surrounding seawater, and is bound on two sides by radial muscle bands and on the third, the shorter side, by a rhopalium and the margin of the bell. The ectoderm of the perirhopalial tissue is composed of large, somewhat cuboidal, vacuolated, myoepithelial cells. The muscle tails of these cells form a single layer of radial, smooth muscle. Neurons of the “giant fiber nerve net” (GFNN), which form an extensive net over the perirhopalial tissue, lie at the base of the vacuolated portion of the myoepithelial cells. These neurons are visible in living tissue. The morphology of individual GFNN neurons was examined following intracellular injection of the fluorescent dye Lucifer Yellow. The neurons are usually bipolar and free of branches. At the electron microscope level, one usually finds that the GFNN neurons contain large vacuoles. The other characteristic feature of these cells is that they form symmetrical, or nonpolarized, synapses; that is, synaptic vesicles are found on both sides of the synapse. The swimming muscle is striated and composed of myoepithelial cells. Each myoepithelial cell has several muscle tails, and those of adjacent cells are linked to gether by desmosomes. The endoderm of the perirhopalial tissue also was examined. This investigation of the organization and ultrastructure of the perirhopalial tissue and surrounding muscle was undertaken to provide essential background information for an ongoing physiological study of the GFNN neurons and their synapses.     

The fine structure of Pseudopedinella pyriforme Carter (Chrysophyceae)

Pseudopedinella pyriforme Carter displays a second non-emergent flagellum and vestigial anterior tentacles. The trailing rhizopodium is without supporting microtubules, and seemingly arises from a posterior vesicle apparently associated with the Golgi apparatus. Stalked pyrenoids, so far unreported for any other member of the Chrysophyceae, are demonstrated. The structure of P. pyriforme is compared with members of the Chrysophyceae and Craspedamonadales and its taxonomic position is discussed.