Utilization of the cyanobacteria Anabaena sp. ATCC 33047 in CO2 removal processes

In this paper the utilization of the cyanobacteria Anabaena sp. in carbon dioxide removal processes is evaluated. For this, continuous cultures of this strain were performed at different dilution rates; alternatives for the recovery of the organic matter produced being also studied. A maximum CO₂ fixation rate of 1.45 g CO₂ L⁻¹ day⁻¹ was measured experimentally, but it can be increased up to 3.0 g CO₂ L⁻¹ day⁻¹ outdoors. The CO₂ is mainly transformed into exopolysaccharides, biomass representing one third of the total organic matter produced. Organic matter can be recovered by sedimentation with efficiencies higher than 90%, the velocity of sedimentation being 2 · 10⁻⁴ s⁻¹. The major compounds were carbohydrates and proteins with productivities of 0.70 and 0.12 g L⁻¹ day⁻¹, respectively. The behaviour of the cultures of Anabaena sp. has been modelized, also the characteristics parameters requested to design separation units being reported. Finally, to valorizate the organic matter as biofertilizers and biofuels is proposed.     

Physiological factors affecting streptomycin production by Streptomyces griseus ATCC 12475 in batch and continuous culture

Abstract Conditions of growth are described for the production of streptomycin by Streptomyces griseus ATCC 12475 using chemically defined minimal medium and complex medium. It was found using batch cultures that early synthesis of the antibiotic occurred during growth in minimal medium but was delayed until the onset of stationary phase in complex medium. This effect was independent of whether spores or vegetative cells were used as inoculum. Stability of streptomycin biosynthesis in continuous culture was dependent on dilution rate and medium employed. Cultures were highly unstable when grown on complex medium but could be maintained in steady states in continuous culture using minimal medium when the dilution rate was increased in a stepwise manner, starting at a dilution rate of 0.02 h⁻¹ (15% of μ _max). The effect of changing dilution rate on growth, streptomycin production and the level of streptomycin phosphotransferase was examined using this technique.     

根瘤菌N613胞外多糖发酵条件及抗肿瘤作用研究

用摇瓶正交试验研究了根瘤菌Rhizobium sp.N613合成根瘤菌胞外多糖(rhizobium exopolysaccharide,REPS)的最佳培养基配方和最适培养条件。采用10L自动控制罐进行了分批发酵试验,获得了合成REPS的发酵动力学参数。经40h的补料分批发酵与代谢调控,REPS产量达到11.31g/L。此外,抗肿瘤实验表明,当REPS剂量为5mg/kg时,其抑瘤率可达53.40%。结果表明,REPS的发酵周期短,产量高,成本低,且具有良好的免疫活性与增稠性,有着极高的开发应用价值。     

Induction of increase in the heterocyst frequency of Anabaena sp. strain ATCC33047. Effect on ammonium photoproduction

Abstract Several approaches have been followed to increase the nitrogenase level in filaments of Anabaena ATCC33047. In a nitrogen-free medium lacking added molybdate and supplemented with 10 mM tungstate, growth was impaired as a result of decreased nitrogenase activity level. Under these conditions, the filaments exhibited nitrogen starvation symptoms and a high heterocyst frequency, with heterocysts being up to 28% of the total number of cells in the filaments, while a regular pattern of heterocyst distribution was maintained. Normal nitrogenase level and nitrogen status were recovered upon molybdate addition, with resumption of growth and decrease of the heterocyst frequency with time until reaching a value of about 10%. The yield of ammonium photoproduction from N₂ by filaments displaying different heterocyst frequencies and treated with l -methionine- d,l -sulfoximine (MSX) was determined. Maximal rates were obtained with filaments containing 16% of the cells differentiated as heterocysts. Results indicate that appropriate manipulation of the heterocyst frequency leads to an improvement in the efficiency of conversion of light energy into chemical energy through photoreduction of N₂ to ammonium.     

Epoxypropane biosynthesis by Methylomonas sp. GYJ3: batch and continuous studies

Methylomonas sp. GYJ3 is a methanotrophic bacterium containing methane monooxygenase (MMO), which catalyses the epoxidation of propene to epoxypropane. In this study, the cell suspension of Methylomonas sp. GYJ3 has been used for epoxypropane biosynthesis from propene. When propene is epoxidized, the product epoxypropane is not further metabolized and accumulates extracellularly. Unfortunately, continuous production of epoxypropane is usually difficult due to exhaustion of reductant and the accumulation of toxic products. Hence, in order to address these problems, batch experiments were performed to explore the possibility of producing epoxypropane by a co-oxidation process. Methane was chosen as the most suitable electron-donating co-substrate since it did not result in molecular toxicity and provided abundant reductant for epoxidation. It was found that the maximum production of epoxypropane occurred in an atmosphere of 30% methane. Batch experiments also indicated that continuous removal of product was necessary to overcome the inhibition of epoxypropane. In continuous experiments, optimum mixed gaseous substrates were continuously circulated through the stirred tank bioreactor to remove product from the cell suspension. Initial epoxypropane productivity was 268 mol/day. The bioreactor has been allowed to operate continuously for 12 days without obvious loss of epoxypropane productivity, and more than 96% of initial MMO activity was retained.     

种子培养基成分对裂殖壶菌发酵产DHA的影响

考察种子培养基中谷氨酸钠质量浓度和NaCl质量浓度（盐度）对Schizochytrium sp. HX-308菌种质量及发酵性能的影响。结果表明：40 g/L谷氨酸钠条件下培养菌种,发酵后DHA质量分数达到（53.25±0.48）%,而其油产量、油脂质量分数和DHA产量分别为（24.9±0.4）g/L、（45.2±0.6）%、（8.6±0.35）g/L; 利用不含谷氨酸钠的种子培养基发酵,其油产量、油脂质量分数和DHA产量分别为（30.1±0.8）g/L、（54.3±0.5）%、（12.1±0.5）g/L,比含40 g/L谷氨酸钠时分别提高了20.88%、20.13%和40.70%,为菌种驯化提供了新的思路和方向。此外,低盐度培养条件有利于菌种生产性能的发挥,6.25 g/L NaCl条件下发酵后油质量分数、DHA产量及DHA质量分数最高,分别为（62.1±0.8）%、（10.0±0.3）g/L、（48.97±0.42）%。     

Alexandrium ostenfeldii growth and spirolide production in batch culture and photobioreactor

Growth and spirolide production of the toxic dinoflagellate Alexandrium ostenfeldii (Danish strain CCMP1773) were studied in batch culture and a photobioreactor (continuous cultures). First, batch cultures were grown in 450 mL flasks without aeration and under varying conditions of temperature (16 and 22 °C) and culture medium (L1, f/2 and L1 with addition of soil extract). Second, cultures were grown at 16 °C in 8 L aerated flat-bottomed vessels using L1 with soil extract as culture medium. Finally, continuous cultures in a photobioreactor were conducted at 18 °C in L1 with soil extract; pH was maintained at 8.5 and continuous stirring was applied.This study showed that A. ostenfeldii growth was significantly affected by temperature. At the end of the exponential phase, maximum cell concentration and cell diameter were significantly higher at 16 °C than at 22 °C. In batch culture, maximum spirolide quota per cell (approx. 5 pg SPX 13-desMeC eq cell⁻¹) was detected during lag phase for all conditions used. Spirolide quota per cell was negatively and significantly correlated to cell concentration according to the following equation: y = 4013.9x^−0.858. Temperature and culture medium affected the spirolide profile which was characterized by the dominance of 13,19-didesMeC (29–46%), followed by SPX-D (21–28%), 13-desMeC (21–23%), and 13-desMeD (17–21%).Stable growth of A. ostenfeldii was maintained in a photobioreactor over two months, with maximum cell concentration of 7 × 10⁴ cells mL⁻¹. As in batch culture, maximum spirolide cell quota was found in lag phase and then decreased significantly throughout the exponential phase. Spirolide cell quota was negatively and significantly correlated to cell concentration according to the equation: y = 12,858x^−0.8986. In photobioreactor, spirolide profile was characterized by higher proportion of 13,19-didesMeC (60–87%) and lower proportions of SPX-D (3–12%) and 13-desMeD (1.6–10%) as compared to batch culture.     

Behavior of filamentous cyanobacterium Anabaena spp. in water column and its cellular characteristics

From a practical viewpoint, cyanobacteria have two opposite aspects: one is that some of the species participate in water bloom, and the other is that they may be used in agriculture as a biofertilizer. Akinete, a dormant cell, is the key to the engineering analysis of both cases. In order to analyze the behavior of cyanobacteria in water, Anabaena cylindrica, a filamentous cyanobacterium, was investigated in terms of the behavior of algal biomass in a water column and its characteristics in akinete formation. The algal culture transferred to a glass cylinder settled down initially and then floated to the surface of the water column, forming an algal mat due to oxygen bubbles generated extracellularly by photosynthesis. The differentiation of vegetative cells into akinetes was not induced by light limitation but iron depletion. Akinetes tended to separate from trichomes and settle down because their density is higher than that of water. This phenomenon suggests an operational method for removing the source of water bloom from an aquatic environment, or harvesting akinetes as the seed of biofertilizers.     

mrpA (all1838), a gene involved in alkali and Na sensitivity, may also have a role in energy metabolism in the cyanobacterium Anabaena sp. strain PCC 7120

Anabaena sp. PCC7120 contains a gene, mrpA (all1838), which forms part of a seven gene-cluster (all1843–all1837) with significant sequence similarity to bacterial operons that putatively code for a multicomponent cation/proton antiporter involved in alkaline pH adaptation and salt resistance. We previously showed that growth and photosynthesis were inhibited in a strain mutated in mrpA, denoted as PHB11, particularly at alkaline pH. Here, we show that respiration was also impaired in the mutant independently of the external pH. In addition, at high pH, less ATP and vegetative cell ferredoxin were present in PHB11, which also showed lower levels of ferredoxin-NADP⁺ oxidoreductase (FNR). Ferredoxin and FNR are involved in the generation of reductant NADPH in cyanobacteria. These results suggest an energetic role of mrpA (and perhaps of the whole mrp-gene cluster) in Anabaena sp. PCC 7120 that is further supported by the significant similarity of putative Anabaena Mrp proteins to membrane subunits of complex I.     

海藻酸裂解酶高产菌株Microbulbifer sp.SH-1的分离、鉴定及其产酶条件优化

【目的】筛选一株海藻酸裂解酶高产菌株,并通过优化产酶条件提高海藻酸裂解酶活性。【方法】以海藻酸钠为唯一碳源的培养基,对福建漳州滨海土壤中的微生物进行筛选和分离,获得海藻酸裂解酶高产菌株;依据形态、生理生化特征及16S rDNA序列分析对目的菌株进行鉴定;然后通过单因素和正交试验对其产酶条件进行优化。【结果】十六烷基吡啶(CPC)染色得到4株透明圈与菌落直径比值(D/d)3的菌株;DNS法测定4菌株发酵液中海藻酸裂解酶活力,其中菌株SH-1的海藻酸裂解酶活性最高,达到315.52 U/mL;经形态、生理生化和16S rDNA测序鉴定,将其命名为Microbulbifer sp. SH-1;通过单因素和正交试验优化,确定该菌株最适产酶培养基为:海藻酸钠10 g/L,NaCl 5 g/L,(NH_4)_2SO_45g/L,MgSO_40.2g/L,K_2HPO_41g/L,FeSO_40.02g/L。对培养条件的进一步优化结果发现,在初始pH 7.5、温度32°C条件下,以1%的接种量将SH-1菌株接入50 mL优化培养基中,240 r/min转速下振荡培养24 h,SH-1菌株产酶最大活性可达757.90 U/mL,比优化前提高了2.4倍。【结论】SH-1最佳产酶条件的建立,为海藻酸裂解酶的大规模制备以及更深层次研究提供了试验基础和理论依据。     

Kinetics of recombinant immunoglobulin production by mammalian cells in continuous culture

A clonal derivative of a transfectant of the SP2/O myeloma cell line producing a chimeric monoclonal antibody was maintained in steady-state, continuous culture at dilution rates ranging from 0.21 to 1.04 day(-1). The steady-state values for nonviable and total cell concentrations increased as the dilution rate decreased, while the viable cell concentration was roughly independent of the dilution rate. At steady state, the specific growth rate increased and the specific death rate decreased as the dilution rate increased. The maximum specific growth rate was 1.15 day(-1). Antibody production was growth associated and the specific rate of antibody production increased linearly as the specific growth rate increased.     

Identification and initial utilization of a portion of the smaller plasmid of Anabaena variabilis ATCC 29413 capable of replication in Anabaena sp. strain M-131

Summary Anabaena variabilis ATCC 29413 contains two cryptic plasmids. Clones of the smaller (41 kb) plasmid, designated pRDS1, in cosmid vectors were used to construct a physical map. A clone bank of pRDS1 constructed by ligating fragments from aXhoII digest of a pRDS1 cosmid clone into a mobilizable plasmid was used to locate an origin of replication of pRDS1. Because we were unable to cureA. variabilis of pRDS1, the clone bank was transferred by conjugation to another strain ofAnabaena sp., strain M-131. A 5.3 kb fragment of pRDS1 contained all of the sequences necessary for replication inAnabaena sp. strain M-131 as judged by the ability to rescue the hybrid vector from exconjugants in unchanged form after many generations. Hybrid plasmids derived from pRDS1, one bearing genes for luciferase, were also transferred by conjugation toA. variabilis, where they appeared to recombine with pRDS1.     

Uptake and use of the osmoprotective compounds trehalose, glucosylglycerol, and sucrose by the cyanobacterium Synechocystis sp. PCC6803

Accumulation of exogenously supplied osmoprotective compounds was analyzed in the cyanobacterium Synechocystis sp. PCC6803, which synthesizes glucosylglycerol as the principal osmoprotective compound. Glucosylglycerol and trehalose were accumulated to high levels and protected cells of a mutant unable to synthesize glucosylglycerol against the deleterious effects of salt stress. In the wild-type, uptake of trehalose repressed the synthesis of glucosylglycerol and caused metabolic conversion of originally accumulated glucosylglycerol. Trehalose cannot be synthesized by Synechocystis and was not or only insignificantly metabolized. Sucrose, which can be synthesized in low quantities by Synechocystis, was also taken up, as indicated by its disappearance from the medium. Sucrose was not accumulated to high levels, probably due to a sucrose-degrading activity found in cells adapted to both low- and high-salt conditions. Despite its low intracellular concentration, sucrose showed a weak osmoprotective effect in salt-shocked cells of a mutant unable to synthesize glucosylglycerol. Received: 4 September 1996 / Accepted: 18 November 1996     

Ethanol production in multistage continuous, single stage continuous, Lactobacillus-contaminated continuous, and batch fermentations

Saccharomyces cerevisiae-based ethanol fermentations were conducted in batch culture, in a single stage continuous stirred tank reactor (CSTR), a multistage CSTR, and in a fermentor contaminated with Lactobacillus that corresponded to the first fermentor of the multistage CSTR system. Using a glucose concentration of 260 g l^–1 in the medium, the highest ethanol concentration reached was in batch (116gl^–1), followed by the multistage CSTR (106gl^–1), and the single stage CSTR continuous production system (60gl^–1). The highest ethanol productivity at this sugar concentration was achieved in the multistage CSTR system where a productivity of 12.7gl^–1h^–1 was seen. The other fermentation systems in comparison did not exceed an ethanol productivity of 3gl^–1h^–1. By performing a continuous ethanol fermentation in multiple stages (having a total equivalent working volume of the tested single stage), a 4-fold higher ethanol productivity was achieved as compared to either the single stage CSTR, or the batch fermentation.     

Optimization of culture conditions and continuous production of chitosan by the fungi,Absidia coerulea

The production of chitosan from the mycelia ofAbsidia coerulea was studied to improve cell growth and chitosan productivity. Culture conditions were optimized in batch cultivation (pH 4.5 agitator speed of 250 rpm, and aeration rate of, 2 vvm) and the maximum chitosan concentration achieved was 2.3 g/L under optimized conditions. Continuous culture was carried out successfully by the formation of new growth spots under optimized conditions, with a chitosan productivity of 0.052 gL⁻¹ h⁻¹, which is the highest value to date, and was obtained at a dilution rate of 0.05 h⁻¹. Cell chitosan concentrations reached about 14% in the steady state, which is similar to that achieved in batch culture. This study shows that for the continuous culture ofAbsidia coerulea it is vital to control the medium composition.     

碳氮源对转基因鱼腥藻Anabaena sp.PCC7120培养的影响

对碳源、氮源种类和用量对转rhTNF-α基因鱼腥藻7120（Anabaena sp.PCC7120）培养的影响进行了研究,发现最适碳源为蔗糖,最适氮源为NaNO3,最佳用量分别为9g/L和2．25g/L,此时生物量远高于自养方式,达2．52g/L,比相同条件下在BG－11培养基培养高71．66％,ATNF－α表达量为16％－22％,生物活性为10^5U/mg。     

Stress-induced morphological and physiological changes in γ-linolenic acid production by Mucor fragilis in batch and continuous cultures

Batch and continuous cultures conditions were studied in order to increase γ-linolenic acid production by Mucor fragilis CCMI 142, in response to the presence of ethanol. Continuous cultures were used to add ethanol pulses to steady state pellet cultures. It was demonstrated that pellet size, which allowed homogeneous fungal cultures, can be obtained by means of pH adjustment, thus enabling steady state continuous growth at 2.90±0.05.

The 5 and 2% (v/v) ethanol pulses induced hyphal morphological changes with arthrospore formation. A 1% (v/v) pulse of ethanol did not immediately affect growth, but induced morphological changes, which led to autolysis at the pellet core. A 0.5% (v/v) pulse of ethanol did not affect neither the morphology nor the physiology of the microorganism to any significant extent. The 0.5 and 1% (v/v) ethanol pulses resulted in an increase in the proportion of γ-linolenic acid production up to 11%. Data from batch cultures showed a higher enhancement of ethanol, attaining 30% of γ-linolenic acid.

The increase of γ-linolenic acid content observed in batch and continuous conditions appears to be a response associated with stress induced by the ethanol which seems to be of value as an industrial medium component.     

Exopolysaccharide and extracellular metabolite production by Lactobacillus delbrueckii subsp. bulgaricus, grown on lactose in continuous culture

Lactobacillus delbrueckii subsp. bulgaricus NCFB 2483, when grown on lactose in continuous culture, showed increasing specific yields and volumetric productivities of exopolysaccharide (EPS) with increasing dilution rate. Specific and volumetric productivities of lactate and galactose, as extracellular metabolites, increased in response to the incremental changes in the dilution rate up to 0.4 h^–1. Elevated Y_p/s values determined for EPS (0.025 g EPSg lactose^–1) at the dilution rates of 0.3 h^–1–0.4 h^–1, relative to those determined at lower dilution rates, suggest a diversion of carbon flux towards EPS being associated with the higher rates of growth.