Desmosomes and hemidesmosomes in the flagellate Crithidia fasciculata

Summary The flagellum of the trypanosomatid flagellate Crithidia fasciculata expands asymmetrically as it emerges from the reservoir. Where the flagellar memhrane approaches the membrane lining the reservoir, desmosomes are found. These structures are arranged in several slightly curved lines and have many features in common with vertebrate desmosomes.In cultures, the flagellates stick to each other by their flagella and form rosettes. In these bundles of cells, probable sites of adhesion between flagella, or between flagella and pieces of debris, are marked by a dense filamentous tract which passes posteriorly along the flagellum and by a thick band lying just below the flagellar membrane. It is suggested that similar adhesions are found in the insect host where the flagellate attaches itself to the gut wall.     

Fine structure and tellurite reduction in azotobacter vinelandii

Summary The fine structure of Azotobacter vinelandii was examined using a micro-colony embedding method. With this technique the difficulty of obtaining well preserved bacterial flagella in thin sections of material prepared in the usual fashion for electron microscopy was overcome, as the cells and their appendages were held in their natural position. The insertion of flagella and their substructure as revealed by thin sectioning and negative staining was studied. The results obtained on the fine structure of the flagellum is discussed and a possible interpretation of the arrangement of sub-units is presented in a model. Some new inclusions and membranous structures in the cytoplasm of the cells are described. These structures do not appear to be involved in tellurite reduction. These is no evidence to indicate that the flagellar insertion sites showed any activity of tellurite reduction. Thus in Azotobacter, other systems seem to be responsible for the ability of the cells to reduce tellurite.     

The flagellar developmental cycle in algae: flagellar transformation inCyanophora paradoxa (Glaucocystophyceae)

Summary Flagellar development during cell division was studied inCyanophora paradoxa using agarose-embedded cells, Nomarski optics and electronic flash photography. The cells bear two heterodynamic and differently oriented (anterior and posterior) flagella. Prior to cell division, cells produce two new anterior flagella while the parental anterior flagellum transforms into a posterior flagellum. The parental posterior flagellum remains a posterior flagellum throughout this and subsequent cell divisions. The development of a single flagellum thus extends through at least two cell cycles and flagellar heterogeneity is achieved by semiconservative distribution of the flagella during cell division. Based on these principles a universal numbering system for basal bodies and flagella of eukaryotic cells is proposed.     

The effect of monensin on gametogenesis and zoosporogenesis in the aquatic fungus,Allomyces macrogynus

Summary Cytoplasmic cleavage in the gametangia and zoosporangia ofA. macrogynus was studied using monensin, an ionophore known to disrupt several endomembrane functions in plant and animal cells. Monensin interfered with normal gamete and zoospore formation in a dose dependent manner such that at a 20 M concentration very abnormal cells were released from the reproductive structures. It was evident that monensin's effect was most pronounced during the first 25 minutes of gametogenesis and parallels in time the onset and continuation of the cytoplasmic cleavage events. Observations using fluorescence and differential interference contrast microscopy indicated that the ionophore inhibited normal cytoplasmic cleavage resulting in the production of multinucleate cells, many of which had either no flagella or multiple flagella. Transmission electron microscopy showed that the monensin-treated gametangia had many large vacuoles which contained amorphous electron-opaque material. X-ray microprobe analysis demonstrated that the elemental composition of the large vacuoles was identical to that of the dense globular inclusions seen in untreated gametangia, and morphological analysis confirmed the relationship between these endomembrane structures. Thus this swollen endomembrane component probably is not involved in the cleavage process. Single endomembrane cisternae which were very common in untreated gametangia were seldom seen in monensin-treated preparations. Instead, many smaller electron-transparent vacuoles were observed. These swollen cisternae may both represent monensin-modified Golgi apparatus equivalents and/or play a critical role during the process of gametogenesis and zoosporogenesis inA. macrogynus.     

Agglutination and glycosyltransferase activity of isolated gametic flagella from Chlamydomonas reinhardii

Isolated flagella from gametes of both mating types (mt⁺ and mt^-) of Chlamydomonas reinhardii were suspended in buffer containing 7% sucrose. After mixing instantaneous agglutination occurred, giving rise to clumps which seem to be stable for at least 24 h. Control experiments show that no aggregates are formed when gametic flagella of one mating type are mixed with flagella prepared from vegetative cells of the other mating type.This in vitro agglutination is inhibited by a number of salt solutions in the same concentration range in which the agglutination of live gametes is affected. Moreover the clumps of flagella tend to disaggregate completely when the salt solutions are added after agglutination has occurred, or by treatment with trypsin. These observations suggest that the in vitro agglutination of isolated gametic flagella indeed reflects their physiological role in the recognition step of the mating process, which appears to be possible without participation of live gametes.We have also investigated the activity of glycosyl transferases on isolated gametic flagella before and during the in vitro agglutination reaction. As there was no detectable increase in the activity of glycosyl transferases, our results do not favour the hypothesis that these enzymes are involved in the primary step of recognition between gametic flagella.Dedicated to Prof. Dr. Otto Kandler on the occasion of his 60th birthday     

Flagellar transformation in the heterokontEpipyxis pulchra (Chrysophyceae): Direct observations using image enhanced light microscopy

Summary Cells ofEpipyxis pulchra possess two heteromorphic flagella that differ markedly in function, particularly during motility and prey capture. Flagellar heterogeneity is achieved during the course of at least three cell cycles. Prior to cell division, cells produce two new long, hairy flagella while the parental long flagellum is transformed into a new short, smooth flagellum. The parental short flagellum remains a short flagellum for this and subsequent cell division cycles. Although flagellar transformation requires only two cell cycles, developmental differences exist between daughter cells and the maturation of a flagellum/basal body requires at least three cycles.     

Swimming behavior and ultrastructure of sperm of<Emphasis Type="Italic"> Lygodium japonicum</Emphasis> (Pteridophyta)

Swimming behavior of the sperm of Lygodium japonicum (Pteridophyta) and the associated ultrastructure of the flagellar apparatus were studied by video microscopy, transmission electron microscopy (TEM) and scanning electron microscopy (SEM). The sperm has approximately 70 flagella that emerge from a sinistrally-coiled flagellar apparatus, and swims forward by ciliary beat of these flagella. Backward swimming was not observed even after sperm collided with obstacles. Video microscopy showed that the flagella of the swimming sperm are oriented laterally and oblique-anteriorly. TEM and SEM observations revealed that the basal bodies of these flagella are arranged in at least two rows and oriented in the same directions as observed by video microscopy. These basal bodies (flagella) are categorized into two types according to their orientation: group I (laterally directed) and group II (oblique-anteriorly directed). The directionality of the basal bodies appears to be fixed by electron-dense material around their base. The outer dynein arms of the flagellar axoneme are entirely absent. These morphological characteristics of basal bodies (flagella) may relate to the lack of backward swimming behavior of the sperm. Based on these results, the evolution of swimming behavior in the archegoniates is discussed in connection with lack of backward swimming in a distantly related green alga, Mesostigma viride, and the Streptophyta.     

Characterization of the holdfast region of wild-type cells and holdfast mutants of Asticcacaulis biprosthecum

Mutants of Asticcacaulis biprosthecum lacking the ability to attach to various surfaces were selected by serial transfer in liquid media containing cheesecloth, to which wild-type cells attach but holdfast mutants do not. Congo red, incorporated into solid media, distinguishes between colonies of wild-type cells and those of holdfast mutants. Holdfast mutants were characterized and compared to wild-type cells according to their ability to swim, to attach to each other or to wild-type cells, for the presence on the cells of polar surface structures (holdfast, flagella, pili), and for sensitivity to phages. All holdfast mutants produced flagella, even though some mutants were nonmotile. Eighteen holdfast mutants fell into two groups: those apparently defective only in holdfast function and those defective in additional structures localized at the holdfast pole of the cell. None of these holdfast mutants was defective in prosthecal development. All holdfast mutants are capable of forming rosettes with wild-type cells, even though they are incapable of initiating attachment on their own, suggesting polymeric bridging as a likely mechanism for attachment.Abbreviation PYE peptone-yeast extract     

Intranuclear crystalline inclusions in spermatozoa ofLumbricus terrestris

Summary In the nuclei of atypical spermatids ofLumbricus terrestris granular or filamentous inclusions are surrounded by dense chromatin. Aggregation and condensation of chromatin in nuclei during spermatid differentiation coincide with increase in density, granularity, and the subsequent crystallization of the intranuclear inclusion. In mature spermatozoa, the crystalline inclusion displaying an irregular shape is composed of parallel repeating units measuring 50–80 Å. The subunits sometimes possess a clear central cavity.Atypical spermatozoa, possessing inclusions that distort their normally cylindrical shape, possess typical acrosomes, middle pieces, and flagella. Spermatozoa bearing intranuclear crystals are rarely observed in the seminal receptacles ofLumbricus.These intranuclear inclusions probably represent proteinaceous material that is not eliminated during nuclear differentiation. Their sole existence in the nuclei of spermatozoa, their transformation into crystalline structures during spermiogenesis, and their similarity to crystals in virus infected plant and animal cells suggest a viral origin.Supported by a training grant (GM-00582-07) from the Public Health Service.     

Morphology,ultrastructure, and development of the parasitic larva and its surrounding trophamnion of Polypodium hydriforme Ussov (Coelenterata)

Summary The larval stage of Polypodium hydriforme is planuliform and parasitic inside the growing oocytes of acipenserid fishes. The larva has inverted germ layers and a special envelope, the trophamnion, surrounding it within the host oocyte. The trophamnion is a giant unicellular provisory structure derived from the second polar body and performing both protective and digestive functions, clearly a result of adaptation to parasitism. The trophamnion displays microvilli on its inner surface, and irregular protrusions anchoring it to the yolk on its outer surface. Its cytoplasm contains long nuclear fragments, ribosomes, mitochondria, microtubules, microfilaments, prominent Golgi bodies, primary lysosomes, and secondary lysosomes with partially digested inclusions.The cells of the larva proper are poorly differentiated. No muscular, glandular, neural, interstitial, or nematocyst-forming cells have been found. The entodermal (outer layer) cells bear flagella and contain rough endoplasmic reticulum; the ectodermal (inner layer) cells lack cilia and contain an apical layer of acid mucopolysaccharid granules. The cells of both layers contain mitochondria, microtubules, and Golgi bodies; their nuclei display large nucleoli with nucleolonema-like structure, decondensed chromatin, and some perichromatin granules. At their apical rims, the ectodermal cells form septate junctions; laterally, the cells of both layers form simple contacts and occasional interdigitations. The lateral surfaces of entodermal cells are strengthened by microtubules.     

Pigments associated with the flagellum ofEuglena gracilis

The pigments associated with the flagellum of the phytoflagellateEuglena gracllis were characterized by HPLC. The pigment pattern of the wild-type strain was compared with a set of white mutants which did not display phototaxis and photoaccumulation in response to blue light. Flagella of the wild type contained FMN and FAD. Two mutants which lacked the stigma but retained a small paraxonemal body (PAB) contained less flavins. The whiteEuglena mutant FB, which retained a residual stigma and also a PAB, and the white phytoflagellateAstasia longa, a close relative ofEuglena, had normal amounts of flagellar flavins. Cells and flagella ofEuglena wild type contained an unldentified pterin-like pigment, called Pt₁₆, which was substantially reduced inAstasia and theEuglena mutants. A third pigment, designated P₅₂₈ with major absorption at 528 nm and fluorescence emission at 550 nm was present mainly in flagella. The association of the three pigment types with flagella and their respective alterations in the white strains indicates their possible role in photoreception. Dedicated to Pill-Soon Song on the occasion of his 60th birthday.     

Unusual distribution of a glycolipid antigen in the flagella ofChlamydomonas

Summary Mouse hybridomas were obtained that secrete monoclonal antibodies recognizing glycolipid antigens located in the flagellar membrane of the biflagellate alga,Chlamydomonas reinhardtii. The antigen is an acidic lipid that migrates slightly slower than a GM1 ganglioside on thin layer chromotography. The binding of the antibodies to the thin layer plate was inhibited by periodate oxidation suggesting that the antibodies are recognizing a carbohydrate epitope. In a variety ofChlamydomonas strains, these antibodies were found to stain the flagella of only a sub-set of the cells in the population, generally varying from 50% to 75% of the cells. Even after cloning, the population of cells continued to express this variability in staining, and presumably, expression of the glycolipid epitope. Although most cells showed either strong staining of both flagella or no detectable staining of both flagella, a subset of the cells in the culture exhibited differential antibody labeling of the two flagella, suggesting that an individualChlamydomonas can exhibit a different glycolipid composition in each of its two flagellar membranes and even differential expression along the length of an individual flagellum.     

Concanavalin A binding to Chlamydomonas eugametos flagellar proteins and its effect on sexual reproduction

The relative amounts of Concanavalin A (Con A) bound by gamete and vegetative flagella of both mating types (mt ⁺ and mt ^-) of Chlamydomonas eugametos were determined using ¹²⁵I-Con A. Con A agglutinated all cell types by cross-linking their flagella in a random manner. No correlation was found between the extent of Con A-binding and Con A-mediated isoagglutination. Con A inhibited the sexual interaction between gametes at various levels. In mt ⁺ gametes it blocked sexual agglutination, whereas in mt ^- gametes it prevented papillar fusion. By SDS-gel electrophoresis nine Con A-binding components were found to be present in flagella. However, it was not possible to allocate a role in sexual agglutination to any of these components since they were present in all cell types, including vegetative cells which are not able to sexually agglutinate.Abbreviations Con A concanavalin A - SDS sodium dodecyl sulphate - TB Tris buffer - PBS phosphate buffered saline - HRP horse radish peroxidase - SEM scanning electron microscope - PAS periodic acid Schiff     

Food capture and adhesion by the heliozoonActinophrys sol

Summary The heliozoonActinophrys sol is characterized by needle-like axopodia radiating from the spherical cell body. When helio-zoons capture food organisms, the prey is caught by adhesion to the surface of axopodia where numerous extrusomes are present close to the plasma membrane. To understand the molecular mechanism by which the heliozoons capture prey organisms, crude isolation and characterization of the adhesive substance was carried out. Prey flagellates (Chlorogonium elongatum) adhered and aggregated to remnants of heliozoon cells which had been killed by freezing or treatment at high temperature (80 °C for 10 min). Isolated extrusomes, which were prepared as the supernatant of cells homogenized and centrifuged after freezing and thawing, showed strong adhesion to the prey flagellates which responded to the supernatant by adhering their flagella and cell bodies to each other to form bouquet-like cell clusters. The adhesive substance was further extracted from heat-treatedA. sol. This fraction contained filamentous material similar to the secreted contents of the extrusomes observed during feeding. Its adhesive activity was not inhibited by trypsin treatment.     

Sexual agglutination factor from Chlamydomonas eugametos

Chlamydomonas eugametos gametes can sexually agglutinate via their flagellar surfaces whereas vegetative cells cannot. Therefore, flagellar glycoproteins, present in gamete cells but absent from vegetative cells, were investigated as prospective mt ^-agglutination factors. They were identified as periodic acid Schiff (PAS) stained bands separated in sodium dodecyl sulphate-polyacrylamide electrophoresis gels. Gamete-specific bands were determined by comparison with equivalent gels of vegetative flagella and by immunological techniques using antisera raised against isolated mt ^- gamete flagella. Four high molecular weight flagellar glycoproteins proved to be gamete specific (PAS-1.2, PAS-1.3, PAS-3 and PAS-4). They were extracted from flagella by 3 M guanidine thiocyanate, separated in a column of Sepharose 2B, and tested for in vitro agglutination activity on mt ⁺ gametes. A single peak of activity was found to be correlated with the presence of the PAS-1.2 band. It is shown that mt ^- agglutination activity is related to the concentration of this glycoprotein in flagellar membranes.Abbreviations SDS sodium dodecyl sulphate - PAS periodic acid Schiff - GTC guanidine thiocyanate - mt ^-/+ mating type plus or minus     

Membrane glycoproteins of Chlamydomonas eugametos flagella

The flagellar glycoproteins exposed on Chlamydomonas eugametos gametes were labeled by means of lactoperoxidase, diiodosulfanilic acid and chloramine T, and characterised in SDS-electrophoresis gels. The medium from gamete cultures contains particles (isoagglutinins) that agglutinate gametes of the opposite mating type. When crude preparations of these particles were subjected to isopycnic centrifugation in a caesium chloride gradient, two bands of particles were found. The lighter, active band consisted of membrane vesicles. The denser, inactive band consisted of cell wall material. The active band had the same glycoprotein composition as membrane vesicles artificially made from isolated flagella. Preparations of glagella were also separated on a caesium chloride cushion into pure flagella and cell wall material. The flagella, but not the cell wall material, isoagglutinated opposite gametes. Again the glycoprotein composition of pure flagella was similar to that of pure isoagglutinin vesicles. No difference was detected between the protein and glycoprotein compositions of flagella and isoagglutinins from both mating types.Abbreviations LPO lactoperoxidase - PB phosphate buffer - DISA diazotized ¹²⁵I-iodo-sulfanilic acid - SDS sodium dodecyl sulphate - CBD coomassie Brilliant Blue - PAS periodic acid Schiff     

Effects of supraoptimal temperatures on the myxomycetePhysarum polycephalum

Vibrio parahaemolyticus, the flagellated nonswarming marine bacteria were induced to swarm on solid media under three different conditions: growth at 20–26°C on medium containing 1% NaCl, growth on a medium in a sealed Petridish and growth on H₂O₂-treated medium. The morphological transformations observed in cells during swarming of V. parahaemolyticus are similar to those found jor the naturally swarming Vibrio alginolyticus. The mechanism of swarming in both species involves massive formation of peritrichous flagella and a negative chemotactive response to metabolic byproducts.     

Light dependence of sexual agglutinability in Chlamydomonas eugametos

The mating activity of mating-type plus gametes of Chlamydomonas eugametos depends on light. Cells lost their ability to agglutinate with mating-type minus gametes after a dark period of 30 min. They regained their agglutinability after 10 min exposure to light. Other mating reactions, such as tipping and flagellar tip activation, were not dependent upon light. Since cycloheximide and tunicamycin did not affect the light-induced activation of flagellar agglutinability, no protein synthesis or glycosylation is involved in this process. Equal amounts of biologically active agglutination factor could be extracted from cells placed either in light or in darkness. A minor portion of the active material was found to be located on the flagellar surface of illuminated cells. No active material was found on the flagellar surface of dark-exposed cells, whereas their cell bodies contained the same amount of active material as the cell bodies of illuminated cells. Since a light-induced flow of agglutination factors from the cell body to the flagella could not be detected and dark-exposed cells could be slightly activated by amputation or fixation by glutaraldehyde, we propose that light affects flagellar agglutinability by an in-situ modification of the agglutination factor on the flagella. When mt ⁺ and mt ^- strains were crossed and the progeny examined for light-sensitivity, it was apparent that this phenomenon is not mating type-linked.Abbreviations and symbols FTA flagellar tip activation - mt ^+/- mating type plus or minus - WGA wheat-germ agglutinin     

Na<Superscript>+</Superscript> and flagella-dependent swimming of alkaliphilic <Emphasis Type="Italic">Bacillus pseudofirmus</Emphasis> OF4: a basis for poor motility at low pH and enhancement in viscous media in an “up-motile” variant

Flagella-based motility of extremely alkaliphilic Bacillus species is completely dependent upon Na⁺. Little motility is observed at pH values < ∼8.0. Here we examine the number of flagella/cell as a function of growth pH in the facultative alkaliphile Bacillus pseudofirmus OF4 and a derivative selected for increased motility on soft agar plates. Flagella were produced by both strains during growth in a pH range from 7.5 to 10.3. The number of flagella/cell and flagellin levels of cells were not strongly dependent on growth pH over this range in either strain although both of these parameters were higher in the up-motile strain. Assays of the swimming speed indicated no motility at pH < 8 with 10 mM Na⁺, but significant motility at pH 7 at much higher Na⁺ concentrations. At pH 8–10, the swimming speed increased with the increase of Na⁺ concentration up to 230 mM, with fastest swimming at pH 10. Motility of the up-motile strain was greatly increased relative to wild-type on soft agar at alkaline pH but not in liquid except when polyvinylpyrrolidone was added to increase viscosity. The up-motile phenotype, with increased flagella/cell may support bundle formation that particularly enhances motility under a subset of conditions with specific challenges.     

Formation of Polar Bundles of Pili and the Behavior of Azospirillum brasilenseCells in a Semiliquid Agar

This paper describes the formation of single polar bundles of pili on Azospirillum brasilensecells, the twitching motility of cell aggregates, and a new type of social behavior—the dispersal of bacterial cells in semiliquid agar associated with the formation of granular inclusions (the so-called Gri⁺phenotype)—which is an alternative to swarming (the Swa phenotype). The wild-type A. brasilensecells occurring in a semiliquid agar may show either the Swa⁺Gri^–, or Swa^–Gri^–, or Swa^–Gri⁺phenotype. The formation of single polar flagella (Fla) or polar bundles of pili may reflect two alternative states of A. brasilensecells. The components of the Fla system may be involved in the regulation of the phenotypic variation of azospirilla.