Significance of protein elicitor isolated from Tuber melanosporum on the production of ganoderic acid and Ganoderma polysaccharides during the fermentation of Ganoderma lucidum

Under the elicitation of protein elicitor isolated from the culture mycelia of Tuber melanosporum, the biosynthesis of ganoderic acids (GA) was significantly stimulated during Ganoderma lucidum fermentation. Compared with our previous results that, GA content was inhibited by polysaccharide elicitor isolated from T. melanosporum, while improved by the elicitor of polysaccharide and protein, protein was identified to be the exact component inducing GA biosynthesis in this work. G. lucidum cell growth was significantly inhibited by elicitor of polysaccharide and protein, and polysaccharide elicitor did not inhibit the cell growth. In this work, the remarkable inhibition on the cell growth was considerably eliminated under the elicitation of protein elicitor isolated from T. melanosporum. These suggested maybe the interaction of polysaccharide and protein components existed in the inhibition on the cell growth of G. lucidum. Not only GA content but also total GA accumulation obtained the highest values after the elicitation of protein elicitor. The maximal GA production of 260.5 ± 5.6 mg/L was 31.2% higher than the control. Under the elicitation of protein elicitor, the production of extracellular polysaccharide (EPS) and the content of intracellular polysaccharide (IPS) were also enhanced; however, total IPS accumulation was lower. GA biosynthesis was also significantly affected by the addition time of protein elicitor, whose optimal value was the culture of day 4.     

Performance analyses of a pH-shift and DOT-shift integrated fed-batch fermentation process for the production of ganoderic acid and Ganoderma polysaccharides by medicinal mushroom Ganoderma lucidum

Investigations on Ganoderma lucidum fermentation suggested that the responses of the cell growth and metabolites biosynthesis to pH and dissolved oxygen tension (DOT) were different. The ganoderic acid (GA) production of 321.6 mg/L was obtained in the pH-shift culture by combining a 4-day culture at pH 3.0 with the following 6-day culture at pH 4.5, which was higher by 45% and 300% compared with the culture at pH 3.0 and 4.5, respectively. The GA production of 487.1 mg/L was achieved in the DOT-shift culture by combining a 6-day culture at 25% of DOT with a following 6-day culture at 10% of DOT, which was higher by 43% and 230% compared with the culture at 25% and 10% of DOT, respectively. A fed-batch fermentation process by combining the above-mentioned pH-shift and DOT-shift strategies resulted in a significant synergistic enhancement of GA accumulation up to 754.6 mg/L, which is the highest reported in the submerged fermentation of G. lucidum in stirred-tank bioreactor.     

Improvement of ganoderic acid production by fermentation of Ganoderma lucidum with cellulase as an elicitor

Two-stage cultivation of Ganoderma lucidum was performed for the enhanced production of ganoderic acid (GA). Cellulase was identified to be an effective elicitor for the improvement of GA production, and GA titer reached 1334.5 mg/l compared to the control (779.6 mg/l) using lactose as the substrate without cellulase addition. Loading of 5 mg/l cellulase on day 3 resulted in the maximal GA titer of 1608 mg/l. To our knowledge, this is the first time that cellulase was used as the elicitor to enhance GA production. Submerged fermentation in a 2.0-l bioreactor was also conducted with cellulase as the elicitor, and as a result the maximal GA titer of 1252.7 mg/l was obtained on day 12. This is so far the best GA production obtained in submerged fermentation of G. lucidum.     

Improvement of ganoderic acid and Ganoderma polysaccharide biosynthesis by Ganoderma lucidum fermentation under the inducement of Cu2+

The cell growth and total accumulation of bioactive metabolites were significantly improved by Cu²⁺ addition during the submerged fermentation of medicinal mushroom Ganoderma lucidum. A mathematical model, constructed by response surface methodology combination with full factorial design, was applied to study the synergic effect of Cu²⁺ addition concentration and addition time. The optimal Cu²⁺ inducement strategy for the cell growth were different from those for the biosynthesis of ganoderic acid (GA) and Ganoderma polysaccharide. A multiple additions strategy of Cu²⁺ by adding each 1 mM Cu²⁺ on day 2, 6, 8 and 2 mM Cu²⁺ on day 4 was developed to enhance total accumulation of GA and extracellular polysaccharides. The highest GA content reached 3.0 ± 0.1 mg per 100 mg DW, which was increased by 76.5% and 33.9% compared with the control without Cu²⁺ addition and the peak value predicted by the constructed mathematical model, respectively. While, relatively higher addition concentration of Cu²⁺ (i.e., 5 mM) on the culture of day 4 led to higher content and total production of intracellular polysaccharides. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2010     

Two-stage culture process for improved production of ganoderic acid by liquid fermentation of higher fungus Ganoderma lucidum

Investigations on the impact of pellet size on the cellular oxygen uptake and accumulation of ganoderic acid (GA) suggested the favorable effect of oxygen limitation on GA formation by the higher fungus Ganoderma lucidum. A two-stage fermentation process was thus proposed for enhanced GA production by combining conventional shake-flask fermentation with static culture. A high cell density of 20.9 g of DW/L (DW = dry cell weight) was achieved through a 4-day shake-flask fermentation followed by a 12-day static culture. A change in the cell morphology and a decrease in the sugar consumption rate were observed during the static culture. The GA production in the new two-stage process was considerably enhanced with its content increased from 1.36 (control) to 3.19 mg/100 mg of DW, which was much higher than previously observed.     

Enhanced ethanol fermentation by engineered Saccharomyces cerevisiae strains with high spermidine contents

Bioprocess and Biosystems Engineering - Construction of robust and efficient yeast strains is a prerequisite for commercializing a biofuel production process. We have demonstrated that high...     

Multi-fed batch culture integrated with three-stage light irradiation and multiple additions of copper ions for the hyperproduction of ganoderic acid and Ganoderma polysaccharides by the medicinal mushroom Ganoderma lucidum

To further enhance the accumulation of the bioactive metabolite ganoderic acid (GA) by fermentation of the medicinal mushroom Ganoderma lucidum, a novel integrated strategy was developed by simultaneously adopting a strategy of multiple Cu²⁺ additions, three-stage light irradiation and multi-pulse feeding of carbon and nitrogen sources. Maximal GA content (i.e., 4.1 mg/100 mg DW) and production (i.e., 720.8 mg/L) were obtained using the novel integrated strategy. Not only the biomass but also the total GA production obtained in this work is the highest reported for a shaker flask culture of G. lucidum. This work is useful for the large-scale production of GA by G. lucidum fermentation.     

2,3-丁二醇生产菌株生产能力的比较和培养基优化

对5株克雷伯氏肺炎杆菌 (包括两株乳酸途径被敲除的工程菌株) 发酵生产2,3-丁二醇能力进行了比较,其中K. pneumonia HR521 LDH (乳酸合成途径中ldhA基因被敲除) 具有最佳的发酵性能。通过正交试验优化了其发酵培养基的主要组分,优化后的培养基组成为：葡萄糖 90 g/L,(NH4)2HPO4 3 g/L,玉米浆 (CLSP) 6 g/L,乙酸钠 5 g/L,KCl 0.4 g/L,MgSO4 0.1 g/L,FeSO4·7H2O 0.02 g/L,MnSO4 0.01 g/L。在优化后的发酵培养基中进行摇瓶发酵,24 h发酵乙偶姻和2,3-丁二醇的终浓度为37.46 g/L,比未优化前增加了10 g/L,2,3-丁二醇得率达到了理论得率的90.53％,生产强度1.56 g/(L·h),检测不到副产物乳酸的生成,利于后提取工艺的进行和工业生产的应用。     

Production of ganoderic acid by Ganoderma lucidum RCKB-2010 and its therapeutic potential

The newly isolated basidiomycetous fungus, identified as Ganoderma lucidum RCKB-2010 was tested for production of ganoderic acid (GA) under submerged fermentation conditions. Production of GA under liquid static cultivation condition was found to be 2,755.88 mg L^?1 on the 25th day of incubation, whereas under shaking cultivation conditions the maximum production of GA was observed to be 373.75 mg L^?1. ¹H NMR analysis revealed clearly that the fungal extracts possessed a lanostane skeleton, confirming the presence of GA. Interestingly, GA was found to have potential to inhibit the proliferation of HeLa cells and U87 human glioma cells in a dose dependent manner. In addition, GA was also found to possess antibacterial activity, exhibiting a minimal inhibitory concentration of 0.25 mg mL^?1 against standard strains of Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus and Staphylococcus epidermidis. GA produced in the present study holds potential as a potent anticancer agent.     

A novel Ganoderma lucidum G0119 fermentation strategy for enhanced triterpenes production by statistical process optimization and addition of oleic acid

A novel enhanced triterpenes fermentation production process by Ganoderma lucidum G0119 with the addition of oleic acid in the medium has been developed and optimized. All of the six exogenous additives tested were found to exhibit stimulatory effect on mycelial growth and triterpenes biosynthesis by G. lucidum. The results show that oleic acid addition had significant role in promoting triterpenes production. The optimal concentration and time of oleic acid addition were determined to be 30 mL/L and 0 h, respectively. Furthermore, three significant factors influencing triterpenes production were identified as glucose, magnesium sulfate and temperature using the Plackett–Burman design. The optimized conditions by central composite design were 27.83 g/L glucose, 1.32 g/L magnesium sulfate, 26.2°C temperature. The triterpenes fermentation yield with the optimized medium based on actual confirmatory experimental data in 6 L fermentor was 1.076 g/L versus the statistical model predicted value of 1.080 g/L. Our innovatively developed triterpenes fermentation production technology and process has been proven to produce high triterpenes productivity and yield conceivably useful for industrial production.     

阿拉伯胶酶产生菌株的筛选及其发酵培养基的优化

从土壤中筛选产阿拉伯胶酶的微生物菌株,并通过紫外诱变选育后得到高产突变菌株ZHB05F,依据菌落和孢子形态特征初步鉴定为镰刀茵(Fusarium sp.).通过单因素试验,优化了产酶培养基的主要组分的浓度和pH值,得到最佳的产酶发酵培养基组成为:阿拉伯胶30 g/L,(NH4)2SO4 8 g/L,K2HPO4 1g/...     

灵芝多糖的生物合成和发酵调控

灵芝多糖是灵芝的关键药效成分之一。从灵芝多糖的结构和构效关系、灵芝多糖的单糖组成,灵芝主要多糖IPS-1-1的基本合成途径,以及灵芝多糖的深层发酵调控策略和方法等方面,综述了灵芝多糖生物合成和发酵调控方面的新进展。并对今后的主要研究方向进行了展望。     

发酵法生产丁二酸的化学合成培养基的筛选

以产琥珀酸放线杆菌Actinobacillus succinogenes NJ113 为出发菌株,针对该菌株筛选出含有关键生长因子的化学合成培养基,其关键因子为谷氨酸（Glu）、蛋氨酸（Met）和生物素（VH）和烟酸（VPP）。结合原发酵培养基中的磷酸缓冲盐成分,最终得到的化学合成培养基配方（g/L）： CH3COONa 1.36,NaCl 1.0,MgCl2 0.2,CaCl2 0.2,Na2HPO4 0.31,NaH2PO4 1.6, KH2PO4 3,NH4HCO3 1.57,Glu 0.87,Met 0.11,VH 0.010,VPP 0.025。在3 L发酵罐上进行验证实验,50 g/L初始葡萄糖发酵70 h,丁二酸的质量浓度为45.2 g/L,丁二酸收率达到90.4%。与之前的半合成培养基发酵制备丁二酸相比,丁二酸的收率提高了25.2%,副产物也有很大幅度的减少。     

Screening of lipid high producing mutant from rhodotorula glutinis by low ion implantation and study on optimization of fermentation medium

In order to obtain lipid producing strain with high-yield, the wild type stain Rhodotorula glutinis was treated by low ion implantation, and optimization of fermentation medium for higher lipid yield was carried out using mutant strain. It was found that the strain had a higher positive mutation rate when the output power was 10 keV and the dose of N⁺ implantation was 80 × 2.6 × 10¹³ ions/cm². Then a high-yield mutant strain D30 was obtained through cid-heating coupling ultrasonic method and lipid yield was 3.10 g/L. Additionally, the surface response method was used to optimize fermentation medium. The three significant factors (glucose, peptone, KH₂PO₄) were optimized using response surface methodology (RSM), and the optimized parameters of fermentation medium were as follows: glucose 73.40 g/L, peptone 1.06 g/L and KH₂PO₄ 3.56 g/L. Finally the fermentation characteristic of high-yield mutation strain D30 was studied, when fermentation time was 10 days, which lipid yield increased to 7.81 g/L. Fatty acid composition of the lipid was determined by GC, and the most represented fatty acids of mutant D30 were C16:0 (11.4 %), C16:1 (5.66 %), C18:1 (49.3 %), and C18:2 (27.0 %).     

Effects of different graphene-based nanomaterials as elicitors on growth and ganoderic acid production by Ganoderma lucidum

Graphene-based nanomaterials (GBNs) have attracted considerable interest nowadays due to their wide range of applications. However, very little attention has been paid to the application of nanomaterials as potential elicitors for production of valuable metabolites. Herein, aiming to earn insight into effects of nanomaterials on secondary metabolite biosynthesis by medicinal fungi, we evaluated the influence of GBNs on growth and production of ganoderic acid (GA) by Ganoderma lucidum in submerged culture. Graphene oxide (GO), reduced graphene oxide (rGO), and rGO/Fe₃O₄ nanocomposite were synthesized successfully and characterized by X-ray diffraction, Fourier transform infrared spectroscopy, and scanning electron microscopy analysis. The prepared nanomaterials were added to the culture of G. lucidum at final concentrations of 50, 100, and 150 mg/L on Day 5. The results showed that the elicitation of G. lucidum with GO and rGO decreased the cell dry weight and GA production slightly, especially in higher concentrations. However, rGO/Fe₃O₄ nanocomposite not negatively affected cell growth and improved GA production. G. lucidum growth rate responded to elicitation experiments differently and depended on the type of nanomaterials and their concentrations, but almost all GBNs caused an increase in GA content (mg/100 mg dry weight). Also, field emission scanning electron microscopy morphological study showed that under elicitation, mycelia were more condensed and tightly stacked together. The findings from this study may suggest that GBNs in low concentrations could be applied as elicitors to secondary metabolites production from higher fungus, but further environmental, physiological, and biological studies required.     

Improvement of tylosin fermentation by mutation and medium optimization

A tylosin-hyperproducing mutant of Streptomyces fradiae MNU20 was isolated from 3500 strains obtained from either MNNG- or u.v.-treated S. fradiae NRRL2702. With the optimal medium, S. fradiae MNU20 was able to produce 159 mg tylosin g biomass(-1), indicating the tylosin productivity in S. fradiae NRLL2702 was increased 14-fold by mutation and medium optimization. When the effect of valine, succinate and natural zeolite on tylosin production was investigated sing the optimal medium, these substances essentially enhanced tylosin production up to 349 mg g biomass(-1); their time addition during the culture period appeared to be critical for the increase.     

灵芝悬浮培养中添加微颗粒Talc对灵芝酸产生的影响

灵芝酸是灵芝中重要的药理活性物质,其低产量限制了它的广泛应用和深入研究,高效提高液体发酵中灵芝酸的含量十分必要。以CGMCC 5.65为材料,在悬浮培养条件下,研究添加微颗粒Talc对灵芝酸产生的影响。结果表明,微颗粒Talc添加显著减小了灵芝细胞粒径,对照组为(3.33±0.16)mm,15g/L微颗粒Talc添加组为(2.04±0.12)mm。灵芝细胞中单体灵芝酸和总灵芝酸的含量在微颗粒Talc添加条件下也显著提高。15g/L微颗粒Talc添加组的总灵芝酸含量达到(1.51±0.02)mg/100mg细胞干重,GA-Mk、GA-T和GA-Me的含量最高为(6.02±0.29)、(5.08±0.14)和(1.71±0.09)μg/100mg细胞干重,分别是对照的1.6、4、1.9和1.4倍。另外,15g/L微颗粒Talc添加条件下鲨烯和羊毛甾醇的最大积累量分别为(3.69±0.23)和(34.86±6.41)μg/100mg细胞干重,是对照的2.6和4.2倍;灵芝酸生物合成途径关键基因fps和cyp-5150l8的表达量最高为对照的2.35和1.53倍。     

灵芝液态发酵高产胞外多糖菌株筛选及多糖特性分析

对10株灵芝菌株发酵菌丝体生物量、胞内多糖含量、胞外粗多糖得率及其多糖含量和单糖组成特征进行了系统分析。结果表明,随着培养时间的延长,10株菌株的生物量均有不同程度增加,但不同菌株胞内多糖含量和胞外粗多糖得率变化趋势有所不同。在培养至7d时,G0023和G0160菌株胞外粗多糖得率均较高,分别为3.02g/L和3.14g/L,其多糖含量分别达到了84.11%和91.03%,可作为发酵高产胞外多糖的优良菌株。分级醇沉胞外多糖分析结果表明,各菌株胞外液20%乙醇沉淀所得20E组分的得率和多糖含量均高于50%乙醇沉淀所得的50E组分,说明胞外液中主要以大分子量多糖为主。20E主要由葡萄糖组成,含有少量木糖和甘露糖;50E主要由葡萄糖和甘露糖组成,含有少量木糖和半乳糖。胞外液表观粘度随剪切速率变化曲线分析结果显示,各菌株胞外液均呈现剪切变稀非牛顿流体特性,其表观粘度大小与菌株对应20E组分的得率及多糖含量呈正相关。