Macromolecules released into the culture medium during the vegetative cell cycle of the unicellular green alga Chlamydomonas reinhardii.

The culture medium of growing Chlamydomonas reinhardii cells contains hydroxyproline-rich glycoproteins, which are mainly liberated during release of the zoospores from the mother-cell wall. Pulse-labelling studies with [3H]proline and [35S]methionine have been performed in order to detect the protein components released by synchronously growing cells at different stages of the cell cycle. When either [3H]proline or [35S]methionine were applied during the phase of cell growth, radioactive label appeared in the released macromolecules after a lag period of 40 min, whereas incorporation into the insoluble part of the cell wall was delayed only by 20 min. When applied at the end of the growth phase, e.g. 13 h after beginning of the illumination period, the radioactive amino acids were incorporated into the cell wall, but radioactive labelling of macromolecules released into the culture medium could not be detected before the zoospores were liberated from the mother-cell wall. Maximal incorporation of [3H]proline and [35S]methionine into the insoluble part of the cell wall was observed during cell division, but essentially no radioactively-labelled macromolecules were released into the culture medium during this time period. Analysis of the macromolecules, which were liberated during cell enlargement, by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis revealed distinct radioactive bands, which were differentially labelled with [3H]proline and [35S]methionine. Among the macromolecules released into the culture medium during cell growth, a component of an apparent Mr 35 000 was preferentially labelled with [3H]proline. This component was also detected after labelling with [35S]methionine, but components of an apparently higher Mr were more prominent after labelling with [35S]methionine. Macromolecules released during the cell-enlargement period of synchronously growing cultures in the presence of [3H]proline contained radioactively-labelled hydroxyproline in addition to proline. These results show that, during cell-wall growth, specific protein components are released into the culture medium and that at least one of these components contains large amounts of proline and hydroxyproline. At least some of these macromolecules seem to be constituents of the cell wall, because during pulse-chase experiments radioactively-labelled macromolecules appeared in the culture medium mainly during the time period when the specific radioactivity of the insoluble inner-cell-wall layer decreased.     

Effects of nutrients on exopolysaccharide production and surface properties of Aeromonas salmonicida.

Extracellular polysaccharide (EPS) and capsular polysaccharide (CPS) production by Aeromonas salmonicida A450 and the influence of the capsule on cell surface properties were studied. A. salmonicida did not produce CPS or EPS when glucose, phosphate, magnesium chloride, or trace mineral components were absent from the medium. The addition of yeast extract improved capsule production. Neither EPS nor CPS formation depended on the C/N ratio, although it appeared to be influenced by the level of carbon and nitrogen in the culture. Both EPS and CPS production started at the end of the logarithmic growth phase. The amounts of EPS and CPS produced were not influenced by temperature changes between 15 and 20 degrees C and was maximal from pH 7 to 7.5. Cell surface properties were strongly influenced by capsule production; high CPS production was associated with enhanced cell hydrophilicity and autoagglutination. The effect of CPS on cell surface properties was independent of the presence of the surface protein array (A-layer).     

肺炎克雷伯氏菌荚膜多糖表达量评价指标的建立及发酵条件优化

建立了特异性强的肺炎克雷伯氏菌荚膜多糖全菌ELISA检测方法,检测结果与多糖表达量相关性好;以全菌ELISA值结合菌数为评价指标,对影响荚膜多糖表达的培养基组成及发酵条件进行了优化,优化后的摇瓶培养条件下发酵液活性和生物量分别比优化前提高72.7和33倍,并经7L罐放大实验,绘制发酵动力学曲线,为肺炎克雷伯氏菌荚膜多糖进一步开发打下基础。     

Regulation of Cell Component Production by Growth Rate in the Group B Streptococcus

Group B Streptococcus (GBS) is the leading cause of bacterial sepsis and meningitis among neonates. While the capsular polysaccharide (CPS) is an important virulence factor of GBS, other cell surface components, such as C proteins, may also play a role in GBS disease. CPS production by GBS type III strain M781 was greater when cells were held at a fast (1.4-h mass-doubling time [td]) than at a slow (11-h td) rate of growth. To further investigate growth rate regulation of CPS production and to investigate production of other cell components, different serotypes and strains of GBS were grown in continuous culture in a semidefined and a complex medium. Samples were obtained after at least five generations at the selected growth rate. Cells and cell-free supernatants were processed immediately, and results from all assays were normalized for cell dry weight. All serotypes (Ia, Ib, and III) and strains (one or two strains per serotype) tested produced at least 3.6-fold more CPS at a td of 1. 4 h than at a td of 11 h. Production of beta C protein by GBS type Ia strain A909 and type Ib strain H36B was also shown to increase at least 5.5-fold with increased growth rate (production at a td of 1. 4 h versus 11 h). The production of alpha C protein by the same strains did not significantly change with increased growth rate. The effect of growth rate on other cell components was also investigated. Production of group B antigen did not change with growth rate, while alkaline phosphatase decreased with increased growth rate. Both CAMP factor and beta-hemolysin production increased fourfold with increased growth rate. Growth rate regulation is specific for select cell components in GBS, including beta C protein, alkaline phosphatase, beta-hemolysin, and CPS production.     

Expression of carbamoyl phosphate synthetase I and ornithine transcarbamoylase genes in Chinese hamster ovary dhfr-cells decreases accumulation of ammonium ion in culture media

Ammonium ion accumulation in mammalian cell culture media causes toxicity which inhibits cell growth and productivity. To reduce the level of the accumulated ammonium ion, carbamoyl phosphate synthetase I (CPS I) and ornithine transcarbamoylase (OTC) were used, which catalyze the first and second steps of the urea cycle in the liver. To examine the effects of overexpressed CPS I and OTC genes on the concentration of the ammonium ion in culture media, the two genes were introduced into Chinese hamster ovary (CHO) dhfr-cells. The CPS I expressing cell lines (CPS I-CHO) and both CPS I and OTC expressing cell lines (CPS I/OTC-CHO) were confirmed at the mRNA level and analyzed in terms of the cell growth and the accumulation of ammonium ion in culture media. The accumulation of ammonium ion was approximately 25-33% less in CPS I/OTC-CHO than in either CPS I-CHO or the vector-control cell lines. Interestingly however, the cell growth was approximately 15-30% faster in both CPS I-CHO and CPS I/OTC-CHO than in the control cell lines. Forced expression of urea cycle enzymes in the CHO cells revealed that both the expression of CPS I and OTC can reduce the accumulation of ammonium ion in the culture media.     

The capsular turnover product of Staphylococcus aureus strain Smith

Abstract The capsular polysaccharide released from the bacterial surface by cell wall turnover during growth exhibited less size heterogeneity and a higher average molecular mass than the polysaccharide extracted from the cell by treatment with lysostaphin or low pH. Treatment of turnover polysaccharide, radiolabelled by growth of the bacteria in the presence of N-acetyl-[³H]-glucosamine, with muramidase B from Chalaropsis released a low molecular weight product chromatographically identical to the peptidoglycan degradation products released from the peptidoglycan-teichoic acid complex by the same treatment. It is concluded that some or all of the capsular polysaccharide released into the culture fluid during growth is derived from peptidoglycan-linked capsular material, solubilised by cell wall turnover.     

Influence of growth conditions on production of capsular and extracellular polysaccharides byRhizobium leguminosarum

The influence of growth rate and medium composition on exopolymer production byRhizobium leguminosarum was studied. When grown in medium containing 10g/l mannitol and 1g/l glutamic acid,Rhizobium leguminosarum biovartrifolii TA-1 synthesized up to 2.0g/l of extracellular polysaccharide (EPS), and up to 1.6g/l of capsular polysaccharide (CPS). Under non-growing cell conditions in medium without glutamic acid, CPS synthesis by strain TA-1 could proceed to 2.1g/l, while EPS-production remained relatively low (0.8g/l). Maximal CPS-yield was 2.9g CPS/l medium in a medium containing 20g/l mannitol and 2g/l glutamic acid. TheEPS-deficient strain R. leguminosarum RBL5515,exo4::Tn5 was able to produce CPS to similar levels as strain TA-1, but CPS-recovery was easier because of the low viscosity of the medium and growth of the cells in pellets. With strain TA-1 in nitrogen-limited continuous cultures with a constant biomass of 500mg cell protein/l, EPS was the most abundant polysaccharide present at every dilution rate D (between 0.12 and 0.02 h^–1). The production rates were 50–100mg/g protein/h for EPS and 15–20mg/g protein/h for CPS. Only low amounts of cyclic -(1,2)-glucans were excreted (10–30 mg/l) over the entire range of growth rates.Abbreviations bv biovar - CPS capsular polysaccharide - EPS extracellular polysaccharide - HM_r high molecular mass - LM_r low molecular mass - YEMCR Yeast Extract-Mannitol-Congo Red agar     

肺炎克雷伯氏菌荚膜多糖的提取纯化及其对细胞免疫活性的影响

采用液体深层培养得肺炎克雷伯氏菌Kp9株发酵液,研究确立了菌体快速裂解条件:NP40 1%和胰蛋白酶25 0IUg菌体,50℃作用1h ,然后加入溶菌酶80μg/mL ,56℃作用1h ;裂解液经超滤浓缩和有机溶剂沉淀获得多糖粗品;多糖粗品先后经CTAB吸附分离,DEAE-SepharoseFastFlow离子交换和SephacrylS 30 0HR凝胶过滤纯化,得分子量分布相对均一的多糖纯品,产品得率为0.25 1g/L。采用淋巴细胞转化实验分别探讨了多糖粗品和纯品的免疫活性,研究显示荚膜多糖具有高效的体外细胞免疫活性,并具有典型的双向免疫调节作用。研究结论为肺炎克雷伯氏菌荚膜多糖的开发奠定了前期基础。     

虫草多糖的分离、纯化和初步药效活性研究

以虫草发酵菌丝体为原料提取虫草多糖并对多糖进行结构鉴定和初步药效活性研究。采用水提醇沉和离子交换纤维素进行分离得到两种虫草多糖,HPLC测定相对分子质量,紫外光谱、红外光谱、部分酸水解、甲基化分析和高效液相色谱等方法研究单糖组成及连接方式,四甲基偶氮唑盐微量酶反应比色法（MTT）检测虫草多糖的活性。经分离得到中性（CPSl）、酸性（CPS2）两种成分,相对分子质量分别为2．56×10^4,9．91×10^;单糖组成：CPSln,（葡萄糖）：n（甘露糖）：n（半乳糖）：n（阿拉伯糖）=46：36：18：l;CPS2／n,（葡萄糖）：n,（甘露糖）：n（半乳糖）：n（半乳糖酸）：n（木糖）：n（阿拉伯糖）：n（鼠李糖）=30：25：14：4：3：3：1。红外谱揭示均含-a-键。CPSl主链含（1→6）糖苷键的高度分支的葡甘露半乳聚糖,另有少量葡萄糖分支点在2,3,4位。CPS2主链含葡萄糖（Glc）、甘露糖（Man）、半乳糖（Gal）,分支点主要在3位,侧链含多种单糖。CPSl和CPS2都对顺铂（CDDP）损伤的vero细胞有一定保护作用。     

Cellulose and pectin localization in roots of mycorrhizalAllium porrum: labelling continuity between host cell wall and interfacial material

Two different types of contacts (or interfaces) exist between the plant host and the fungus during the vesicular-arbuscular mycorrhizal symbiosis, depending on whether the fungus is intercellular or intracellular. In the first case, the walls of the partners are in contact, while in the second case the fungal wall is separated from the host cytoplasm by the invaginated host plasmamembrane and by an interfacial material. In order to verify the origin of the interfacial material, affinity techniques which allow identification in situ of cell-wall components, were used. Cellobiohydrolase (CBH I) that binds to cellulose and a monoclonal antibody (JIM 5) that reacts with pectic components were tested on roots ofAllium porrum L. (leek) colonized byGlomus versiforme (Karst.) Berch. Both probes gave a labelling specific for the host cell wall, but each probe labelled over specific and distinct areas. The CBH I-colloidal gold complex heavily labelled the thick epidermal cell walls, whereas JIM 5 only labelled this area weakly. Labelling of the hypodermis was mostly on intercellular material after treatment with JIM 5 and only on the wall when CBH I was used. Suberin bands found on the radial walls were never labelled. Cortical cells were mostly labelled on the middle lamella with JIM 5 and on the wall with CBH I. Gold granules from the two probes were found in interfacial material both near the point where the fungus enters the cell and around the thin hyphae penetrating deep into the cell. The ultrastructural observations demonstrate that cellulose and pectic components have different but complementary distributions in the walls of root cells involved in the mycorrhizal symbiosis. These components show a similar distribution in the interfacial material laid down around the vesicular-arbuscular mycorrhizal fungus indicating that the interfacial material is of host origin.     

Optimization of Vi capsular polysaccharide production during growth of Salmonella enterica serotype Typhi Ty2 in a bioreactor

Vi capsular polysaccharide is synthesized during growth of Salmonella typhi Ty2 and is spontaneously released from the bacterial cells into the culture medium during culture. Vi production was dependent on cell growth and the greater the cell mass the greater the production of Vi. Using fed batch culture to optimize bacterial growth resulted is an increase in cell mass and consequently Vi production. The yield of Vi obtained in fed batch culture was 415 mg l⁻¹, which was over three times that, obtained in batch culture. A proportion of the Vi remained cell associated in the form of a capsule and at least part of this was released from the bacterial surface by sonication. The size of the Vi polysaccharide produced was consistently high and did not change during the different phases of bacterial growth. The synthesis of Vi was also dependent upon the media components and the fermentation conditions. The presence of high concentrations of glucose at the beginning of growth inhibited the production of Vi, particularly during the stationary phase. At a concentration of 400 mM sodium phosphate the synthesis of Vi was strongly inhibited.     

Introduction of air in the anaerobic culture of Streptococcus pneumoniae serotype 23F induces the release of capsular polysaccharide from bacterial surface into the cultivation medium

AIM: An approach to increase Streptococcus pneumoniae capsular polysaccharide (CPS) in the culture medium during fed-batch cultivation in bioreactor. METHODS AND RESULTS: Streptococcus pneumoniae serotype 23F was cultivated in a 5-l bioreactor with nitrogen-sparging and followed by addition of air in the stationary phase. The amount of CPS released in the supernatant progressively increased under air sparging. The profile of cellular viability and optical density was similar in both cultures. Immunoelectron microscopy showed that the amount of tightly cell-bound CPS was higher in bacteria cultivated under nitrogen than under air. CONCLUSIONS: The stress caused by the addition of air at the stationary phase promoted a large increase of free CPS into the medium, as a consequence of the morphologic change in the capsule. SIGNIFICANCE AND IMPACT OF THE STUDY: The use of air in the stationary phase of the culture would greatly simplify the subsequent downstream process, allowing CPS purification from the supernatant. The direct consequence of this process improvement is the reduction of vaccine production costs.     

Effect of enzyme-assisted extract of Sargassum coreanum on induction of apoptosis in HL-60 tumor cells

In order to effectively prepare useful components from Sargassum coreanum, enzyme-assisted extraction was adapted to extraction processing of the seaweed. Our previous studies have shown that Neutrase extract of S. coreanum exhibited the strongest antioxidant activities among ten enzymatic extracts. It is reported that many antioxidant substances have anticancer or anticarcinogenic properties. Thus, Neutrase extract, which possessed a strong antioxidant activity in the previous study, was separated into four different molecular weight fractions (<5, 5–10, 10–30, and >30?kDa) which were screened for inhibitory activities against cancer cell growth. The >30-kDa fraction inhibited cell growth more than the other fractions. We separated crude polysaccharide (CPS) from the >30-kDa fraction to show that CPS increased DNA fragmentation, apoptotic body, and apoptotic cells with hypodiploid DNA contents in HL-60 cells. This indicates that CPS suppressed the growth of cells through apoptosis. The CPS gradually increased the expression of pro-apoptotic Bax and led to the activation of caspase-3 and cleavage of poly(ADP-ribose) polymerase. The CPS was 40.85% fucose, 27.24% galactose, and 12.99% glucose, as analyzed by bio-liquid chromatography. These findings suggest that apoptosis effect can be mediated by CPS in HL-60 cells.     

Turnover of murein in a diaminopimelic acid dependent mutant ofEscherichia coli

Escherichia coli 173-25, whose cell wall was labelled with¹⁴C-diaminopimelic acid, was found to lose about 15% radioactivity during growth in a fresh medium, two thirds or more being lost during the first two generations. Degradation products of the cell wall were mostly of low-molecular type. About 5% of the cells lyzed as a result of transfer associated with filtration, washing and resuspension of the bacterial population in a diaminopimelic acid (DAP) deficient medium. The degradation was very low during the first 20 min. The amount of wall material released from the cells increased between 20–30 min and a sudden decrease of viability of the population was observed. The degradation of murein triggered by starvation for DAP continued when supplementing the deficient medium with DAP and when growth was resumed. About one-half of the cell wall material released into the medium under these conditions was macromolecular. However, lysis of the cells and release of proteins into the medium were rapidly interrupted after DAP was added to the starving culture and the differential rate of synthesis of the cell wall increased. Turnover of murein was not associated with protein turnover.     

Anti-Chemotactic Activity of Capsular Polysaccharide of Cryptococcus neoformans In Vitro

In this study, we demonstrated the anti-chemotaetic activity of the capsular polysaccharides (CPSs) isolated from each of the heavily (H)- and weakly (W)-encapsulated strains of Cryptococcus neoformans in vitro. The capacity for activation of the alternative complement pathway (ACP) of cells of the two C. neoformans strains in fresh human sera was comparable to that of zymosan (insoluble control), whereas the capacity for generation of the chemotactic factor (CF) of the cells of the two strains in fresh murine sera was markedly lower in the order H- < W-strain than that of zymosan. Conversely, the capacities for ACP activation and CF generation of the CPSs were extremely lower than those of lipopolysaccharide (LPS, soluble control). When zymosan-activated murine serum was incubated with CPS, both CPSs inhibited CF activity dose dependently. When zymosan-activated serum was incubated with heat-killed cells of each strain of C. neoformans, H and W, the CF activity of the treated sera decreased significantly, suggesting that CPS per se did not affect the neutrophils directly, but CPS absorbed CF. On the other hand, both CPSs were shown to possess the O-acetyl groups in their molecules by ¹H-nuclear magnetic resonance spectroscopy. The de-O-acetylation of both CPSs increased the capacity for ACP activation to a level similar to that of LPS, and the de-O-acetylated CPS of both strains exhibited a lower ability to inhibit CF than did native CPS. Collectively, these results suggest that the anti-chemotactic activity of CPS accounts for its ability to absorb the CF which was mostly generated at the sites around the cell wall of whole cells via the ACP, thus suppressing the inflammatory response by preventing dispersal of CF to the extracellular space; and also that the O-acetyl group is partly, if any, involved in the mechanism for incompetence in ACP activation as well as the inhibition of CF.     

Protein export during growth of Bacillus subtilis: the effect of extracellular protease deficiency

Exponential phase cultures of a protease-deficient and a protease-proficient strain of Bacillus subtilis , growing in minimal medium with a glucose carbon source, were labelled with ¹⁴C-phenylalanine. Subsequent export of labelled protein was detected in trichloroacetic acid-precipitated supernatant fluid samples. During exponential growth the strains exhibited substantially similar protein export kinetics. However, as confirmed by the presence of a cytoplasmic enzyme in the culture supernatant fluid, protease deficiency was associated with an increased tendency of cells to lyse as they approached stationary phase.     

CELL WALL CONSTITUENTS OF APHANOTHECE HALOPHYTICA (CYANOPHYTA)1

Some aspects of the cell wall and extracellular polysaccharide (ECPS) of the obligate halophile Aphanothece halophytica Frémy (Chroococcales) have been investigated. Extracellular polysaccharide concentration was found to remain constant on a per cell basis in medium containing from 1–3 M NaCl. The rate of ECPS production remained constant during mid-log growth phase and increased substantially as the culture reached stationary phase. The lipopolysaccharide of this organism was found to possess a low and unusual fatty acid content when compared to other chroococcalean forms. The cell wall appears to contain a typical gram-negative peptidoglycan. The covalently attached protein resembles the envelope protein of extremely halophilic bacteria in its possession of a similar molar percentage of amino acids with lipophilic R-groups and a high acidic amino acid fraction. The ECPS and cell wall fractions of A. halophytica were found to chemically more closely resemble those from other non-halophilic, chroococcalean bluegreen algae than those from the obligately halophilic bacteria.     

灵芝胞外多糖的发酵条件及其组份的初步研究

本文报道了液体培养灵芝Gl8801菌林产生胞外多糖的最佳发酵条件和胞外多搪的化学组成。适宜的液体培养基(g/L):饴糖40,花生饼粉30,KH_2PO_41.5,(NH_4)_2SO_41.5,MgSO_4·7H_2O_(0.75),CaCO_32,最适起始pH5.5。300ml三角瓶装培养基60ml,发酵温度28℃。摇瓶(165rpm)培养7～8天,发酵液纯多糖含量可达880mg/L。灵芝胞外多糖分为水溶性多糖和水不溶性多糖两种。水溶性多糖的单糖组份为半乳糖、葡萄糖、阿拉伯糖和木糖,所含单糖重量比为6:4:4:1。不溶性多糖为葡聚糖。灵芝胞外多糖的糖环构型为吡喃糖,末端糖基构型,半乳糖为α型,葡萄糖为β型。     

Role of apoplastic ascorbate and hydrogen peroxide in the control of cell growth in pine hypocotyls

The growth cessation of plant axis has been related with the formation of diphenyl bridges among the pectic components of the cell wall caused by the action of apoplastic peroxidases using hydrogen peroxide as electron acceptor. The formation of diphenyl bridges is prevented by the presence of ascorbate in the apoplastic fluid which acts as a hydrogen peroxide scavenger. The current work focuses on the role of the apoplastic ascorbate and hydrogen peroxide in the cell growth. The addition of hydrogen peroxide caused an inhibition of the auxin-induced growth as well as a significant decrease in the cell wall creep induced by acid-pH solutions. The hydrogen peroxide content in apoplastic fluid increased with the hypocotyl age and along the hypocotyl axis of 10-day-old pine seedlings, as the growth capacity decreased. On the other hand, the ascorbate content in the apoplastic fluid decreased with the hypocotyl age and along the hypocotyl axis of 10-day-old seedlings. A very significant correlation between the hydrogen peroxide apoplastic level and the growth rate as well as between the ascorbate/hydrogen peroxide molar ratio and the growth rate of hypocotyls have been found suggesting that the redox state is the main factor controlling the cell wall stiffening mechanism and thus growth in pine hypocotyls.