Gametogenesis and chromosome number in Postelsia palmaeformis (Laminariales, Phaeophyceae)

Gametophytes of the ‘sea palm’, the kelp Postelsia palmaeformis Ruprecht, produced gametes whether or not chelated iron was supplied in the culture medium, in contrast to the inhibition of gametogenesis seen with the absence of iron in many other kelps. As gametogenesis proceeded, every cell of the gametophytes was converted into a gamete so that the gametophytes did not continue to grow vegetatively. The portion of the life history from spore release through germination, gametophyte growth, gametogenesis, fertilization and growth of the young sporophyte was completed in 9–10 days under laboratory conditions. Chromosome counts showed that sporophytes had a diploid number of 26–34 chromosomes while sporangia and gametophytes had a haploid number of 14–17 chromosomes, indicating a typical haplodiplophasic life history as seen in other Laminariales.     

Die Bedeutung abiotischer Faktoren für die Gonadenentwicklung und Fortpflanzung mariner Evertebraten

This review concerns itself with two aspects of reproductive biology: commencement of gametogenesis and spawning. The activation of gametogenesis followed by gonadal growth, with a subsequent release of gametes. The gamete formation-spawning cycle varies in duration from weekly to yearly periods depending upon the species and geographical origin. The importance of exogenous factors is discussed. Among those exogenous factors which can be demonstrated to affect the gamete formation-spawning cycle are food, salinity, light and temperature. Gonad growth constitutes a more significant fraction of the entire reproductive cycle than does spawning and gametogenesis. The time during which gametes are released occupies a small fraction of the entire reproductive cycle. Since spawning is such a dramatic act, it has been described in detail for many species. Numerous investigators have shown interest in the factors and relationships which work to insure synchronization of spawning. These studies are fully discussed. Some considerations of larval ecology in relation to parental reproductive patterns are given. Finally, the possible mechanism involved in coordination of reproduction is presented.

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Mit Unterstützung desOffice of Naval Research, Nonr-233 (85).     

DIFFERENTIATION OF ULVA MUTABILIS (CHLOROPHYTA) GAMETANGIA AND GAMETE RELEASE ARE CONTROLLED BY EXTRACELLULAR INHIBITORS1

Blade cells of Ulva mutabilis Føyn (Chlorophyta) excrete regulatory factors into their cell walls and into the environment. These factors are essential for the maintenance of the vegetative state. “Sporulation inhibitor-1a” (SI-1a) is a glycoprotein that was isolated from the culture medium of axenic Ulva growing as an undifferentiated callus. This protein was unusually stable to denaturing treatments and showed an extremely high apparent molecular mass (M_r) of 1–4 × 10⁷ daltons estimated by size exclusion chromatography. The glycosylation was not essential for activity. SI-1a suppressed gametogenesis completely at concentrations lower than 10^?14 M. When Ulva developed normally in the presence of their symbiotic bacteria, smaller forms of SI-1 accumulated in the medium (10⁴–10⁶ daltons). Sporulation inhibitors of the same size spectrum and with similar properties were also extracted from crude cell walls of nonaxenic Ulva. A class of different nonprotein sporulation inhibitors (SI-2) of very low M_r and yet unknown structure was isolated from the inner space between the two blade cell layers. Excretion of all SI-1 forms decreased with maturation of the thallus, whereas the overall concentration of SI-2 in the thallus stayed constant throughout the life cycle. The SI-2 affected different Ulva species whereas SI-1 was species-specific. Gametogenesis was induced upon removal of both Sporulation inhibitors from small single-layered fragments of mature blades. After a “determination phase” of 23–46 h, dependent on the time of induction within the cell cycle, the cells became irreversibly committed to differentiation and were no longer susceptible to SI-1 or SI-2. Subsequently, during a 28-h “differentiation phase,” 16 progametes were formed by synchronous genome doublings and cell divisions and differentiated into mature gametes. These became motile and were released from the gametangia when the concentration of a “swarming inhibitor” of low M_r, excreted mainly during the “determination phase,” declined below a threshold concentration. The biochemical properties of these regulatory factors and their effects on gametogenesis and gamete release are described.     

ENVIRONMENTAL FACTORS AND SEXUAL EXPRESSION IN CHLOROCOCCUM ECHINOZYGOTUM (CHLOROPHYCEAE)1

Several environmental factors affected total growth and zygospore production in Chlorococcum echinozygotum Starr. The temperature range at which zygospore production occurred was more restricted than the range that supported vegetative growth. Light intensity had little effect upon zygospore formation: gamete production and gamete pairing occurred in darkness. Zygospore production occurred over a wide pH range; bicarbonate had a minor effect upon zygospore formation. Nitrogen concentration was the factor of primary importance. As the level of nitrogen supplied as nitrate, ammonia, urea and asparagine in the medium was increased, zygospore production first increased (over no nitrogen) at low levels and then decreased at high levels. All levels of glutamine supplied reduced zygospore production. A possible way in which nitrogen concentration in the medium and sexual expression are linked is discussed.     

Two tunicamycin-sensitive components involved in agglutination and fusion ofChlamydomonas reinhardtii gametes

To find out glycoproteins involved in the mating reaction ofChlamydomonas reinhardtii, the effect of tunicamycin (TM), a potent inhibitor of glycosylation of proteins, was studied. TM, when present during gametogenesis, blocked the acquisition of agglutinability ofmt ⁺ cells. TM also inhibited the recovery of agglutinability ofmt ⁺ gamete after trypsin treatment. On the contrary, TM blocked neither the acquisition of agglutination during gametogenesis ofmt ^- cells nor the recovery of their agglutinability after trypsinization. It was found, however, that the TM-treatedmt ^- gametes can agglutinate but do not fuse with non treatedmt ⁺ gametes at all. When gametes of gam-1mt ^-, a conditional mutant strain for cell fusion, were induced at non permissive temperature of 35°C and then transferred to 25°C, the ability of cell fusion was acquired after about 5 h incubation. Presence of TM completely blocked this acquisition. Based on these evidence, we conclude that at least two TM-sensitive glycoproteins are included in the mating reaction. The first component is located on the flagellar surface ofmt ⁺ gamete and responsible for agglutination withmt ^- flagella. The second component occurs on the surface ofmt ^- gamete and plays a role in the fusion withmt ⁺ gamete.Abbreviations CHI cycloheximide - mt mating type - TM tunicamycin     

Regulation by light of ammonium transport systems in Chlamydomonas reinhardtii

The unicellular green alga Chlamydomonas reinhardtii is able to take up methylammonium/ammonium from the medium at different stages of its sexual life cycle. Vegetative cells and pre‐gametes mostly used a low‐affinity system (LATS) component, but gametes obtained after light treatment of N‐deprived pre‐gametes expressed both LATS and high‐affinity system (HATS) components for the uptake of methylammonium/ammonium. The activity of the LATS component was stimulated by light in only 5 min in a process independent of protein synthesis. By using the lrg6 mutant that produces sexually competent gametes in the dark, light effects on ammonium transport and gamete differentiation have been separately analysed. We have found light regulation of four Amt1 genes: Amt1; 1, Amt1; 2, Amt1; 4 and Amt1; 5. Whereas light‐dependent expression of Amt1; 1, Amt1; 2 and Amt1; 4 was independent of gametogenesis, and that of Amt1; 5 was activated in the lrg6 mutant, suggesting a connection between this transporter and the subsequent events taking place during gametogenesis.     

Gametogenesis in the Monothalamous Agglutinated Foraminifer Cribrothalammina alba

Gametogenesis in the foraminifer Cribrothalammina alba involves changes in both the gamontic test and cytoplasm. As gametes begin to differentiate and gametic flagella emerge, pores form in a regular array over the gamontic test, constituting the only avenue for gamete release. The spherical, biflagellated gametes average 1.5μ in diameter and are released in rapidly moving swarms along with flagellated “spherical masses” that probably result from incomplete gametic differentiation. Gametogenesis occurs entirely within the test and utilizes the entire cytoplast. After gamete release is complete, the agglutinated test collapses and disaggregates within a fairly short time. Similar modifications of the gamontic test occur during gametogenesis in Ovammina opaca Dahlgren, but are otherwise unknown among monothalamous agglutinated foraminifera at present.     

Hypoxia and sulphide influence gamete production in Ulva sp.

Gamete production after exposure to hypoxia or sulphide was studied in the marine macroalga Ulva sp. collected in the Sacca di Goro, Italy. Experiments were carried out on discs (12 mm diameter) of thalli cultured in artificial sea water in laboratory at 20 ± 1 °C, 152 μmol m⁻² s⁻¹, 16 h photoperiod and 30‰ salinity. Dehydration of thallus was used as inducer of gametogenesis and growth and gamete release during recovery after 10, 20, 30 or 40 min dehydration (20 ± 1 °C, 25% humidity) were analysed. Unlike non-dehydrated thalli the dehydrated ones produced gametes. Thallus discs, non-dehydrated or subjected to 30 min dehydration, were exposed to hypoxia (1.78–4.02 μmol O₂ L⁻¹) or sulphide (1 mM) for 3, 5, or 7 days at 20 °C in the dark. Non-dehydrated and dehydrated thalli maintained in normoxic conditions in the dark were the controls. Gamete density was checked by counting at the end of the incubation period and during the subsequent 7 days of recovery under 16 h photoperiod in normoxic conditions. Non-dehydrated thalli maintained in normoxic conditions in the dark released gametes when returned to light suggesting that dark constitutes a stimulus to gamete production. The presence of gametes at the end of 3 days incubation of dehydrated thalli in normoxia demonstrated that gametogenesis can occur even in the dark. However, gametes were not present at the end of incubation in hypoxic and sulphidic conditions. Actually, during hypoxic incubation oxygen consumption in D-thalli was very low, only 0.117 × 10⁻³ μmol O₂ mg⁻¹ h⁻¹ compared to 5.93 × 10⁻³ μmol O₂ mg⁻¹ h⁻¹ in normoxia, denoting a reduction of the metabolic rate that could not sustain gametogenesis. During recovery after incubation in normoxic, hypoxic or sulphidic conditions densities of gametes from dehydrated thalli showed significant differences and resulted after hypoxia > after normoxia > after sulphide. Differences in non-dehydrated thalli were not significant. Dehydrated thalli, still green at the end of the incubation period, underwent blanching in the course of recovery in parallel to gamete production, while non-dehydrated thalli maintained their green colour even after exposure to sulphide. Our findings suggest that macroalga Ulva sp. can survive exposure to darkness, severe hypoxia and high sulphide levels and can maintain gamete production even when the exposure to these stress conditions is joined to dehydration.     

Signal transduction during fertilization in the unicellular green alga, Chlamydomonas

Sexual reproduction in the green alga, Chlamydomonas, is regulated by environmental conditions and by cell–cell interactions. After gametogenesis, flagellar adhesion between gametes triggers gamete activation, leading to cell fusion and zygote formation. Recent studies have identified new molecular events that underlie signal transduction during Chlamydomonas fertilization, including expression of a sex-determining protein, phosphorylation of a homeodomain protein, activity of a kinesin II and regulated translocation of an aurora/Ip11-like protein kinase from the cell body to the flagella.     

Gametogenesis inCoelomomyces dodgei Couch (Blastocladiales,Chytridiomycetes)

Summary The ultrastructure of gametogenesis was studied inCoelomomyces dodgei Couch (Blastocladiales, Chytridiomycetes), an obligate parasite of anopheline mosquito larvae and the copepod,Acanthocyclops vernalis. In infected copepods reared under a 16/8 hours light/dark photoperiod at 25 +2 °C., the gametophyte develops over a period of approximately seven days, and gametogenesis is triggered by the onset of the dark period during the last day of development. The initial step of gametogenesis is the elongation of the centriole to form the kinetosome, and measuring time from the onset of the final dark period (0 hours), this occurs prior to the beginning of the light period (8 hours). Subsequently, small vesicles that appear to originate from elements of the rough endoplasmic reticulum (rER) fuse at the distal end of the kinetosome forming the flagellar vesicle into which the axonemal microtubules elongate to form the flagellum (8–12 hours). Similar small vesicles apparently also derived from rER align in planes and fuse to form cleavage furrows which delineate the gamete initials (12–14 hours). As the gamete initials begin forming, the mitochondria within each initial fuse to form a single mitochondrion that associates with the lipid globules and microbodies forming the microbody-lipid globule complex (12–16 hours). The time elapsed between the formation of the flagellar vesicle to the release of mature gametes from the copepod host is about 8.5 hours. No differences were observed in the processes or timing of gametogenesis in male and female gametophytes.     

NUTRITIONAL REQUIREMENTS FOR SEXUAL REPRODUCTION IN MESOTAENIUM KRAMSTAI (CHLOROPHYTA) 1

Optimum conditions for conjugation in the heterothallic saccoderm desmid Mesotaenium kramstai Lemmer-mann have been determined. In culture, cells acquired the ability to form gamete pairs just prior to the onset of stationary phase after sufficient nitrate had been depleted from the medium. The appearance of potential gametes was delayed by increasing the concentration of KNO₃ When cells of both mating types were harvested from 15 to 18 day old cultures, washed, resuspended in fresh medium, and mixed, approximately 50 percent of the cells paired (measured three days after mixing) in a medium containing 0.13 mM or less KNO₃. At greater concentrations, fewer pairs formed; no pairs formed in medium containing 0.5 mM KNO₃. Conjugation was not inhibited by other macronutrients. Calcium and magnesium were essential for maximum conjugation. Although Ca²⁺ and Mg²⁺ contentrations of 0.05 mM and 0. I mM, respectively, were sufficient for optimum growth, maximum conjugation required more than 10 times these values. Few gamete pairs formed when either Ca²⁺ or Mg²⁺ was omitted from the medium, no pairing occurred when both Ca²⁺ and Mg²⁺ were omitted.     

Sexual reproduction inEudorina elegans (chlorophyta,volvocales)

Sexual reproduction inEudorina elegans Ehr. was studied in detail in laboratory cultures, with particular regard to conjugation between gametes and gone colony formation. Male and female gametes fused after being induced by changing the medium. The anterior end, including the flagellar base, of the male gamete entered the anterior region of the female gamete. Fusion of the two protoplasts proceeded laterally and posteriorly. The male gamete bore a slender cytoplasmic protrusion at the base of the flagella. This structure has not been previously described in the male gamete ofEudorina, and may participate in plasmogamy. A biflagellate gone cell swam from the germinating zygote and secreted a gelatinous envelope. It then divided to form a gone colony within the gelatious envelope, which moved during colony formation by means of the two flagella which were retained intact from the original gone cell.     

FLOW CYTOMETRIC ANALYSIS OF SPERMATOGENESIS IN THE DIATOM THALASSIOSIRA WEISSFLOGII (BACILLARIOPHYCEAE)1

Flow cytometry was used to detect and quantify sexual differentiation in the centric diatom Thalassiosira weissflogii (Grun.). Size (light scatter), chlorophyll, protein and DNA contents were measured for each cell throughout the process of differentiation. Male gametes were small round cells characterized by one complement of DNA and a lower protein and chlorophyll content than vegetative cells. Male gamete formation was induced by a long period of darkness (2 days) followed by a transfer to continuous light. Up to 30% of the initial cell population produced male gametes which appeared in the culture 14 h after release from darkness. Male gamete production was also detected in exponentially growing cultures in continuous light, but to a much smaller degree.     

Gametic differentiation in Chlamydomonas reinhardtii: light dependence and gene expression patterns

Gametes of Chlamydomonas reinhardtii synthesize numerous proteins not observed in vegetative cells and vice versa. Gametogenesis induced changes in gene expression were confirmed by SDS-PAGE of in vitro translation products using total RNA from gametes and vegetative cells. Vegetative cells and gametes thus represent two cell types with distinct patterns of gene expression. The generation of mature gametes from liquid cultures of asynchronously growing vegetative cells was dependent on light. This light requirement could not be substituted for by an organic source of energy and carbon, indicating that light serves as a signal in gametogenesis. The light signal was shown to become effective only after preincubation in nitrogen-free medium. This delayed competence for light indicates that the two external signals — nitrogen-starvation and light —may function in sequence. Execution of the light dependent step in gamete formation required cytoplasmic protein synthesis and RNA synthesis.Abbreviations CAM chloramphenicol - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - PSII photosystem II - TAP Tris acetate phosphate - TMP Tris minimal phosphate This paper is dedicated by C. F. Beck to Professor John L. Ingraham, teacher and friend, on the occasion of his 65th birthday     

Production of anisogametes and gamete motility dimorphism in Monostroma angicava

 The reproductive strategy of a marine alga with a heteromorphic biphasic life cycle was studied by analyzing various sexual reproductive characters in light of the evolution of anisogamy. Gametophytes of Monostroma angicava were dioecious and their gametes were slightly anisogamous. Volume of gametangium, density of gametangia and area of mature gametangial parts on each gametophyte did not differ from male to female. Therefore, the reproductive biomass investment for gamete production was considered to be the same for each sex. Anisogamy in this alga appeared to be derived from the difference in the number of cell divisions during gametogenesis, because the majority of male gametangia each produced 64 (2⁶) gametes and the female produced 32 (2⁵) gametes. This corresponded with measurements of cell size in male and female gametes. Further, the sex ratio was 1:1 for sexually mature plants sampled at Charatsunai. Therefore, it was suggested that in the field twice as many male gametes are released as female gametes. Liberated gametes of both sexes showed positive phototaxis. The swimming velocity of freshly liberated male gametes was a little higher than that of female gametes. Male gametes had the potential to swim for ca. 72 h and female gametes for ca. 84 h. The difference in gamete motility between the two sexes seemed to be related to cell size. Planozygotes were negatively phototactic and swam more rapidly than gametes of either sex. Received: 5 March 1997 / Revision accepted: 18 July 1997     

The effects of prostomium and proventriculus removal on sex determination and gametogenesis inTyposyllis pulchra (Polychaeta: Syllidae)

Summary The prostomium alone or the prostomium and proventriculus of reproductiveTyposyllis pulchra were periodically removed at known stages of oogenesis and the gametes were examined by transmission electron microscopy. If the proventriculus and prostomium were simultaneously removed prior to day 3 of the stolonization sequence, before gonial differentiation, the time reruired for stolon formation and concomitant gametogenesis was shortened; the animals, all of which had previously reproduced as females, produced only ultrastructurally normal sperm. Spermatogenesis in these induced males began earlier in the stolonization period than in normal males. However, the cytological events of spermatogenesis were not accelerated. When the same operation was performed after differentiated oocytes were present, gamete cytodifferentiation and development time did not appear to be affected and the animals remained female. Removal of the prostomium alone, formerly thought to have no effect, caused high mortality and if removed prior to day 3 appeared to prevent both stolonization and gametogenesis. Ultrastructural investigation of these animals shows that gonads are maintained, but that gonial cells fail to differentiate or produce gametes. The subsequent removal of the proventriculus and regenerating prostomium from these animals allows them to mature as induced males. This suggests a prostomial role in regulating the endocrine activity of the proventriculus during the reproductive cycle.     

The production and activity of extracellular amylase by Rhizoctonia bataticola

Rhizoctonia bataticola produced the highest amounts of amylase in medium containing starch than that lacking starch within the 10 days of culture. Doubling the concentration of starch in the growth medium resulted in a near doubling of the amylase activity. Amylase production by the fungus is related to the type of carbon source in the medium with maximum amylase produced in medium containing starch. The maximum activity of the enzyme was detected in extracellular filtrates obtained from 4 days cultures. After this period, amylase activity decreased at first, and then increased through the 10 days incubation period. The fungus produced maximum levels of amylase prior to attainment of maximum mycelial biomass. Peak activity of the extracellular amylase was recorded at a temperature and pH range of 20–25°C and 4–5 respectively. The role of the exoenzyme in the deterioration of stored food products and its possible use in industrial fermentation processes are discussed.     

夜光藻有性繁殖研究进展

夜光藻是全球最主要的赤潮生物之一,也是我国近海常见的浮游甲藻。根据营养方式分为异养的红色夜光藻和混合营养的绿色夜光藻,前者广泛分布于温带和亚热带近岸水域,后者仅分布于热带西太平洋、阿拉伯海、阿曼湾和红海。夜光藻的生活史包括无性繁殖和有性繁殖过程。少部分营养细胞自发转变为配子母细胞,启动了有性繁殖。每个配子母细胞可形成大量配子,具有横沟、纵沟和2根鞭毛,形态与裸甲藻接近。配子两两融合形成合子,合子不经过休眠孢囊阶段直接发育成新的营养细胞。目前,对配子母细胞形成的调控机制、合子发育的影响因素的认识还存在分歧。研究发现,营养细胞经过一定次数的二分裂后都会转变为配子母细胞,而配子的存在能够中止此过程,使营养细胞继续进行二分裂。因此,有性繁殖可能通过产生新个体对种群增长做出贡献,还可能通过释放配子维持无性繁殖,进而促进种群增长。配子在相模湾水域全年都有分布,其丰度峰值与营养细胞丰度峰值同步或提前出现,配子的大量出现可能是赤潮形成的必要条件。对有性繁殖的研究佐证了夜光藻在甲藻的系统进化中处于较为古老的地位。此外,还简单介绍了研究夜光藻有性繁殖的主要方法,回顾了国内的夜光藻研究,并对相关研究进行了展望。     

Production of <Emphasis Type="Italic">Anti-Helicobacter pylori</Emphasis> metabolite by the lichen-Forming fungus <Emphasis Type="Italic">Nephromopsis pallescens</Emphasis>

The present study was conducted to evaluate the antibacterial activity of lichen-forming fungi (LFF) against Helicobacter pylori, and to optimize the culture conditions of LFF for maximum production of natural antibiotics against H. pylori. To accomplish this, a screening assay was first conducted among 19 species of LFF. The extract of Nephromopsis pallescens (KOLRI-040516) exhibited the strongest anti-ff. pylori activity. Bioautograghic TLC and HPLC analysis identified usnic acid as the main antibacterial substance produced by JV. pallescens. The growth of JV. pallescens and production of antibacterial substances produced by the fungus were then investigated under several culture conditions including the culture media, initial medium pHs, incubation temperatures, and the degree of aeration. The results indicated that culture in MY medium with an initial pH of 6.0, a temperature of 15°C and a low degree of aeration supported the largest usnic acid production of the fungus (16.4 ug usnic acid/g dry biomass). Especially, aeration was found to be an important factor that affect both growth and usnic acid production of N. pallescens.     

Induction of abnormal male gametes and androgenesis in the aquatic PhycomyceteAllomyces

Summary Induction of cleavage of the cytoplasm in the gametangium of a predominantly male strain of the aquatic PhycomyceteAllomyces under conditions of oxygen starvation, in the presence of dilute lactic acid, or dilute phosphate buffer, pH 7.0, resulted in multinucleate-multi-flagellate gametes. Under certain conditions the frequency for such abnormal gametes approached 70%. Phosphate buffer pH 7.0, at a concentration of 5 × 10^–3-1×10^–2 M and an incubation time of 90 minutes was found to be most effective in inducing multi-flagellate-multinucleate gametes. Nuclear fusion and multiple nuclear fusions were observed in these abnormal gametes as they developed into sporophytic thalli on dilute nutrient agar (YpSS/10). Multinuclear gamete development and nuclear fusion was analysed by electron microscopy. The reported observations reveal the occurrence of androgenesis from multinuclear male gametes inAllomyces.