Superiority of Hemoglobin to Hemin for Cultivation of Leishmania tropica Promastigotes in Serum-Free Media1

Leishmania tropica promastigotes grew slowly but could be maintained for long periods in serum-free hemin-containing media formulated previously for other Leishmania species or in slightly simplified versions of these media. Replacement of hemin in the medium by hemoglobin resulted in a much longer log phase and a significant reduction in the doubling time. Cell counts in cultures started at 1 times 10⁵ cells/ml increased 400-fold in less than 140 h in the hemoglobin-containing media. These media also proved suitable for growing L. donovani and L. enriettii promastigotes.     

Lateral segregation of membrane lipids and formation of stable rod-shaped membrane projections in erythrocytes treated with long-chain alcohols

Human erythrocytes, incubated with sonicated dispersions of phosphatidylcholine, cholesterol and saturated straight-chain alcohols (C₁₆-C₁₈) develop stiff, rod-shaped, hemoglobin-containing membrane projections within 120 min. The number of these ‘rods’ varies (1–3 per cell), they reach a length of up to 14 μm (twice the cell diameter) and a thickness of 0.3–1.0 μm. ‘Rods’ may be separated from ‘residual cells’ by shear flow and centrifugation without severe hemolysis. Lipid analyses carried out on residual cells and rods indicate lateral segregation of the phospholipids of the outer leaf of the membrane lipid bilayer (phosphatidylcholine and sphingomyelin) and of the alcohol applied. Phosphatidylcholine accumulates in the residual cells, sphingomyelin and the alcohol in the rods. No differences in membrane protein patterns were observed between rods and residual cells. The rod-shape is dependent on the presence of the alcohol, extraction of the alcohol converts rods into hemoglobin-containing spheres without lysis. The formation of rods, which is indicative of a lateral phase separation, is discussed in terms of lipid-lipid interactions and with respect to parameters determining the shape of cells.     

Characteristics of [14C]Guanidinium Accumulation in NG 108-15 Cell Exposed to Serotonin 5-HT3 Receptor Ligands and Substance P

Abstract: In the presence of substance P (SP; 10 μM), serotonin (5-HT; 1 μM) triggered a cation permeability in cells of the hybridoma (mouse neuroblastoma X rat glioma) clone NG 108-15 that could be assessed by measuring the cell capacity to accumulate [¹⁴C]guanidinium for 10-15 min at 37°C. In addition to 5-HT (EC₅₀, 0.33 μM), the potent 5-HT₃ receptor agonists 2-methyl-serotonin, phenylbiguanide, and m-chlorophenylbiguanide, and quipazine, markedly increased [¹⁴C]guanidinium uptake in NG 108-15 cells exposed to 10 μM SP. In contrast, 5-HT₃ receptor antagonists prevented the effect of 5-HT. The correlation (r= 0.97) between the potencies of 16 different ligands to mimic or prevent the effects of 5-HT on [¹⁴C]guanidinium uptake, on the one hand, and to displace [³H]zacopride specifically bound to 5-HT₃ receptors on NG 108-15 cells, on the other hand, clearly demonstrated that [¹⁴C]guanidinium uptake was directly controlled by 5-HT₃ receptors. Various compounds such as inorganic cations (La³⁺, Mn²⁺, Ba²⁺, Ni²⁺, and Zn²⁺), D-tubocurarine, and memantine inhibited [¹⁴C]guanidinium uptake in NG 108-15 cells exposed to 5-HT and SP, as expected from their noncompetitive antagonistic properties at 5-HT₃ receptors. However, ethanol (100 mM), which has been reported to potentiate the electrophysiological response to 5-HT₃ receptor stimulation, prevented the effects of 5-HT plus SP on [¹⁴C]guanidinium uptake. The cooperative effect of SP on this 5-HT₃-evoked response resulted neither from an interaction of the peptide with the 5-HT₃ receptor binding site nor from a possible direct activation of G proteins in NG 108-15 cells. Among SP derivatives, [D-Pro⁹]SP, a compound inactive at the various neurokinin receptor classes, was the most potent to mimic the stimulatory effect of SP on [¹⁴C]guanidinium uptake in NG 108-15 cells exposed to 5-HT. Although the cellular mechanisms involved deserve further investigations, the 5-HT-evoked [¹⁴C]guanidinium uptake appears to be a rapid and reliable response for assessing the functional state of 5-HT₃ receptors in NG 108-15 cells.     

MOLYBDENUM DEPENDENCE,NITRATE UPTAKE AND PHOTOSYNTHESIS OF FRESHWATER PLANKTON ALGAE1,2

The effects of molybdenum on photosynthesis and nitrate uptake by two species of freshwater algae, Navicula pelliculosa (Bréd.) Hilse and Chlamydomonas reinhardtii Dang. Were examined. Photosynthetic rates in cells of N. Pelliculosa deprived of Mo for 48 h were significantly lower than in nondeprived cells; the rates were 2.6 and 4.5 μg C/10⁶ cells/h, respectively. There was no significant reduction in photosynthetic rates of C. reinhardtii under the 2 treatments, the rates were both ca. 6.0 μg C/10⁶ cells/h. These observed rates in the 2 species were not altered by added Mo concentrations as high as 1.0 ppm. The chlorophyll a values in 48 h Mo-deprived cells were 1.15 μg/10⁶ cells compared to 1.57 μg/10⁶ cells provided with this metal. Molybdenum deficiency did not affect the chlorophyll a concentration in Chlamydomonas; the chlorophyll levels were 2.44μg/10⁶ cells. Nitrate uptake by Mo-deprived cells of N. Pelliculosa was significantly lower than in cells cultured in Mo; the rates were 0.087 and 0.238 μM NO_a⁻/10⁶ cells/h, respectively. Uptake rates by C. reinhardtii were similar with or deprived of Mo. The K_m values for No₃⁻ uptake were 14.9 and 148.0 μM for N. Pelliculosa and C. reinhardtii, respectively.     

Content of cysteine, reduced and oxidized glutathione in spermatozoa of representatives of Acipenseriformes (Acipenser baerii and A. ruthenus) as well as teleosts (Perca fluviatilis and Sander lucioperca)

Glutathione belongs to a vital intra‐ and extra‐cellular protective antioxidant and is found almost exclusively in its reduced form. The ratio between its reduced and oxidized within cells is often used as a marker of cellular toxicity. The objectives of the study were to (i) determine both the reduced (GSH) and oxidized glutathione (GSSG) and cysteine (Cys) in the sperm of the Acipenser baerii and Acipenser ruthenus, as well as in Perca fluviatilis and Sander lucioperca, and (ii) to demonstrate the differences in concentration levels between representatives of acipenseriform and teleost species. High performance liquid chromatography with electrochemical detection was employed. The average content of the thiols determined in the sperm samples were as follows: Acipenser baerii (cysteine 55 ± 8 μg ml^?1; GSH 126 ± 19 μg ml^?1; GSSG 49 ± 7 μg ml^?1), Acipenser ruthenus (cysteine 62 ± 9 μg ml^?1; GSH 768 ± 115 μg ml^?1; GSSG 180 ± 16 μg ml^?1), Sander lucioperca (cysteine 251 ± 38 μg ml^?1; GSH 185 ± 28 μg ml^?1; GSSG 93 ± 14 μg ml^?1), Perca fluviatilis (cysteine 281 ± 42 μg ml^?1; GSH 496 ± 74 μg ml^?1; GSSG 138 ± 21 μg ml^?1). Based on the results obtained it can be concluded that this method is sensitive and selective for the determination of these compounds in real samples. Results revealed differences in cysteine content between species of the two systematic categories but also showed that ratios between GSH and GSSG can vary between species while potentially predict oxidative stress in fish sperm.     

THE UPTAKE OF GLUCOSE BY CHLAMYDOMONAS SP.12

The glucose uptake of a species of Chlamydomonas was studied at various concentrations of d -glucose plus glucose-1-¹⁴C (0.003–10.0 mg/liter) and at various light levels (0–220 ft-c). The alga grows at 4 C either in the light or in the dark with added glucose, cellobiose, maltose, or fructose. Uptake of glucose could be described by the Michaelis-Menten equation, and both the maximum velocity of uptake and the half-saturation constant increased when the cells were exposed to glucose in the dark. However, the high value of the half-saturation constant (5 mg glucose/liter) compared with the low levels of glucose in nature (5–10 μg/liter) makes it unlikely that a transport system is effective under natural conditions. Even if a total of 10.0 mg/liter of glucose plus other organic compounds were available as substrate, the rate of photosynthesis would still be more than 10 times higher (at 220 ft-c) than the rate of organic substrate uptake. Light had no effect on the total uptake of glucose but did reduce the percentage of ¹⁴CO₂ evolved from 61% of the total ¹⁴CO taken up in the dark to 0% at 220 ft-c. This decrease could be due to either preferential use of the ¹⁴CO₂ in photosynthesis or of the photosynthate in respiration.     

Molecular phylogeny of the spiny-surfaced species of the dinoflagellate Prorocentrum with the description of P. thermophilum sp. nov. and P. criophilum sp. nov. (Prorocentrales,Dinophyceae)

Spiny-surfaced species of Prorocentrum form harmful algal blooms, and its taxonomic identity is obscure due to the size and shape variability. Molecular phylogenies reveal two major clades: one for P. cordatum with sequences mainly retrieved as P. minimum, and the other for P. shikokuense with sequences also retrieved as P. dentatum and P. donghaiense. Several closely related clades still need to be characterized. Here, we provide nuclear SSU and LSU rRNA genes, and nuclear ITS region (ITS1-5.8S gene-ITS2) sequences of the strain CCMP3122 isolated from Florida (initially named P. donghaiense) and strains Prorocentrum sp. RCC6871–2 from the Ross Sea, Antarctica. We describe Prorocentrum thermophilum sp. nov. based on the strain CCMP3122, a species also distributed in the open waters of the Gulf of Mexico, New Zealand, and the Arabian Gulf; and Prorocentrum criophilum sp. nov. based on the strain RCC6872, which is distributed in the Antarctic Ocean and Arctic Sea. Prorocentrum thermophilum is roundish (~14 μm long, ~12 μm wide), with an inconspicuous anterior spine-like prolongation under light microscopy, valves with tiny, short knobs (5–7 per μm²), and several (<7) large trichocyst pores (~0.3 μm) in the right valve, as well as smaller pores (~0.15 μm). Prorocentrum criophilum is round in valve view (~11 μm long, 10 μm wide) and asymmetrically roundish in lateral view, the periflagellar area was not discernible under light microscopy, valves with very tiny, short knobs (6–10 per μm²), and at least 12 large pores in the right valve. Other potentially undescribed species of spiny-surfaced Prorocentrum are discussed.     

The taxonomic identity and physiological ecology of Chlamydomonas hedleyi sp. nov. algal flagellate symbiont from the foraminifer Archaias angulatus

The fine structure of the symbiotic alga isolated from the formainiferan Archaias angulatus (Fichtel et Moll) DeMontfort is typical of the Chlorophyceae of the volvocalean and chlorococcalean lines. Spherical non-motile cells, 10–14 μm in diameter, characterise the dominant life cycle phase. Long oval motile forms with truncated apices are present 3–5 days after transfer to fresh medium. The pyrenoids are embedded anteriorly in the singly bilobed chloroplast and are surrounded by a sheath of starch platelets. In spite of the non-motile state of cells in older cultures (which is perhaps a reflection of its normally symbiotic condition), the alga is identified as a species of the volvocalean genus Chlamydomonas and is named C. hedleyi sp. nov.

The symbiont has no vitamin or organic requirements but growth is increased threefold in the presence of thiamine, and twofold in the presence of 1 μm glutamic acid, histidine and methionine. Urea was the best nitrogen source tested. Purines and pyrimidines did not serve as nitrogen sources. Chlamydomonas hedleyi grows well in a salinity range of 6->52‰. and a pH range of 6–8·5, 7·04 × 10^-7 m carbon h^-1 g^-1 was fixed by the symbiont, 57% being released into the medium as a chromatographically homogeneous organic molecule provisionally identified as mannitol.     

Photosynthesis of Conifers in Relation to Annual Growth Cycles and Dry Matter Production

Observations that deciduous larch species can show annual growth increments equal to or greater than evergreen conifers, and that the saturating light intensity for photosynthesis in needles of Larix leptolepis was almost twice those for several evergreen conifers, led to a study of the photosynthetic mechanism in L. leptolepis. Several features of photosynthesis in L. leptolepis placed this species in an intermediate position between classical C₃ and C₄ plants. Incorporation of ¹⁴C from ¹⁴CO₂ by enzyme preparations of larch needles was eight times greater with PEP as substrate than with ribulose bis phosphate; a chlorophyll a/b ratio of 3.5 was obtained; needles possessed a green starch-containing endodermis but with little orientation of mesophyll cells to this “bundle sheath”; no clear ultrastructural dimorphism was observed between chloroplasts of mesophyll and endodermal cells; a CO₂-compensation point of 20 μl-l^?1 was recorded; and the first measurable product of photosynthesis appeared to be malate rather than phospho-glyceric acid. These results are discussed in relation to the deciduous habit of L. leptolepis and its high productivity in comparison with other conifers.     

In Vitro Cultivation of the Vascular Phase of Sarcocystis singaporensis

To establish an in vitro culture system for the precystic phase of Sarcocystis singaporensis, we initially tested various excysting fluids for sporocysts. An excysting fluid containing 2.5% bovine taurocholate and 10% bile of the specific intermediate host, Rattus norvegicus, in RPMI medium was the most suitable resulting in excystation of 80% of the sporozoites. Subsequently, we identified brain endothelial cells and pneumonocytes of the rat to promote growth of sporozoites to schizonts. Hepatoma, fibroblastic, or myoblastic cells were not suitable for the parasite's development. First-generation schizonts were seen at days 3-10 postinoculation (PI); a distinct second peak of schizogonic development only occurred in endothelial cells at days 14-18 PI. First-generation schizonts were 26.0 (± 3.8) μm in diameter and contained 32-50 merozoites, second-generation schizonts measured 34.4 (± 10.6) μm and contained 54-72 merozoites. Merozoite yield at large-scale culture conditions (75 cm² flasks) using pneumonocytes as host cells was relatively low. Ultrastructurally, sporozoites and merozoites were quite similar to corresponding stages of other Sarcocystis species. With regard to host cell specificity and developmental kinetics, in vitro cultivation showed close similarities to the situation in vivo.     

Inter-specific differences in photosynthetic carbon uptake, photosynthate partitioning and extracellular organic carbon release by deep-water characean algae

1. The effect of light intensity on photosynthesis and the fate of newly fixed organic carbon was compared for three characean algae collected at the same depth (10 m) but differing in their depth distributions. For each species we determined photosynthesis–irradiance (P–E) responses, the partitioning of newly fixed carbon into four intracellular pools (low molecular‐weight compounds, polysaccharides, lipids and proteins) and the extracellular organic carbon (EOC) release at a range of photon flux densities (PFD) 0–60 μmol m^–2 s^–1. 2. The P–E responses differed between the three species, with the light compensation point (E_c) and dark respiration rate highest in the shallowest species (Chara fibrosa), intermediate in the mid‐range species (C. globularis) and lowest in the deepest species (C. corallina). Photosynthetic efficiency (α) and photosynthesis: respiration ratios were lowest in C. fibrosa and highest in C. corallina. 3. In all three species, the low molecular weight pool was the principal photosynthetic product (>60% of fixed C) at 3 μmol m^–2 s^–1 PFD, but its proportional contribution decreased rapidly with increasing irradiance. Polysaccharide rose to become the major product (>35% of fixed C) at saturating PFD (35 μmol m^–2 s^–1). 4. Protein synthesis was saturated at 5 μmol m^–2 s^–1 in all species and was consistently a lower proportion of the fixed carbon in C. corallina than the other species. The fraction incorporated in the lipid pool increased slightly with irradiance but was always less than 10% of fixed C, while the proportion lost as EOC was unaffected by light, being significantly higher in C. fibrosa than the other species. 5. A kinetic experiment with C. fibrosa at 35 μmol m^–2 s^–1 PFD revealed a continued increase in net polysaccharide, protein and lipid synthesis during a 22.5‐h light period, whereas the net size of the low molecular weight pool remained constant. In a subsequent dark period, protein and lipid synthesis continued at the expense of the polysaccharide and low‐molecular‐weight pools. The EOC release rose to a constant low release in the light, then peaked slightly immediately after the dark–light transition before returning to the same rate as in the light. Extrapolating these data over 24 h suggests that the proportion of fixed carbon lost as EOC may be as high as 10% in this species. 6. The interspecific differences in carbon acquisition between the three species reflected their depth distributions, with the deeper species having more efficient photosynthetic metabolism, lower P:R ratios and less EOC release, although no apparent differences in internal partitioning of photosynthate.     

Resveratrol improves ex vivo expansion of CB-CD34+ cells via downregulating intracellular reactive oxygen species level

Intracellular reactive oxygen species (ROS) play important roles in the ex vivo expansion of hematopoietic stem and progenitor cells (HSPCs). In this study, the effects of resveratrol (RES), on the ex vivo expansion of HSPCs were investigated by analyzing CD34⁺ cells expansion and biological functions, with the objective to optimize ex vivo culture conditions for CD34 ⁺ cells. Among the five tested doses (0, 0.1, 1, 10, 20, and 50 μM), 10 μM RES was demonstrated to be the most favorable for ex vivo CD34 ⁺ cells expansion. In the primary cultures, 10 μM RES favored higher expansion folds of CD34 ⁺ cells, CD34 ⁺CD38 ⁻ cells, and colony-forming units (CFUs) ( P < 0.05). It was found that the percentages of primitive HSPCs (CD34 ⁺CD38 ⁻CD45R ⁻CD49f ⁺CD90 ⁺ cells) in 10 μM RES cultures were higher than those without RES. Further, in the secondary cultures, expanded CD34 ⁺ cells derived from primary cultures with 10 μM RES exhibited significantly higher total cells and CD34 ⁺ cells expansion ( P < 0.05). In the semisolid cultures, the frequency of CFU-GM and total CFUs of 10 μM RES group were both higher than those of without RES group, demonstrating that CD34 ⁺ cells expanded with 10 μM RES possessed better biological function. Furthermore, the addition of 10 μM RES downregulated the intracellular ROS level via strengthening the scavenging capability of ROS, and meanwhile reducing the percentages of apoptotic cells in cultures. Collectively, RES could stimulate the ex vivo expansion of CD34 ⁺ cells, preserved more primitive HSPCs and maintain better biological function by alleviating intracellular ROS level and cell apoptosis in cultures.     

Regulation of glutamine and pyruvate oxidation in cultured adrenocortical cells by cortisol,antioxidants, and oxygen: Effects on cell proliferation

The regulation of CO₂ production from [U-¹⁴C]glutamine and C₂ of [2-¹⁴C]pyruvate was investigated in cultured bovine adrenocortical cells, and the effect of alterations in the relative rates of oxidation of these substrates on cell proliferation, particularly in the presence of an inhibitor of transamination reactions, was examined. ¹⁴CO₂ production from 2 mM [U-¹⁴C]glutamine and 2 mM [2-¹⁴C]pyruvate was measured in the presence of 100 μM 2,4-dinitrophenol, an uncoupler of oxidative phosphorylation. Treatment of primary cultures for 24 h with 50 μM cortisol increased the oxidation of [¹⁴C]glutamine relative to that of [¹⁴C]pyruvate, an effect dependent on prior low cell density. Cortisol treatment also resulted in a prolonged delay in the onset of proliferation from low density, and completely inhibited growth in the presence of 2 mM aminooxyacetate, which reduces mitochondrial utilization of glutamine. The effects on glutamine and pyruvate metabolism and on cell growth, with or without aminooxyacetate, were prevented by simultaneous treatment with the antioxidants dimethyl sulfoxide (10 mM) and butylated hydroxyanisole (100 μM), suggesting the involvement of lipid peroxidation in the action of cortisol, as previously demonstrated for its action on 11β-hydroxylase. During continued proliferation of adrenocortical cells in the absence of cortisol there was also a slower increase in the oxidation of [¹⁴C]glutamine relative to that of [¹⁴C]pyruvate as a function of population doubling level. The rate of this increase was slowed by growth of cells in 2% O₂ rather than the standard 19% O₂, and accelerated by continued growth of cells in the presence of cortisol. The rate of increase in the oxidation of [¹⁴C]glutamine relative to that of [¹⁴C]pyruvate under these three conditions correlated with inhibition of cell growth by aminooxyacetate. In contrast to the complete inhibition of growth in aminooxyacetate demonstrated by cortisol-treated cells, control cells (19% O₂) did proliferate, although growth was limited, whereas cells at 2% O₂ proliferated to a much greater extent. In the absence of aminooxyacetate the rate of growth in primary adrenocortical cell cultures under these three conditions was similar. Lipid peroxidation appears to make cultured adrenocortical cells dependent on glutamine for mitochondrial function and proliferation by inhibiting the utilization of the normal substrate, pyruvate.     

Optimization of electrotransformation conditions for Leuconostoc mesenteroides subsp. mesenteroides ATCC8293

Aims: To establish an efficient genetic transformation protocol for Leuconostoc species, methods for competent‐cell preparation and electroporation conditions were optimized. Methods and Results: Leuconostoc mesenteroides subsp. mesenteroides ATCC8293 cells were sequentially treated with penicillin G and lysozyme, and the plasmid pLeuCM was subsequently transformed into the cells. Our results demonstrated that transformation efficiencies were significantly increased (100‐fold), and increased electric field strength also contributed to enhance transformation efficiency. Maximum transformation efficiency (1 × 10⁴ or more transformants per μg DNA) was achieved when cells were grown in De Man, Rogosa, Sharpe (MRS) media containing 0·25 mol l^?1 sucrose and 0·8 μg ml^?1 penicillin G, followed by treatment with 600 U ml^?1 lysozyme and electroporation at a field strength of 10 kV cm^?1. When this protocol was used to transform pLeuCM into Leuc. mesenteroides, Leuconostoc gelidum, Leuconostoc fallax and Leuconostoc argentinun, successful transformations were obtained in all cases. Furthermore, this procedure was applicable to species belonging to other genera, including Lactobacillus plantarum, Pediococcus pentosaceus and Weissella confusa. Conclusions: The results demonstrate that the transformation efficiency for Leuconostoc spp. could be increased via optimization of the entire electroporation procedures. Significance and Impact of the Study: These optimized conditions can be used for the extensive genetic study and the metabolic engineering of not only Leuconostoc spp. but also different species of lactic acid bacteria.     

Lokalisation der Mannitbiosynthese in der marinen Braunalge Fucus serratus

Summary Tips of fronds of Fucus serratus L. were exposed to H¹⁴CO₃ in the light for periods of 10, 30, 60, and 180s, fixed in petrol ether at-70° C, and subsequently lyophilized. Pheoplasts (=chloroplasts) were isolated using the nonaqueous technique of Thalacker et al. (1959). After extraction and chromatography percentage ¹⁴C activity and distribution of individual photoassimilates between pheoplasts and other compartments of assimilating cells were analyzed. Eighty percent of [¹⁴C]-phosphate esters were found within the pheoplasts after 10s ¹⁴C-assimilation, whereas only 25% were found there after 30s. After 10s [¹⁴C] mannitol is almost totally localized within the plastids, but after 180s the major part has been localized outside the pheoplasts. On the basis of these data the pheoplasts are regarded to be the only sites of primary mannitol biosynthesis during photosynthesis in Fucus.     

SPECIES-SPECIFIC CHARACTERISTICS EXPLAIN THE PERSISTENCE OF STIGEOCLONIUM TENUE (CHLOROPHYTA) IN A WOODLAND STREAM1

The heterotrichous alga Stigeoclonium tenue Küetzing is dominant in many streams with high densities of herbivores. Previous in situ studies in Walker Branch (WB), a woodland stream in eastern Tennessee, indicated that dominance by Stigeoclonium basal cells was “grazer-dependent”; however, Stigeoclonium also appeared to have a lower biomass–specific productivity rate than other species that dominated when snails were experimentally removed. Here, an explicit test of the grazing dependence of Stigeoclonium was made with unialgal cultures established in the laboratory. Five different “assemblage types” were tested: 1 and 2) unialgal cultures of Stigeoclonium at low and high biomass, 3 and 4) a mixed assemblage of diatoms at low and high biomass, and 5) a natural stream community. Reduction in chlorophyll a after exposure to snail grazing was dependent on assemblage type (one-way ANOVA, P < 0.0001); low biomass Stigeoclonium tiles and tiles from the stream (on which basal cells of Stigeoclonium were dominant) were most grazer-resistant. In addition, Stigeoclonium had a lower biomass-specific productivity rate (measured as H¹⁴CO₃^? uptake) than a mixed assemblage of diatoms, regardless of biomass level, suggesting an underlying tradeoff between resistance to herbivory and competitive ability. Additional laboratory experiments were conducted to determine the response of Stigeoclonium to high (approx. 150 μmol quanta ·m^?2· s^?1)and low (approx. 25 μmol quanta · m^?2· s^?1) irradiance when nutrients were at 1) ambient WB concentrations and 2) increased 1000× ambient concentrations. There was a positive response of growth to increased irradiance only under high nutrient conditions. This suggests that observed reductions in the abundance of Stigeoclonium under high irradiance/low nutrient conditions that occur on a seasonal basis in WB can be explained in part by autecological resource requirements of this alga. We use these results to model the response of algal communities dominated by basal-regenerating species (e.g. Stigeoclonium) to gradients in herbivory and productivity. The results of our culture studies, combined with an overview of factors affecting communities dominated by grazer-resistant species, illustrate how both broad-scale (e.g. functional form) and species-specific studies can be combined to achieve an understanding of community dynamics.     

Characterization of mesenchymal stem cells (MSCs) from human fetal lung: Potential differentiation of germ cells

Pluripotent mesenchymal stem-like cell lines were established from lungs of 3–4 months old aborted fetus. The cells present the high ex vivo expansion potential of MSC, a typical fibroblast-like morphology and proliferate up to 15 passages without displaying clear changes in morphology. Immunological localization and flow cytometry analyses showed that these cells are positive for OCT4, c-Kit, CD11, CD29, CD44, telomerase, CD106, CD105, CD166, and SSEA1, weakly expression or negative for SSEA1, SSEA3, SSEA4, CD34, CD105 and CD106. These cells can give rise to the adipogenic as evidenced by accumulation of lipid-rich vacuoles within cells identified by Oil-red O when they were induced with 0.5 mM isobutylmethylxanthine, 200 μM indomethacin, 10⁻⁶ M dexamethasone, and 10 μg/ml of insulin in high-glucose DMEM. Osteogenic lineage cells were generated in 0.1 μM dexamethasone, 50 μg/ml ascorbic acid, 10 mM β-glycerophosphate, which are shaped as the osteoblastic morphology, expression of alkaline phosphatase (AP), and the formation of a mineralized extracellular matrix identified by Alizarin Red staining. Neural cells are observed when the cultures were induced with 2-mercapometal, which are positive for nestin, NF-100, MBP and GFAP. Additionally, embryoid bodies (EBs) and sperm like cells are obtained in vitro differentiation of these lung MSCs induced with 10⁻⁵ M retinoic acid (RA). These results demonstrated that these MSCs are pluripotent and may provide an in vitro model to study germ-cell formation and also as a potential source of sperms for male infertility.     

Determination of Eubacterial and Cyanobacterial Size and Number in Lake Baikal Using Epifluorescence

Chroococcoid cyanobacteria, (mean size = 0.79 μm, likely Synchetocystis limnetica Popovsk) and total eubacteria (mean size = 0.33 μm), from Lake Baikal, USSR, were enumerated using epifluorescence microscopy and sized with image analysis. Bacterial densities ranged from 0.44 · 10⁶ cells ml⁻¹ at 250 m to 2.3 · 10⁶ cells ml⁻¹ at the surface. Mean eubacterial abundance was 1.3 · 10⁶ cells ml⁻¹. Cyanobacterial densities were more variable, ranging from 0.42 · 10⁴ cells ml⁻¹ at 250 m to 9.8 · 10⁴ cells ml⁻¹ at the surface, with a mean abundance of 2.7 · 10⁴ cells ml⁻¹. The cyanobacteria, in particular, occurred in clusters resembling “marine snow”. Our results indicate that Lake Baikal picoplankton size and density are similar to other large lakes but may have a more diverse community structure than in other large oligotrophic lakes.