搅拌式生物反应器悬浮培养水母雪莲细胞的研究

应用 2L通气搅拌式生物反应器一步批式培养水母雪莲细胞。采用倾斜式搅拌桨代替透平桨 ,研究了搅拌转速、通气量和接种量对细胞生长和黄酮合成的影响 ,发现在 75r min、70 0～1000L min和 4.0～ 5.0gDCW L接种量下细胞生长和黄酮合成比较好。经过 12d培养细胞干重达 13.8gDCW L ,黄酮产量 416mg L ,黄酮含量占细胞干重的 30%。水母雪莲细胞生长及黄酮合成的进程表明 ,黄酮积累与细胞生长呈正相关。对细胞聚集体分布的研究发现 ,流变压力使细胞聚集体分裂 ,使反应器中细胞生长受到影响 ,黄酮产量较摇瓶中降低     

胀果甘草悬浮培养细胞合成甘草总黄酮

比较了胀果甘草(Glycyrrhiza inflata)悬浮细胞在逐级放大摇瓶中的生长、黄酮产量以及营养消耗过程,以便了解其放大规律。结果表明,在250和500mL摇瓶中,细胞的最大生物量、黄酮产量以及最大比生长速率没有显著性差异,但是在1L的摇瓶中,这三种参数都显著地降低,分别比250mL摇瓶中降低了27%,30%和27%。在逐级放大的摇瓶中,氮、磷、铵浓度都随着培养时间延长而逐渐降低,尽管在1L的摇瓶中磷消耗得最慢,但三种摇瓶中磷在细胞生长对数期基本都被消耗尽了。此外,硝态氮在第18天时基本被消耗完,而铵态氮在细胞收获时仍能维持在100mg/L。因此在反应器中培养时,主要的培养条件还需进一步优化。     

不同理化因子对雪莲毛状根生长和总黄酮生物合成的影响

在 1 2MS液体培养基上研究了不同理化因子对水母雪莲毛状根生长和总黄酮生物合成的影响。实验结果表明 :氮源总浓度 (包括NH+4和NO-3)为 30mmol L ;NH⁺₄ NO^-₃比例为 5∶2 5 ;2 %蔗糖和 3%葡萄糖组合 ;0.5mg LGA₃和 0.5mg LIBA ;pH5.8;18h d的光照 (光强为 35.0.0lx) ;2.4℃ ;摇床转速为 100rmin有利于毛状根生长及总黄酮的生物合成。在此培养条件下 ,经过21d的培养毛状根生长量达到 12.8g L(DW) ,总黄酮合成量为 192.2mg L ,即总黄酮含量占毛状根干重的 15 % ,约为干重野生水母雪莲植株总黄酮含量的 2.5倍。     

建立金线莲原球茎悬浮体系生产次生代谢产物

研究植物激素浓度和培养周期对金线莲原球茎悬浮培养生长及其代谢产物积累的影响,以增加金线莲悬浮培养的生长量,提高次生代谢产物的生产。结果表明,MS培养基添加S-3307 1.0mg/L,6-BA0.5mg/L和3%的蔗糖适合总生物量的生长(214.45g/L,FW和18.23g/L DW)。而MS培养基添加S-3307 1.0mg/L,6-BA 3.0mg/L和5%的蔗糖,总黄酮,总酚和多糖的干重(5.43mg/g,2.87mg/g和243.23mg/g)达到最大化。研究原球茎悬浮培养过程,发现经过7个星期培养就能获得最大的生物质总量(225.98 g/L的FW和18.53 g/L的DW)、总黄酮干重(5.09mg/g)和总酚干重(2.04mg/g),而多糖生产达到其峰值(229.36mg/g干重)是在培养后5个星期。     

Growth kinetics of vitis vinifera cell suspension cultures: I. Shake flask cultures

Vitis vinifera cell suspension cultures carried out in shake flasks were closely examined for biomass growth and cell division in relation to carbohydrate, NH(4), NO(3)PO(4), and dissolved oxygen (DO)consumption. After inoculation, the oxygen uptake rate of the cultures measured on-tine was observed to increase continuously to a maximum value of 3.8 mmol O(2)L(-1)h(-1) at day 7 when cell division ceased and dissolved oxygen reached its lowest level of 17% air saturation. During this first phase of growth, the specific oxygen uptake rate remained constant at approximately 0.6 mmol 02 O(2) g(-1) dw h(-1)or approximately 2.2 mumol O(2), (10(6) cells)(-1) h(-1) whereas dry biomass concentration increased exponentially from 1.5 to 6.0 g dw L(-1). Thereafter, dry biomass concentration increased linearly to approximately 14 g dw L(-1) at day 14 following nitrate and carbohydrate uptake. During this second phase of growth, the biomass wet-to-dry weight ratio was found to increase in an inverse relationship with the estimated osmotic pressure of the culture medium. This corresponded to inflection points in the dry and wet biomass concentration and packed cell volume curves. Furthermore, growth and nutrient uptake results suggest that extracellular ammonium or phosphate ion availability may limit cell division. These findings indicate that cell division and biomass production of plant cell cultures may not always be completely associated, which suggests important new avenues to improve their productivity. (c) 1995 John Wiley & Sons, Inc.     

High density cell culture ofRhodotorula glutinis using oxygen-enriched air

Summary Fed-batch culture ofRhodotorula glutinis, an oleaginous yeast, was carried out to obtain high biomass concentration. With air, final concentration of biomass was 100–110 g/L, whereas with oxygen-enriched air, 185 g/L was obtained. Obligate aerobic metabolism ofR. glutinis under oxygen limitation and low oxygen requirement under lipidaccumulating condition were found to be advantageous for the high density culture of this microbe.     

Phototrophic growth of Rubrivivax gelatinosus in poultry slaughterhouse wastewater

Rubrivivax gelatinosus was grown in Pfennig's synthetic medium (PM) and in treated wastewater from poultry slaughterhouse (TW) to assess growth profiles for biomass production. Cultures inoculated at 1% (v/v) were grown under anaerobiosis at 30+/-2 degrees C and 1400+/-200 lux for 12 days. Regular absorbance curves for R. gelatinosus were found both on PM and TW. On PM, the highest dry weight of biomass, 0.39 gL(-1), was achieved in the 216-h culture and the highest specific growth rate of 0.2960 h(-1) occurred in the 24-h culture. On TW, the highest biomass of 0.57 gL(-1) was also obtained in the 216-h culture and the highest specific growth rate, 0.1970 h(-1), was achieved in the 48-h culture. For productivity and chemical oxygen demand investigations, the cultivation was accomplished in the TW under anaerobiosis at 32+/-2 degrees C and 4000+/-500 lux, for 10 days. Productivity was 0.085 g biomass (d.w.) L(-1) day(-1), with a COD decrease of 91%.     

Carbon dioxide uptake efficiency by outdoor microalgal cultures in tubular airlift photobioreactors

The influence of solar irradiance and carbon dioxide molar fraction of injected CO(2)-air mixtures on the behavior of outdoor continuous cultures of the microalga Phaeodactylum tricornutum in tubular airlift photobioreactors was analyzed. Instantaneous solar irradiance, pH, dissolved oxygen, temperature, biomass concentration, and the mass flow rates of both the inlet and outlet oxygen and carbon with both the liquid and gas phases were measured. In addition, elemental analysis of the biomass and the cell-free culture medium was performed. The oxygen production rate and carbon dioxide consumption rate increased hyperbolically with the incident solar irradiance on the reactor surface. Carbon losses showed a negative correlation with the daily variation of the carbon dioxide consumption rate. The maximum CO(2) uptake efficiency was 63% of the CO(2) supplied when the CO(2) concentration in the gas supplied was 60% v/v. Carbon losses were >100% during the night, due to CO(2) production by respiration, and hyperbolically decreased to values of 10% to 20% in the midday hours. An increase in the carbon fixed in the biomass with the solar cycle was observed. A slight daily decrease of carbon content of the cell-free culture medium indicated the existence of carbon accumulation in the culture. A decrease in CO(2) molar fraction in the injected gas had a double benefit: first, the biomass productivity of the system was enhanced from 2.05 to 2.47 g L(-1) day(-1) by reduction of CO(2) inhibition and/or pH gradients; and second, the carbon losses during the daylight period were reduced by 60%. The fluid dynamics in the reactor also influenced the carbon losses: the higher the liquid flow rate the higher the carbon losses. By using a previous mass transfer model the experimental results were simulated and the usefulness of this method in the evaluation and scale-up of tubular photobioreactors was established.     

Alternative medium for production of Pleurotus ostreatus biomass and potential antitumor polysaccharides

Pleurotus species are recognized for producing beta-glucans with important medicinal properties as a constituent of the cellular wall of the fruiting body or of the mycelium. The aims of this work were to select a culture medium that maximized the production of biomass and polysaccharides produced by Pleurotus ostreatus DSM 1833 and to evaluate the selected medium in two values of initial oxygen transfer rate -K(L)a (10.2 and 19.3 h(-1)). A 2* *4 factorial design was constructed to evaluate the supplementation of wheat extract with corn steep liquor--CSL (10 or 20 g L(-1)), yeast extract--YE (2 or 5gL(-1)), ammonium sulfate--AS (0 or 5 g L(-1)) and glucose (20 or 40 g L(-1)). In terms of maximum productivity in biomass and global productivity in polysaccharides, the best values were obtained when 5 g L(-1) of YE and 40 g L(-1) of glucose were used. In terms of maximum concentration of biomass, the best results were obtained when 20 g L(-1) of CSL and 40 g L(-1) of glucose were used. The best results in terms of production of biomass and polysaccharides were achieved when lower initial K(L)a (10.2 h(-1)) was used.     

丛枝菌根真菌与根瘤菌互作及类黄酮对互作效果的影响

研究了中华根瘤菌与AM真菌互作或加入适量的类黄酮(150nmol·L^-1和1．5μmol·L^-1)对紫云英的生物量、结瘤数、AM真菌的侵染率、菌丝ALP和SDH酶活性的影响．结果表明,与对照组[0、AMF、Rh]相比,Rh+AMF组紫云英的生物量、结瘤数、AM真菌侵染率和菌丝酶活都有显著差异;与对照组及Rh+AMF组相比,类黄酮处理组紫云英的生物量、结瘤数、AM真菌侵染率和菌丝酶活差异更加显著,但不同类黄酮间(apigenin和hesperitin),或同一种类黄酮不同浓度处理问(150nmol·L^-1和1．5umol·L^-1)差异不明显,说明AM真菌与根瘤菌互作对紫云英的结瘤固氮、AM真菌的侵染和菌丝的生长都有促进作用．当Rh+AMF组加入适量的类黄酮时。这种促进作用更加显著．