Flagellation and taxonomy ofAcetobacter andAcetomonas

Summary Leifson's findings, that motile, acetate-oxidizing acetic acid bacteria (Acetobacter) have peritrichous flagella, and that motile, non-acetate oxidizing ones (Acetomonas) have polar flagella, of notably short wavelength, are fully confirmed and photographically illustrated. It is not confirmed, however, that the peritrichous flagella ofAcetobacter are always of “orthodox” type with a wavelength of about 2.9 μ, nor that they always tend to be few in number. In one strain ofA. aceti they were numerous, and the wavelength was as short (1.4 μ) as that considered byLeifson to be uniquely confined to the polar flagella ofAcetomonas. Furthermore the polar flagella of the latter genus seem not always to be multitrichous, strains having been found with only a single polar flagellum.     

Elektronenmikroskopische Untersuchungen am Spermatozoon des Opossum (Didelphys virginiana Kerr)

Summary Spermatozoa from the epididymis of Didelphys virginiana Kerr have been investigated by means of light and electron microscopy.In the head of the spermatozoon the nucleus consists of a thick mass which has a deep cleft on the one side and an indentation on the other.The acrosome is long and flat. It is situated in the head of the spermatozoon near one side of the cleft.The tail of the spermatozoon is affixed to the nucleus by means of a budlike thickening which is inserted into the indentation. The fine structure of the tail is described in detail.Based on the electron micrographs a diagram has been devised to show the structural details described in the text.     

A light and electron microscopic study of the quadriflagellate green algaSpermatozopsis exsultans

The green flagellateSpermatozopsis exsultans Korshikov has been studied in culture by light and electron microscopy. The organism is naked, bears four flagella and is conspicuously spirally twisted. The ultrastructure and location of cell organelles (except the flagellar apparatus) has been investigated in detail using an absolute configuration analysis. With the exception of a doubling of the flagella and of the secondary cytoskeletal microtubule system,S. exsultans has the exact same complement of organelles occupying the same relative positions as has been described forS. similis. The two species are therefore correctly placed in the same genus. The usefulness of absolute orientations of cell organelles for green algal taxonomy and phylogeny is stressed.Dedicated to Prof.M. Mix on the occasion of her 60th birthday.     

Ultrastructure ofCyanoptyche gloeocystis f.dispersa (Glaucocystophyceae)

Cyanoptyche gloeocystis f.dispersa (Geitler)Starmach is a palmelloid colonial alga that contains prokaryotic blue-green endocytobionts (cyanelles) instead of chloroplasts. The periphery of the host cell shows a peculiar lacunae system with underlying microtubules. Vegetative cells possess two rudimentary flagella. Zoospores are dorsiventrally shaped with two heterokont and heterodynamic flagella which originate from a subapical depression. This depression can also be seen in vegetative cells. Both flagella possess non-tubular mastigonemes. Main reserve product is starch lying freely in the cytoplasm. Cyanelles, enclosed singly in a host vesicle, are provided with a remnant cell wall. Thylakoids are arranged concentrically. The central part of each cyanelle harbours its DNA and one large polyhedral body, probably a carboxysome.Cyanoptyche gloeocystis f.dispersa shares all taxonomically essential characters with the monadoidCyanophora, the palmelloidGloeochaete, and the coccoidGlaucocystis. All of them are members of the cyanelle-bearing small algal classGlaucocystophyceae. Members of this class serve as model organisms for the evolution of chloroplasts from cyanophycean ancestors.Dedicated to Prof. DrLothar Geitler on the occasion of his 90th birthday.     

Structure of the Testes,Spermatozoa and Spermatozeugmata of Mimagoniates barberiRegan, 1907 (Teleostei: Characidae), an Internally Fertilizing,Oviparous Fish

Abstract The testis of Mimagoniates barberiis bipartite. Spermatogenic tissue is restricted to the anterior part. The posterior part of the testis is devoid of spermatogenic tissue and contains numerous efferent ducts filled with mature sperm. Cells in germinal cysts develop synchronously, sperm nuclei and flagella become oriented parallel in the late stages of spermiogenesis. In the caudal portion of the aspermatogenic part all sperms are arranged into unencapsulated sperm bundles — spermatozeugmata. Two types of spermatozeugmata are found both in the caudal portion of the testis and in milt. In the larger, spindle–shaped type, sperm flagella form the spindle tips. In the smaller ones, which have approximately a length of spermatozoon, the sperm are parallel and approximately in register. In both types sperm heads are arranged parallel. A mature spermatozoon is flail–shaped. The sperm head is highly elongated and situated alongside the flagellum, the tip of the head is directed backwards. Large mitochondria are situated on one side of the elongated nucleus only and form the tip of the head. Live spermatozoa move with the centriolar part ahead. Both testis and spermatozoon structure as well as formation of spermatozeugmata in M. barberiare highly derived features which perhaps evolved as adaptations to internal fertilization.     

Ultrastructural study of spermatogenesis and the spermatozoon in Postorchigenes gymnesicus (Trematoda,Lecithodendriidae)

An ultrastructural study of spermatogenesis, spermiogenesis, and spermatozoa in Postorchigenes gymnesicus is presented. Cytoplasmic projections originating in nurse cells surround the spermatogonia, which are located at the periphery of the testes. Primary spermatocytes attached to a cytophore show synaptonemal complexes and a pair of centrioles. Spermiogenesis begins with the appearance of a cytoskeletal structure formed by an intercentriolar body and two perpendicular centrioles. An axoneme and a striated rootlet emerge from each centriole. The progressive rotation and fusion of both flagella with the median process occurs simultaneously with the migration of nucleus to the distal tip of the forming spermatozoon. The mature spermatozoon consists of three regions: (1) the nuclear region, containing the nucleus, one mitochondrion, two 9+1 axonemes, and cortical microtubules; (2) the intermitochondrial region, containing two axonemes; and (3) the mitochondrial region with another mitochondrion, two axonemes, cortical microtubules, and external ornamentation symmetrically and asymmetrically arranged coincidental with the cortical microtubules. Glycogen particles, absent in testicular cells, are abundant in the spermatozoon. Ultrastructural features of the non-nuclear region of the spermatozoon are specific for P. gymnesicus and are proposed to characterize the spermatozoon of digenean species. J. Morphol. 234:223–232, 1997. © 1997 Wiley-Liss, Inc.     

The flagellar structure of the flame cell in fish tapeworm (Diphyllobothrium latum)

Summary The flame cell of the fish tapeworm (Diphyllobothrium latum) is investigated. In cross-section the flagella originating from the flame cell are hexagonal, except the incomplete ones facing the tubular wall. The function, as regards this unusual structure, is discussed. The axial filament complexes in one flame cell are arranged in opposite directions to each other. Thus the flame cell flagella seem to show many deviating characteristics as compared with those hitherto described. This investigation is supported by Oskar Öflunds Stifteise.It is a pleasure to acknowledge the skilful technical assistance of Miss Tellervo Huima.     

Allomyces neo-moniliformis gametogenesis

Summary InAllomyces neo-moniliformis meiosis takes place during resting sporangium germination. The meiospores are characteristically binucleate and biflagellate as described byEmerson (1938) andTeter (1944). A variation in the number of nuclei and flagella per meiospore from two is correlated with germination of the resting sporangia under reduced oxygen tension. The meiospores are extremely poor swimmers and are typically amoeboid. At encystment the gamma bodies of the cell are mobilized and appear involved in cyst wall synthesis. A single mitotic division of each nucleus gives rise to four nuclei. Gamete cleavage is as described for spore cleavage inBlastocladiella (Lessie andLovett 1968). The assembly of the nuclear cap and side body complex of the spore are extremely late processes in gametogenesis. The gametes are released when the single papilla dissolves. The gametes fuse in pairs and after zygote formation the cell is uninucleate with two flagella. The biflagellate zygote is an active swimming cell. The presence of homothallism or hetero-thallism inA. neo-moniliformis is discussed.     

Spermatological characters in the diphyllobothriidean Schistocephalus solidus (Cestoda)

Levron, C., Yoneva, A. and Kalbe, M. 2011. Spermatological characters in the diphyllobothriidean Schistocephalus solidus (Cestoda). —Acta Zoologica (Stockholm) 00 : 1–8. The spermiogenesis and the mature spermatozoon of Schistocephalus solidus (Cestoda: Diphyllobothriidea) are described using transmission electron microscopy. Spermiogenesis in S. solidus begins with the formation in the spermatid of a differentiation zone surrounded by cortical microtubules and delimited by arching membranes. This conical area presents two centrioles associated with striated rootlets and a median cytoplasmic extension between them. The centrioles are separated by an intercentriolar body composed of three electron‐dense plates dividing four electron‐lucent plates. The centrioles give rise to two flagella that undergo a rotation and later fuse proximodistally with the median cytoplasmic expansion. The presence of an electron‐dense material in the distal part of the differentiation zone is observed in the early stage of spermiogenesis. This pattern corresponds to Type I spermiogenesis according to the classification proposed by Bâ and Marchand (Mémoires du Muséum National d’Histoire Naturelle 1995; 166 : 87). The mature spermatozoon of S. solidus presents the Type I pattern defined by Levron et al. (Biological Reviews 2010; 85 : 523). It consists of five regions that exhibit two axonemes, parallel cortical microtubules, nucleus and electron‐dense zones. The anterior tip of the spermatozoon possesses only a few singlets. The axonemes are of a 9 + ’1’ trepaxonematan pattern and do not reach the posterior extremity of the mature spermatozoon.     

Semicystic spermatogenesis and biflagellate spermatozoon ultrastructure in the Nile electric catfish Malapterurus electricus (Teleostei: Siluriformes: Malapteruridae)

Spermatogenesis and spermatozoon ultrastructure in the Nile electric catfish Malapterurus electricus are described using scanning and transmission electron microscopy. Although the testis organization conforms to the ‘unrestricted’ spermatogonial type, the species has a rare type of spermatogenesis not previously described among catfishes, ‘semicystic’, in which the cyst ruptures before the spermatozoon stage. Spermiogenesis also involves some peculiar features such as condensation of the chromatin in the posterior part of the nucleus to form a compact electron‐dense mass with some irregular electron‐lucent lacunae, while the uppermost part of the nucleus is a loose electron‐lucent area, absence of the nuclear rotation and, as a consequence, the centriolar complex and the initial segment of each flagellum arise directly in a position perpendicular to the basal pole of the nucleus, and occurrence of numerous vesicles in the midpiece. In addition, spermiogenesis includes migration of the diplosome and mitochondria to the basal pole of the nucleus, formation of two moderate nuclear fossae, each of which contains the centriolar complex, development of two independent flagella and elimination of the excess cytoplasm. The mature spermatozoon has a more or less round head with no acrosome or acrosomal vesicle, a long midpiece with numerous mitochondria and vesicles and two long tails or flagella having the classical axoneme structure of 9 + 2 microtubular doublet pattern and with no lateral fins and membranous compartment. These findings suggest that the ultrastructural features of spermiogenesis and spermatozoa of M. electricus are synapomorphies of types I and II spermiogenesis and spermiogenesis is closely similar to the type described in the Nile catfish Chrysichthys auratus.     

Spermiogenesis and the spermatozoon ultrastructure of Robphildollfusium fractum (Digenea: Gyliauchenidae), an intestinal parasite of Sarpa salpa (Pisces: Teleostei)

Spermiogenesis in Robphildollfusium fractum begins with the formation of a differentiation zone containing: two centrioles, each bearing striated rootlets, nucleus, several mitochondria and an intercentriolar body constituted by seven electron-dense layers. The two centrioles originate two free flagella growing orthogonally to the median cytoplasmic process. Later, the free flagella rotate and undergo proximodistal fusion with the median cytoplasmic process. Nuclear and mitochondrial migrations occur before this proximodistal fusion. Finally, the young spermatozoon detaches from the residual cytoplasm after the constriction of the ring of arched membranes. The spermatozoon of R. fractum exhibits two axonemes of different length of the 9 + ‘1’ trepaxonematan pattern, nucleus, two mitochondria, two bundles of parallel cortical microtubules, external ornamentation of the plasma membrane, spine-like bodies and granules of glycogen. Additionally, a shorter axoneme, which does not reach the nuclear region, the presence of an electron-dense material in the anterior spermatozoon extremity and the morphologies of both spermatozoon extremities characterize the mature sperm of R. fractum.     

Amino acid immobilization of fungal motile cells

Summary A 0.2 M mixture of L-leucine and L-lysine, a pair of amino acids which Machlis (1969) had shown could attract the zoospores of Allomyces in much lower concentrations, was found to immobilize zoospores by stopping flagellar motion. While the age of the spores does not affect the response to the amino acid mixture, the time for 100% immobilization does increase with increasing numbers of spores. Viability of the spores is not altered by treatment with the mixture of L-leucine and L-lysine and subsequent germling development is highly synchronized.Several other amino acid mixtures had a similar effect upon the Allomyces' flagellum. Indeed, L-lysine by itself seems to be the most effective compound tested. Immobilization of flagella in other fungi, algae, and one protozoan was also caused by treatment with L-leucine and L-lysine. Nothing is known of the mechanism of action of this amino acid treatment.     

Ultrastuctural and cytochemical study of spermatogenesis in Scrobicularia plana (Mollusca,Bivalvia)

The ultrastructure of the mature spermatozoa and spermatogenesis of the bivalve Scrobicularia plana are described. Support cells extend from the basal lamina to the lumen of the testis and are laterally connected to the germinal epithelium. Germ cells present intercellular bridges and flagella since the spermatogonial stage. While spermatogonia and spermatocytes appear connected to support cells by desmosome-like junctions, elongated spermatids are held at the acrosomal region by support cell finger-like processes. During spermiogenesis, the acrosomal vesicle differentiates from a golgian saccule and then migrates to the nuclear apex. A microtubular manchette arising from centrioles surrounds the acrosomal vesicle, the nucleus, and the mitochondria at the time these three organelles start their elongation, disappearing after that. The mature spermatozoon of S. plana lacks a distinct midpiece because the mitochondria extend from the region of the pericentriolar complex along the nucleus anteriorly for approximately 1.4 μm. The features of this bivalve type of modified spermatozoon are compared with those of other animal groups having similar modifications.     

Investigation of the ultrastructure of Dendrocoelum constrictum (Platyhelminthes,Tricladida) spermatogenesis and mature spermatozoa

To add to our understanding of dendrocoelid spermatozoa and to describe additional phylogenetic characters, the ultrastructure of the testis was investigated in the subterranean freshwater planarian Dendrocoelum constrictum. This is the first study investigating spermatogenesis and spermatozoon ultrastructure in a subterranean freshwater planarian species. We found that the basic structure of spermatozoa in D. constrictum is similar to that of other Tricladida that have been studied previously. In fact, D. constrictum spermatozoa possess an elongated nucleus, one giant mitochondrion, and two subterminal flagella with a 9 + ‘1’ pattern. The flagella emerge together from one side of the spermatozoon. However, D. constrictum has some characteristics that have not yet been described for other freshwater planarians. In fact, the number of cortical microtubules reaches the maximum number in the anterior and middle part of region I, and then decrease until they disappear towards the posterior extremity of the spermatozoon. The extreme tip of the anterior region of the spermatozoon exhibits a specific external ornamentation of the plasma membrane.     

The ultrastructure of zoospores ofAphanomyces euteiches and of their encystment and subsequent germination

Summary The ultrastructure ofAphanomyces euteiches during the periods of zoospore motility, encystment, and germination has been studied. The motile spore has two heterokont flagella inserted laterally into the groove of the zoospore body where each is attached to a kinetosome. The kinetosomes and flagella are anchored into the zoospore body by rootlets comprised of two rows of microtubules with up to 12 microtubules in the outer row and are attached by fine threads to a striate fiber bundle. Secondary microtubules are attached at right angles at regular intervals along the rootlets. An unidentified body, 1.25m in diameter, containing helical fibers 16 nm in diameter is present in each zoospore. This body is situated near the two kinetosomes on the side of the pyriform nucleus opposite the contractile vacuole. The Golgi complex is between the nucleus and the contractile vacuole. The latter is surrounded by a 0.5–1.0m wide zone of Golgi proliferated vesicles. Ribosomes are generally absent from this region. Endoplasmic reticulum containing tubules within the expanded cisternae are also present. Vesicles with striated electron opaque inclusions and vesicles containing a granular cortex and center that developed in previous stages of zoosporogenesis were also present. During encystment of the zoospore the latter vesicles disappear. The two flagella are shed at this time leaving a membrane-bounded granular knob protruding from each of the kinetosome terminal plates. The contractile vacuole becomes disorganized and the zoospore assumes a spherical shape. Cyst wall deposition begins immediately and is completed in 30 minutes. The spore begins to germinate 1 hour following initiation of encystment with the appearance of a bulge in the cyst wall which elongates into a germ tube. Mitotic nuclear division follows.Research supported by the College of Agricultural and Life Sciences Station Project No. 1281.Research assistant and Professor. The advice and assistance of G. A. deZoeten, G. R.Gaard, and S.Vicen are most gratefully acknowledged.     

Die Spermatozoen der Zecke Ornithodorus moubata (Murr)

Zusammenfassung Die reifen, den Weibchen entnommenen Spermatozoen von Ornithodorus moubata bestehen aus einem kolbig verdickten Vorderende und einem längeren, dünneren schwanzartigen Hinterende, in dem der Kern und das Akrosom sich befinden. Den Kern durchbohrt ein Stab, der mit einem Konus an der Akrosomplatte befestigt ist. Die Akrosomplatte ist eine Verdickung der Akrosomlamelle. Diese ist größtenteils als Akrosomkanal in das schwanzartige Ende eingestülpt. Zwischen Kern und Akrosomplatte bzw. -lamelle liegen 2 Zentriolen. Die Oberfläche ist mit Fortsätzen bestanden, die im Bereich der Spitze (Apex) pilzförmig, auf dem übrigen Spermatozoon leistenartig sind. Die Struktur der Fortsätze wird analysiert. Sie sind durch feine Füße mit dem Spermatozoon in Verbindung. Diese Strukturen stellen zytologische Differenzierungen dar, für die es bisher in der vergleichenden Zytologie keine Entsprechung gibt.

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The spermatozoa of the tick Ornithodorus moubata (Murr)

Summary Mature spermatozoa of Ornithodorus moubata removed from females consist of a thickened club shaped anterior part and a longer and thinner posterior part formed like a tail. The latter contains the nucleus and the acrosome. A rod perforates the nucleus and is attached to the acrosomal plate by a conical structure. The acrosomal plate is a thickening of the acrosomal lamella, which is mostly invaginated into the posterior part of the spermatozoon as an acrosomal channel. Between nucleus and acrosomal plate or acrosomal lamella two centrioles are located. The surface is occupied with processes which are fungiform at the apex and formed like strips at the main part of the spermatozoon. The structure of these processes has been analysed. They are connected to the spermatozoon by fine feet. These processes are cytological differentiations, which so far are unknown in comparative cytology.

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Herrn Prof. Dr. K. Goerttler zum 70. Geburtstag in Verehrung gewidmet.

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Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Spermiogenesis and sperm in Mesostoma viaregginum (Plathelminthes, Rhabdocoela): an ultrastructural study to infer sperm orientation

Spermiogenesis in Mesostoma viaregginum begins with the formation of a zone of differentiation containing striated rootlets, two centrioles, and an intercentriolar body in-between. These centrioles generate two parallel free-flagella with the 9+“1” pattern of the Trepaxonemata growing out in opposite directions. Spermatid differentiation is characterised by a 90° latero-ventral rotation of flagella and a subsequent disto-proximal centriolar rotation, with a distal cytoplasmic projection. The former rotation involves the compression of a row of cortical microtubules and allows recognising a flagellar side and an aflagellar side in the late spermatid and in the mature spermatozoon. At the end of the differentiation, centrioles and microtubules lie parallel to the spermatid axis. The disto-proximal centriolar rotation is proposed as a synapomorphy for the Rhabdocoela. The modifications of the intercentriolar body during spermiogenesis and the migration of the nucleus and the centrioles towards the cytoplasmic distal projection are also described. The mature spermatozoon of M. viaregginum is filiform and tapered at both ends and presents many features found in the Rhabdocoela gametes. The nucleus disappears before the flagellar insertion and a density gradient of mitochondria is observed along the sperm axis. The anterior end of the spermatozoon of M. viaregginum is characterised by a tapering capped by a membrane expansion. This study has enabled us to describe precisely the orientation of spermatozoa in the Rhabdocoela in general: the centriolar extremity is proposed as the anterior one for the Rhabdocoela.     

On the presence and character of the nucleolus in the spermatid and fecundant spermatozoons of heteropachyloidellus robustus roew

Summary The presence of the nucleolus and the nucleolonema in the spermatozoons of a specie of arachnides (Heteropachyloidellus robustus Roew.) is shown in this paper. This fact confirms the thesis supported in a previous work that the nucleolonema is a permanent cell structure.During the maturative process of the spermatid the nucleolus does not disappear, and only its morphology changes. After proving that the intranuclear body found in the spermatozoon is really the nucleolus, and after showing that this body is present in the fecundative spermatozoons removed from the female spermathecae, it is concluded that the nucleolus is carried to the egg together with the chromosomic material.     

A biflagellate spermatozoon in the African bonytongue Heterotis niloticus (Teleostei,Osteoglossidae)

In this transmission electron microscopy study, we describe the ultrastructure of the spermatozoon of Heterotis niloticus (Osteoglossiformes), which is distinguished by having two flagella. Our investigation also highlights the great diversity of sperm cell structures observed across osteoglossiform families, such as aflagellate (Gymnarchidae, Mormyridae), monoflagellate (Notopteridae, Pantodontidae) and biflagellate spermatozoa. As biflagellate spermatozoa are rare in vertebrates, we also summarize the orders and families known to possess this ultrastructural character, most of which are fishes.     

Saprospira grandis: A Flexibacterium That Can Catch Bacterial Prey by ``Ixotrophy'

Abstract A marine, multicellular, filamentous flexibacterium, Saprospira grandis Gross, can not only live heterotrophically on dissolved organic substrata, but can subsist on other microbes and can even catch motile bacteria by their flagella before killing and digesting them. Received: 7 October 1996; Accepted: 2 January 1997