Production of carbohydrates by the marine diatom Chaetoceros affinis var. willei (Gran) Hustedt. II. Preliminary investigation of the extracellular polysaccharide

The isolation of an extracellular polysaccharide from cultures of Chaetoceros affinis var. willei (Gran) Hustedt is described. The polysaccharide behaved as a homogeneous, polyanionic compound in free-boundary electrophoresis at both pH 2 and 7. It contained sulphur, presumably as sulphate half ester groups (8.7% of SO₂Na), and the following monosaccharides were tentatively identified: rhamnose, fucose, arabinose, and galactose, with the two former constituting 63% of the polysaccharide preparation. The main cellular polysaccharide was a glucan and could be extracted from the cells by dilute acid. The remaining material gave, after hydrolysis, a complex mixture of monosaccharides with rhamnose as the major component. It is concluded that the extracellular polysaccharide is probably excreted from healthy cells.     

Lunularic acid in cell suspension cultures of Marchantia polymorpha

Lunularic acid (LNA) was isolated from the cultured cells of the liverwort Marchantia polymorpha. Quantitative analysis by reverse phase HPLC showed that the content of LNA in the cells changed markedly during their growth, ranging from 1 to 7μg/mg dry wt. The accumulation of LNA was greatly enhanced by a deficiency of phosphate in the culture medium.     

链状亚历山大藻赤潮衰亡的生理调控

研究了链状亚历山大藻在对数生长期、衰亡期、高氮、低氮条件下,藻细胞中可溶性蛋白含量、超氧化物歧化酶(SOD)活性、丙二醛(MDA)、过氧化氢(H2O2)和还原型谷胱甘肽(GSH)含量、光合速率和呼吸速率、DNA降解、端粒酶活性的变化。结果表明:在衰亡期、高氮、低氮条件下链状亚历山大藻细胞中可溶性蛋白、GSH含量、光合速率和呼吸速率下降;SOD活性(低氮条件除外)、H2O2、MDA含量上升;端粒酶活性和DNA Ladder随着藻细胞生长而变化,并在衰亡时期,出现了明显的DNALadder。研究结果显示链状亚历山大藻衰亡过程的反应表现为:蛋白质合成受阻或降解,产生大量氧化中间产物(MDA,H2O2等),抗氧化系统被激活,GSH等非酶抗氧化物质被大量消耗,SOD等酶抗氧化物被激活;另外表现为光合速率和呼吸速率下降;同时活性氧自由基(Reactive Oxygen Species,ROS)的积累诱发了细胞凋亡,核酸内切酶被激活,选择性降解染色质DNA。推测低氮、高氮条件均可以加快藻细胞的衰亡的生理过程,链状亚历山大藻的赤潮衰亡是一种有序的死亡过程。     

Water-soluble glucans from the seed of Coix lacryma-jobi var. ma-yuen

The water-soluble major polysaccharides from the seed of Coix lacryma-jobi var. ma-yuen eluted as a broad peak by gel filtration on Sepharose CL-2B. The mixture (CS-Glucan) was resolved into 7 glucans by HPLC on the column of Asahi-Pak GS-510 + GS-320. Similarities were observed between M, shown in the gel filtration profile and the elution volume in HPLC. Methylation analysis indicated that the ethanol-fractionated CS-glucan contained 4-O- and 4,6-di-O-substituted glucosyl residues. ¹H and ¹³C NMR data accorded with the results of methylation analysis, and the glycosidic linkages were shown to have an α-configuration. Thus, CS-glucan contained (1 → 4) linked α-d-glucans to which are attached glucosyl side chains at O-6 of the main chain in a similar way to amylopectin. Each purified glucan was shown to have different absorption maxima ( > 550 nm or 530 nm) in the iodine reaction. The results of the methylation analysis and of the pullulanase digestion suggest that the 550 nm-glucan has a lower branching frequency and shorter side chains than the 530 nm-glucan. Although CS-glucan was found to have weak anti-complementary activity, HPLC-purified > 550 nm-glucan was found to be more potent than the 530 nm-glucan. Thus CS-glucan is highly heterogeneous, and the glucans which form a tight complex when tested with iodine, generally tend to have considerable anti-complementary activity.     

Properties of spin labelled membranes of Fusarium Oxysporum f. sp. Lycopersici

Growth temperature-induced compositional changes in membranes of Fusarium oxysporum provided a test system for study of the relationship between physical properties and composition. Growth at 15 °C was characterized by a decrease in phospholipid content relative to sterol content, a shift on phospholipid composition from phosphatidylcholine to phosphatidylethanolamine and a marked enhancement in the amount of polyunsaturated fatty acids in the phospholipid and triglyceride classes.Uptake of a spin labelled analog of stearic acid during growth and subsequent solution of the probe in the membranes allowed estimation of viscosity and molecular order of the membranes of live cells and of isolated membrane preparations. Less than $\text{1}\text{20}$ of the intracellular label was accessible to sodium ascorbate while none was released by sodium dodecyl sulfate. All of the label in live cells was reduced by in vivo respiratory activity above 20 °C but this process could be reversed or avoided by added ferricyanide. A cholestane spin probe was also incorporated into the membranes. The probes were not reduced as readily in isolated membranes and hence fluidity of the membranes could be assessed over a wide temperature range. At low temperatures (?10 °C) a nonlethal, liquid-solid phase transition was indicated in isolated membrane lipids while at higher (lethal) temperatures (40–45 °C), discontinuities appeared in Arrhenius plots of rotational correlation time. Activation energies for isotropic rotation of the stearate probes in the membranes changed markedly in this temperature range and this effect correlated closely with loss of viability of conidial cells. Correlation times for stearate probes showed little variation with growth temperature nor were any breaks in Arrhenius plots of this parameter detected in the range 0–35 °C in whole cells or isolated membranes. The data indicated control of membrane physical properties within close tolerances throughout the physiological temperature range regardless of growth temperature. It was concluded that this homeostatic phenomenon was due to the counteractive effects of sterol/phospholipid ratio, phospholipid composition and fatty acid polyunsaturation since the condensing and fluidizing components of the isolated total membranes vary in a reciprocal manner.     

The α-1,4-glucans of Prochloron, a prokaryotic green marine alga

Prochloron, a symbiont found associated with Lissoclinum patella (a marine colonial ascidian), was lyophilized and its glucans extracted. The glucans were complexed with s-triazine reactive dyes and separated by electrophoresis on cellulose acetate membranes. A highly branched glucan similar to phytoglycogen, and a linear unbranched glucan resembling a short-chain amylose were both detected. This unusual polysaccharide mixture suggests a possible mode of starch biosynthesis in algae in general.     

Effect of glucose on the biosynthesis of the membranes of bacillus

In the presence of glucose in complex media, the following changes in the characters of the membranes of Bacillus subtilis and Bacillus cereus were observed. (1) The activity of succinate dehydrogenase and the amount of cytochromes of the membranes were greatly reduced. (2) The ratio of lipid to protein in the membranes was decreased and a membrane subfraction, which had a density of around 1.2 (B. subtilis) and 1.24 g/cm³ (B. cereus), was newly formed (B. subtilis) or increased (B. cereus). (3) The phospholipid and diglyceride contents in the membranes were reduced.Polyacrylamide gel electrophoresis of proteins of the two types (plus and minus glucose) of the membranes show that the patterns were very different between the two types of membranes, though the lost or newly formed membrane protein components were not observed.The cytochrome content was not increased when the cells were grown in glucose medium supplemented with haemin, therefore, glucose or its metabolite may not be involved in the inhibition of haem biosynthesis.     

Pigment formation in callus cultures of Lithospermum erythrorhizon

Undifferentiated callus tissues of Lithospermum erythrorhizon are capable of synthesizing shikonin derivatives, which are normally formed in the cork cells of the roots. Their biosynthesis in cultured cells is controlled by auxin and light. The pigment content increased linearly with time after a lag phase when callus tissues were grown on culture medium containing IAA in the dark, whereas it markedly decreased when 2,4-D was substituted for IAA or when cultures were irradiated with blue light.     

Cytokinin-induced changes in the chlorophyll content and fluorescence of in vitro apple leaves

Cytokinins (CKs) are one of the main regulators of in vitro growth and development and might affect the developmental state and function of the photosynthetic apparatus of in vitro shoots. Effects of different cytokinin regimes including different types of aromatic cytokinins, such as benzyl-adenine, benzyl-adenine riboside and 3-hydroxy-benzyladenine alone or in combination were studied on the capacity of the photosynthetic apparatus and the pigment content of in vitro apple leaves after 3 weeks of culture. We found that the type of cytokinins affected both chlorophyll a and b contents and its ratio. Chlorophyll content of in vitro apple leaves was the highest when benzyl-adenine was applied as a single source of cytokinin in the medium (1846–2176 μg/1 g fresh weight (FW) of the leaf). Increasing the concentration of benzyl-adenine riboside significantly decreased the chlorophyll content of the leaves (from 1923 to 1183 μg/1 g FW). The highest chl a/chl b ratio was detected after application of meta-topolin (TOP) at concentrations of 2.0 and 6.0 μM (2.706 and 2.804). Chlorophyll fluorescence was measured both in dark-adapted (F_v/F_m test) and in light-adapted leaf samples (Yield test; Y(II)). The maximum quantum yield and efficiency of leaves depended on the cytokinin source of the medium varied between 0.683 and 0.861 (F_v/F_m) indicating a well-developed and functional photosynthetic apparatus. Our results indicate that the type and concentration of aromatic cytokinins applied in the medium affect the chlorophyll content of the leaves in in vitro apple shoots. Performance of the photosynthetic apparatus measured by chlorophyll fluorescence in the leaves was also modified by the cytokinin supply. This is the first ever study on the relationship between the cytokinin supply and the functionability of photosystem II in plant tissue culture and our findings might help to increase plantlet survival after transfer to ex vitro conditions.     

Storage glucan biosynthesis in Cyanidium, Chlorella and Prototheca: evidence for endosymbiosis?

The storage glucans of Chlorella pyrenoidosa and Prototheca zopfii are identical and consist of a linear polyglucan akin to amylose and a branched amylopectin component. The branched glucans of these algae differ markedly from that formed by the hot-springs alga, Cyanidium caldarium. The more highly branched Cyanidium glucan appears to be formed by branching glucosyltransferases which are different from those of the other two algae. The relevance of the data to the possibility of Cyanidium being a Prototheca-like Chlorella that has acquired symbiotic Cyanobacteria as chloroplasts is discussed.     

Extracellular trehalose utilization by Saccharomyces cerevisiae

Two haploid strains of Saccharomyces cerevisiae viz. MATα and MATa were grown in glucose and trehalose medium and growth patterns were compared. Both strains show similar growth, except for an extended lag phase in trehalose grown cells. In both trehalose grown strains increase in activities of both extracellular trehalase activities and simultaneous decrease in extracellular trehalose level was seen. This coincided with a sharp increase in extracellular glucose level and beginning of log phase of growth. Alcohol production was also observed. Secreted trehalase activity was detected, in addition to periplasmic activity. It appeared that extracellular trehalose was hydrolyzed into glucose by extracellular trehalase activity. This glucose was utilized by the cells for growth. The alcohol formation was due to the fermentation of glucose. Addition of extracellular trehalase caused reduction in the lag phase when grown in trehalose medium, supporting our hypothesis of extracellular utilization of trehalose.     

The golden root, Rhodiola rosea, prolongs lifespan but decreases oxidative stress resistance in yeast Saccharomyces cerevisiae

The effect of aqueous extract from R. rosea root on lifespan and the activity of antioxidant enzymes in budding yeast Saccharomyces cerevisiae have been studied. The supplementation of the growth medium with R. rosea extract decreased survival of exponentially growing S. cerevisiae cells under H₂O₂-induced oxidative stress, but increased viability and reproduction success of yeast cells in stationary phase. The extract did not significantly affect catalase activity and decreased SOD activity in chronologically aged yeast population. These results suggest that R. rosea acts as a stressor for S. cerevisiae cells, what sensitizes yeast cells to oxidative stress at exponential phase, but induces adaptation in stationary phase cells demonstrating the positive effect on yeast survival without activation of major antioxidant enzymes.     

Sterol-binding polysaccharides of Rhizopus arrhizus, Penicillium roquefortii and Saccharomyces carlsbergensis

Polysaccharides that bind with sterols and render them water-soluble were isolated from two mycelial fungi, Rhizopus arrhizus and Penicillium roquefortii and a yeast Saccharomyces carlsbergensis. The polysaccharides from R. arrhizus and S. carlsbergensis were accompanied by small quantities of phosphorus, protein and lipid, none of which significantly influenced the binding of sterol to polysaccharide. The chemical composition and sterol-binding properties of the polysaccharides from the filamentous species were almost identical, but differed significantly from those of the yeast polysaccharide. The principal sterol-binding polysaccharide of S. carlsbergensis was identified as a mannan and that of the filamentous fungi as a glucan(s). The binding capacity of the purified yeast polysaccharide was almost two-fold greater than that of R. arrhizus and P. roquefortii.     

Endogenous isoflavone methylation correlates with the in vitro rooting phases of Spartium junceum L. (Leguminosae)

Spartium junceum L. (Leguminosae) is a perennial shrub, native to the Mediterranean region in southern Europe, widespread in all the Italian regions and, as a leguminous species, it has a high isoflavone content. An in vitro culture protocol was developed for this species starting from stem nodal sections of in vivo plants, and isoflavone components of the in vitro cultured tissues were studied by means of High Performance Liquid Chromatography (HPLC) analytical techniques. Two main isoflavones were detected in the S. junceum tissues during the in vitro propagation phases: Genistein (4′,5,7-Trihydroxyisoflavone), already reported in this species, and its methylated form 4′,5,7-Trimethoxyisoflavone, detected for the first time in this plant species (0.750 ± 0.02 mg g⁻¹ dry tissue). The presence of both of these compounds in S. junceum tissues was consistently detected during the in vitro multiplication phase. The absence of the methylated form within plant tissues in the early phases of the in vitro adventitious root formation was correlated with its negative effect displayed on root induction and initiation phases, while its presence in the final “root manifestation” phase influenced positively the rooting process. The unmethylated form, although detectable in tissues in the precocious rooting phases, was no longer present in the final rooting phase. Its effect on rooting, however, proved always to be beneficial.     

The structure of the low molecular-weight glucans isolated from the siphonous green alga caulerpa simpliciuscula

A β-d-glucan of low molecular weight isolated from the marine alga Caulerpa simpliciuscula has been shown to contain 30 glucose residues. At least 27 of these are β-d-(1→3) linked. There are 1-2β-(1→6) branches per molecule, with a maximum of 4 d-glucose residues per side chain. As normally isolated, this glucan is associated with a soluble (1→4)-α-d-glucan (soluble starch) of the same molecular weight, in the ratio of 3 molecules of β-d-glucan per molecule of α-d-linked glucan.     

Characterization of Chlorella phosphorylase: The glucan specificity and effect of temperature

The glucan specificity of α-glucan phosphorylase partially purified from Chlorella vulgaris was characterized in both directions of glucan phosph     

九州虫草菌丝体对Mn的耐性及富集

重金属耐性真菌的研究是生物修复的重要研究内容。本文研究了九州虫草（Cordyceps kyusyuensis）对于Mn的耐性及富集。在液体培养基中添加不同浓度（0—60 g/L）的Mn离子,测定其菌丝生物量、菌丝Mn含量、菌丝抗氧化酶活性和过氧化水平以及菌体细胞离子交换量、Mn在细胞中的分布的变化情况。实验结果表明九州虫草菌丝生物量与Mn浓度呈显著负相关,Mn浓度60 g/L为九州虫草菌丝生长极限浓度。菌丝中Mn含量随培养基中Mn浓度的增大而显著升高,10 g/L Mn时,菌丝细胞中Mn积累量达到细胞干重的1.0013%。九州虫草菌丝中过氧化产物丙二醛（MDA）、可溶性蛋白（SP）含量、可溶性糖浓度与培养基中Mn浓度呈负相关,实验组与对照组差异显著。抗氧化酶（过氧化氢酶（CAT）、过氧化物酶（POD）、超氧化物歧化酶（SOD））活性随着培养基中Mn浓度增大而显著升高,但变化趋势不同。九州虫草菌丝细胞不可溶性组分中Mn的量（91.51%—98.6%）显著高于可溶部分（1.40%—8.49%）。九州虫草菌丝细胞壁离子交换量（CEC）随着培养基中Mn浓度的升高变化不明显。说明在九州虫草菌丝对Mn的富集过程中,其细胞壁、细胞膜和细胞器对于Mn结合发挥了主要作用,细胞质中可溶性成分对Mn的结合发挥次要作用。在Mn的胁迫下,增强抗氧化酶系统的协同作用以清除大量自由基是细胞对锰耐性的重要机制。     

In vitro effects of growth factors and hormones on three Perkinsus species and increased proliferation of P. marinus during cloning

Clonal cultures are essential for the genotypic and phenotypic characterization of Perkinsus species but their cloning, especially of P. marinus, can be tedious. The use of a growth factor and hormone supplement to facilitate cloning was, therefore, investigated. Many of the 16 supplements tested significantly increased P. marinus and P. olseni proliferation but only two significantly increased P. chesapeaki proliferation. The concentration of the most effective supplement for all three Perkinsus species (i.e., endothelial cell growth supplement, ECGS) and medium dilution were then optimized for P. marinus cultured at low densities. Finally, the advantage of using conditioned culture medium, a feeder layer, and ECGS alone and in different combinations to improve cloning of P. marinus were compared. Using conditioned culture medium, a feeder layer and ECGS in combination, each cell (N = 7) seeded singly yielded clonal cultures with 253 ± 167 cells after 21 days. In contrast, only 4 out of 7 cells seeded singly in culture medium yielded clonal cultures with 5 ± 4 cells after 21 days.     

Uptake of bacterial DNA by Chlamydomonas reinhardi

Escherichia coli [³H]DNA supplied to vegetative cultures of wild-type (mt+) and CW15 (mt+; mutant lacking the cell wall) Chlamydomonas reinhardi could bind to the cell wall of the wild-type and to the cell membrane of CW15 mutant cells. The extent of this binding decreased with time and was to a large degree (over 90%) DNA-ase-sensitive. Nevertheless, about 0.01% of the bacterial DNA remained irreversibly associated with the cells when they reached stationary phase. The irreversible binding of the donor bacterial DNA to Chlamydomonas cells could be increased by treatment of the cultures with polycations such as DEAE-dextran, poly-L-lysine and poly-L-ornithine. Although the CW15 cells rapidly degraded bacterial DNA in the culture medium wild-type cells showed only a small effect on the molecular weight of the donor DNA.The acid-insoluble radioactivity irreversibly bound to WT (+) cells consisted mainly of oligonucleotides with a small proportion present as less depolymerized donor DNA. No radioactivity, however, was found to be associated with the recipient high molecular weight Chlamydomonas DNA.No labeled donor DNA could be recognized in the cells given bacterial [³H]DNA in early stationary phase. Instead, radioactivity found in Chlamydomonas DNA corresponded to reutilization of [³H]thymine derivatives released as a result of [³H] DNA degradation. No evidence for the integration of detectable amounts of donor DNA sequences into the host cell DNA was obtained.