Effects of culture conditions on the mycelial growth and bioactive metabolite production in submerged culture of Cordyceps militaris

The influence of initial pH value, various nitrogen sources, plant oils, and modes of propagation (shake-flask and static culture) on the production of biomass, exopolysaccharide (EPS), adenosine and, in particular, cordycepin, by Cordyceps militaris CCRC 32219 were investigated. Optimal conditions for mycelial growth, EPS and cordycepin production were observed at relatively low pH. Amongst organic sources, yeast extract (YE) was favorable for EPS and cordycepin production, while corn steep powder (CSP) was favorable for adenosine production. A lower C/N ratio was favorable for adenosine and cordycepin production; however, too low a C/N ratio led to diminished production. All plant oils tested stimulate mycelial growth and EPS production of C. militaris, but they did not show much effect on the adenosine and cordycepin production. A two-stage fermentation process by combining shake-flask fermentation with static culture significantly enhanced cordycepin production. A Box–Behnken experimental design was employed to optimize the production of cordycepin, which showed that the optimum conditions to produce cordycepin by C. militaris CCRC 32219 were at pH 6, YE concentration of 45 g/l and 8.0 day of the shake culture followed by 16 days of the static culture. Under the optimized conditions, the maximum production (2214.5 mg/l) of cordycepin was obtained, which is much higher than those reported up to date.     

Improved cordycepin production in a liquid surface culture of <Emphasis Type="Italic">Cordyceps militaris</Emphasis> isolated from wild strain

A Cordyceps militaris NBRC 10352-3 strain that was isolated from C. militaris NBRC10352 produced 68 mg of cordycepin from 100 mL of medium, which was the highest level of cordycepin among 60 isolates from three C. militaris (NBRC 9787, 100741 and 103752) strains. Interestingly, a liquid surface culture of C. militaris NBRC 103752-3 produced 2-fold cordycepin to that in a submerged culture. Cordycepin production was significantly affected by specific surface area (SSA) in the liquid surface culture, and 120.9 mg of cordycepin was produced on SSA of 1.57/cm (from 50 mL medium). The addition of glycine and adenine as an additive to its culture medium was optimized by an experimental design. When 6.75 g/L of adenine was added to the culture, 312.2 mg of cordycepin (apparent concentration: 6.2 g/L) was produced from 50 mL medium, improving the cordycepin production by 4.6-fold. In this study, the production and productivity of cordycepin were significantly improved in C. militaris wild type by a single cell colony isolation and additives without adopting any mutational technologies. This C. militaris NBRC 10352-3 strain can be used as a new cordycepin-hyperproducing one, instead of a cordycepin-hyperproducing mutant.     

蛹虫草表型多态性对子实体产生及虫草菌素的影响

为选育高产子实体和虫草菌素的蛹虫草菌株,从野生蛹虫草中分离单孢子并进行分型,之后进行产子实体实验;同时对蛹虫草子实体进行了产孢结构的观察,并用高效液相色谱仪检测了子实体和培养基中的虫草菌素。结果表明,菌落背面颜色为橙铬色的菌株容易产生子实体;出发(原代)菌株所产子实体在形态上更接近野生蛹虫草,而角变株的子实体畸形;出发菌株产子实体能力要比该菌株未发生角变部分分离株和角变部分分离株都强。在虫草菌素的产量上也以出发菌株为高,表明表型多态性对蛹虫草产子实体和虫草菌素有很大的影响。这对于优势菌种的筛选和生产实践有借鉴意义。     

Efficient production of cordycepin by the Cordyceps militaris mutant G81-3 for practical use

Cordycepin is one of the most versatile metabolites of Cordyceps militaris. When C. militaris G81-3, the mutant obtained by a proton beam irradiation, was cultivated by liquid surface culture, cordycepin was found to crystallize in the medium due to high cordycepin concentration. Because the cordycepin crystals strongly attached to the mycelial mat, complete recovery of cordycepin was difficult. To prevent cordycepin crystallization, increase of the initial medium volume was examined to decrease the condensation rate by vaporization, in combination with decrease of the initial substrate level. Besides, addition of the water to the culture bottle was examined to cancel out the medium condensation. A 7.4 g/L of cordycepin was obtained without crystallization by the former method. The upper limit of cordycepin production, 14.3 g/L, was obtained by the latter method and this value was the highest level of all the previous reports. A 2.5-fold scale-up of the culture slightly declined the production rate, however, the amount of cordycepin production was properly 2.5 times higher than that of the small scale. In addition, differences in sensitivities to the substrates between the mutant and the wild-type strain are discussed.     

生物磁效应对蛹虫草活性物质含量的影响

利用场强为0.1、0.25、0.4T恒定磁场,以流速为1 m·s^-1,分别对普通水进行9次处理,串联（SC）磁场处理3次的磁处理水,进而用于栽培蛹虫草,并研究了生物磁效应对蛹虫草虫草素、虫草酸、多糖含量及生物学转化效率的影响。结果表明,0.4T处理有利于蛹虫草虫草酸含量及生物学效率的提高,相比对照组分别提高了7.29%和15.37%;0.25T处理组有利于虫草素的积累,比对照组提高了11.31%;0.1T处理有利于多糖的积累,相比对照组提高了14.80%。方差分析表明,经不同场强处理的磁化水对蛹虫草子实体生长和活性物的代谢影响差异显著。但磁处理水对于不同物质含量的影响规律存在一定的差异性。     

Effects of Na2SeO3 on growth,metabolism, antioxidase and enzymes involved in polysaccharide synthesis of Cordyceps militaris

The main objective of our study was to illuminate effects of sodium selenite (Na₂SeO₃) on growth, metabolism and enzyme activities of Cordyceps militaris. By adding Na₂SeO₃ in fermentation medium (7 mg/L), it was found that mycelium of C. militaris was stronger with more plump spores and its biomass was higher accompanied by the maximum (13.19 g/L) at 6 d of culture. Besides, Na₂SeO₃ also caused the enhancement of total thiol (T-SH), non-protein thiol (NP-SH) contents and the biosynthesis of Se-polysaccharide (Se-CMP) with discriminatory molecular weight, optical rotation, UV–vis and FT-IR spectra. Activities of antioxidase including catalase (CAT), superoxide dismutase (SOD), glutathione peroxidase (GSH-PX) and enzymes involved in polysaccharide synthesis including phosphoglucomutase (PGM), phosphoglucose isomerase (PGI), UDPG-pyrophosphorylase (UGP) enhanced to different extent. Their corresponding genes were also up-regulated but cat gene (encoding CAT). Se-enrichment of C. militaris provided a good way for desirable biomass and polysaccharide biosynthesis in further research.     

Intracellular metabolism analysis of Clostridium cellulovorans via modeling integrating proteomics,metabolomics and fermentation

A consolidated bioprocess for cellulosic n-butanol production has been developed by engineering Clostridium cellulovorans to overexpress a bifunctional aldehyde/alcohol dehydrogenase. Rational metabolic engineering is important to further improve butanol production. This study aimed to investigate intracellular metabolism and identify the key regulators of cellulosic butanol formation in C. cellulovorans via integrated Omics and fermentation kinetics data analysis. First, comparative proteomics and metabolomics analyses of wild type and n-butanol producing mutant strain were conducted, which quantified 624 host cell proteins and 474 primary and secondary metabolites. Compared to wild type, most cellulases in cellulolysis were up-regulated, but three glycolysis enzymes and three enzymes in central pathway were down-regulated in the n-butanol producing strain. Second, a dynamic model integrating Omics and fermentation data was developed to identify key regulators in butanol biosynthesis, which were ranked by further metabolic control analysis. Finally, rational metabolic engineering was performed in C. cellulovorans by overexpressing two genes (thl and hbd) identified as important factors limiting butanol biosynthesis, which improved butanol yield and C4/C2 ratio. This study demonstrated a research approach to integrate multi-Omics and fermentation data of C. cellulovorans and guide its rational metabolic engineering, which can also be applied to other microorganisms.     

A new approach for improving cordycepin productivity in surface liquid culture of Cordyceps militaris using high‐energy ion beam irradiation

Aims: To obtain a higher cordycepin production using Cordyceps militaris mutant obtained by a new mutagenesis technique called ‘ion beam’. Methods and Results: Successful irradiation of C. militaris NBRC 9787 by a proton beam with high energy was performed, and 30 classes of 8‐azaadenine‐ and 28 classes of 8‐azaaguanine‐resistant mutants were obtained on mutant screening, of which seven classes were selected as promising preliminary mutants having an antibacterial ability as an index of cordycepin production. In a surface liquid culture technique, some of the 8‐azaadenine‐resistant mutants gave a better performance for the cordycepin productivity; in contrast, among the 8‐azaaguanine‐resistant mutants, it was shown that mutant no. G81‐3 was much better than the control in the metabolic rate of glucose and the cordycepin productivity. In primary optimization using the enriched medium, the cordycepin production was 3·1 and 1·8 g l^?1 on 21‐day culture for mutant no. G81‐3 and the control, respectively. The cordycepin production obtained by the mutant was 72% more than the control. Conclusions: The mutant obtained by proton beam irradiation had higher productivity of cordycepin than that of the control. Significance and Impact of the Study: The mutant obtained by irradiation had a superior production performance of cordycepin, and therefore, it could be used in the realm of applied industrial biotechnology for the large‐scale production of cordycepin.     

Paecilomyces tenuipes extracts affect lipid and glucose metabolic parameters similarly to Cordyceps militaris extracts

Ascocarps of some species of the genus Cordyceps have long been used as a traditional medicine and food source for promoting human health. The compound cordycepin, isolated from C. militaris ascocarps (CE), show similar health effects to CE. In this study, we investigated and compared the anti-obesity and antidiabetic effects of dietary CE and Paecilomyces tenuipes ascocarps (PE) in mice. In addition, we investigated their effects on the expression of genes related to the regulation of obesity and diabetes. We found that dietary CE and PE suppressed body weight gain and fat accumulation in the liver and adipocyte tissues of mice fed a high-fat diet (HFD). Enzyme and lipid profiles induced by HFD returned to normal with CE or PE treatment. Dietary CE or PE reduced fasting blood glucose and serum insulin levels in HFD-fed mice. Finally, we show that CE and PE treatment restored to normal the hyperlipidemia- and hyperglycemia-related gene expressions in HFD-fed mice. These results indicate that dietary CE or PE exert their anti-obesity and antidiabetic effects by regulating adipogenesis and insulin signaling pathways. Finally, we show that dietary CE or PE have similar anti-obesity and antidiabetic effects even when included in a normal mouse diet. Although cordycepin is not found in PE, PE treatment improves lipid and glucose metabolic parameters in a manner similar to CE. We find that PE provides alternative potential therapeutic treatments for obesity and diabetes.     

Kinetic and Nuclear Magnetic Resonance Studies of Xylose Metabolism by Recombinant Zymomonas mobilis ZM4(pZB5)

The specific rates of growth, substrate utilization, and ethanol production as well as yields of biomass and ethanol production on xylose for the recombinant Zymomonas mobilis ZM4(pZB5) were shown to be much less than those on glucose or glucose-xylose mixtures. Typical fermentations with ZM4(pZB5) growing on glucose-xylose mixtures followed two-phase growth kinetics with the initial uptakes of glucose and xylose being followed by slower growth and metabolic uncoupling on xylose after glucose depletion. The reductions in rates and yields from xylose metabolism were considered in the present investigation and may be due to a number of factors, including the following: (i) the increased metabolic burden from maintenance of plasmid-related functions, (ii) the production of by-products identified as xylitol, acetate, lactate, acetoin, and dihydroxyacetone by ¹³C-nuclear magnetic resonance (NMR) spectroscopy and high-performance liquid chromatography, (iii) growth inhibition due to xylitol by the putative inhibitory compound xylitol phosphate, and (iv) the less energized state of ZM4(pZB5). In vivo ³¹P-NMR studies have established that the levels of NTP and UDP sugars on xylose were less than those on glucose, and this energy limitation is likely to restrict the growth of the recombinant strain on xylose media.     

蛹虫草磷酸甲羟戊酸激酶和焦磷酸甲羟戊酸脱羧酶基因的功能分析

【目的】确定蛹虫草甲羟戊酸途径中的2个关键酶——磷酸甲羟戊酸激酶(CmErg8)和焦磷酸甲羟戊酸脱羧酶(CmErg19)的功能及其对麦角甾醇和虫草素含量的影响。【方法】通过生物信息学分析鉴定蛹虫草中CmErg8和CmErg19,并采用酵母互补确定其功能是否保守;以蛹虫草尿嘧啶营养缺陷型CmΔpyrG为背景菌株,利用农杆菌介导的转化方法对CmErg8和CmErg19进行过表达,观察其对麦角甾醇和虫草素含量的影响。【结果】CmErg8和CmErg19不能互补酵母erg8和erg19突变体的温度敏感表型;CmErg8和CmErg19过表达菌株中麦角甾醇和虫草素含量均有所增加,特别是CmErg19基因过表达可以使虫草素含量提升5倍左右。【结论】本研究揭示了蛹虫草CmErg8和CmErg19的功能,并且发现蛹虫草麦角甾醇合成通路基因可能会影响虫草素含量。     

蛹虫草饲料添加剂的研究现状及展望

蛹虫草饲料添加剂包括蛹虫草子实体、蛹虫草培养残基、蛹虫草及其培养残基提取物、蛹虫草菌固液发酵产物、微生物发酵蛹虫草残基等产品.蛹虫草饲料添加剂含有粗蛋白、粗脂肪、氨基酸等营养成分,以及虫草素、腺苷、多糖等活性成分,在畜禽、反刍动物、水产品等动物养殖中的应用均获得较好的效果.对蛹虫草子实体、蛹虫草培养残基、蛹虫草及其培养...     

Optimization of culture medium for cordycepin production using Cordyceps militaris mutant obtained by ion beam irradiation

The effect of medium components on cordycepin production by Cordyceps militaris mutant obtained by ion beam irradiation was investigated. According to the response surface analysis using a central composite design for the prospective mutant G81-3, the predicted optimal concentrations of glucose as the carbon source and the yeast extract as the nitrogen source were 86.2 g/l and 93.8 g/l, respectively, and 6.84 g/l cordycepin was obtained. To date, this is the highest value for cordycepin production. The optimal concentrations of glucose and yeast extract for cordycepin production of the mutant was much higher than that of control (wild strain) and the cordycepin production was 2.79 times higher. Therefore, this new mutant will be a promising strain for future higher cordycepin production at industrial levels.