法夫酵母生产虾青素发酵条件的研究

方法：分别进行了接种时间、摇床转速、接种量和装液量对法夫酵母细胞生产虾青素摇瓶发酵过程影响的实验,比较了DMSO法、酸热法、碱法和自溶法等破壁方法和提取溶剂之间的差别,测定了法夫酵母生长过程中的生物量、类胡萝卜素产量和培养基中的残糖。结果：确定了最佳的摇瓶发酵条件为：种瓶至发酵摇瓶的接种时间为40h,摇床转速为160r/min,接种量为10%,装液量为50mL;DMSO法和丙酮分别为合适的破壁方法和提取溶剂。结论：初步确定发酵的基本条件,为进行法夫酵母高产虾青素菌种的筛选以及发酵培养基的优化奠定了基础。     

法夫红酵母高产虾青素菌株的研究概况

虾青素是一种天然类胡萝卜素,具有较强的抗氧化作用。法夫红酵母是一种能合成虾青素的真菌。本文主要概述法夫红酵母高产虾青素菌株的育种、高产株选择、培养条件和虾青素的提取检测方法     

法夫红酵母主同产虾青素菌株的研究概况

虾青素是一种天然类胡萝卜素,具有较强的抗氧化作用。法夫红酵母是一种能合成虾青素的真菌。本文主要概述法夫红酵母高产虾青素菌株的育种、高产株选择、培养条件和虾青素的提取检测方法。     

胶红酵母虾青素纯品提取及分离纯化方法优化

以胶红酵母ZTHY2作为提取虾青素的出发菌株,通过对其破壁方法、浸提溶剂、皂化方法及提取条件的优化,筛选出胶红酵母虾青素纯品的提取方法。用酸热法、冻融超声波裂解法与二甲基亚砜无水乙醇法等法处理干菌体细胞,用KOH结合甲醇A、甲醇B与乙醇法分别对虾青素粗提液进行皂化处理,分别使用六种展开剂,通过薄层层析鉴定游离的虾青素,用200~300目硅胶对游离的虾青素进行柱层析,获得其纯品,最后用高效液相色谱仪测定虾青素纯品的含量。实验结果表明:胶红酵母ZTHY2干菌体细胞的最佳破壁方法是酸热法,浸提溶剂为乙酸乙酯+乙醇(2∶1)溶液,皂化液为20 g/L KOH的乙醇溶液,皂化条件是40℃、30 min;最佳展开剂和淋洗剂是正己烷+丙酮(5∶2)溶液;高效液相色谱仪测定的游离虾青素比率为35%,提取率为96. 8%。     

一株法夫酵母虾青素高产菌株的生产性能

为了评价虾青素高产菌株-法夫酵母JMU-MVP14的生产性能及建立虾青素高产发酵技术,通过测定糖、生物量、虾青素产量、总类胡萝卜素产量等发酵参数,用摇瓶试验对比了法夫酵母JMU-MVP14和出发菌株的差异,用7 L罐试验对比了pH值调控方式及补料培养基成分对发酵的影响,用1 m3罐试验评估了法夫酵母JMU-MVP14高密度发酵虾青素的产量水平。摇瓶发酵结果表明,法夫酵母JMU-MVP14虾青素及总类胡萝卜素的细胞产率分别达到6.01 mg/g及10.38 mg/g;7 L罐分批发酵试验结果表明,自动流加调     

红酵母RY-4中虾青素的分离纯化研究

本文主要研究了红酵母RY-4菌株中天然虾青素的提取和纯化工艺。通过各种破壁提取方法的比较分析,得出了酸热法破壁丙酮提取为较经济理想的粗色素提取方法,提取的粗色素油中虾青素含量达51.7%。通过对各种柱层析条件的摸索研究,得出了以硅胶为吸附剂,Ⅴ(石油醚)∶Ⅴ(乙酸乙酯)混和液为洗脱剂梯度洗脱从粗色素油中分离纯化虾青素的方法,所得虾青素纯度达到97%。     

补料工艺对两株法夫酵母菌株产虾青素的影响

【目的】考察不同补料工艺对法夫酵母菌株生长和虾青素合成的影响。【方法】对法夫酵母JMU-VDL668和JMU-MVP14菌株在7 L罐中进行分批及分批补料培养; 同时, 测定发酵过程中生物量、虾青素和葡萄糖含量的变化。【结果】采用恒DO补料, 法夫酵母JMU-VDL668菌株获得的生物量最大(64.6 g/L), 是分批培养的2.2倍; 采用恒pH补料发酵, 虾青素的产量最高(20.6 mg/L), 是分批培养的1.5倍。与JMU-VDL668菌株不同, 虾青素高产菌株JMU-MVP14菌株采用恒pH补料, 获得生物量最大(48.5 g/L), 但虾青素产量大大降低(仅17.5 mg/L); 采用脉冲补料, 虾青素产量最高, 达到414.1 mg/L, 与分批发酵相比提高了200.2%; 采用恒DO补料, 生物量(38.5 g/L)和虾青素产量(403.2?mg/L)增加显著, 与分批发酵相比分别提高了133.1%和192.3%。【结论】不同补料工艺对法夫酵母菌株生产虾青素影响很大。其中, 采用恒pH补料工艺, 法夫酵母JMU-VDL668菌株可以获得最高的虾青素产量, 而采用脉冲补料工艺, 最适于法夫酵母JMU-MVP14菌株发酵生产虾青素。     

利用亚硝酸钠选育法夫酵母虾青素高产菌株

以亚硝酸钠作为筛选剂选择性分离法夫酵母虾青素高产菌株。实验研究表明,在亚硝酸钠存在的情况下,法夫酵母的生长和虾青素合成量均会减少;当亚硝酸钠浓度为5000μmol/L时,法夫酵母的致死率为100%。挑取200株经过甲基磺酸乙酯（EMS）诱变后的法夫酵母,以5000μmol/L的亚硝酸钠为筛选剂摇瓶发酵后测得虾青素体积产率为正突变的菌株有87株,正突变率为43.5%。挑取其中8株进行复筛,编号为N030的菌株比出发菌株的虾青素体积产率和细胞产率分别提高了39.3%和89.3%。结果说明,亚硝酸钠可作为法夫酵母虾青素高产菌株的筛选剂,用于提高菌种的筛选效率。     

烷化剂NTG诱变虾青素产生菌红法夫酵母的研究

虾青素是一种很有效的生物抗氧化剂和某些生物的天然着色剂,应用前景广阔。红法夫酵母是 生产虾青素的一个来源,优点颇多。天然菌株虾青素产量较少,缺少实用价值。实验采用烷化剂ＮＴＧ 诱变红法夫酵母,筛选出类胡萝卜素产量高的诱变株。用薄层层析对红法夫酵母产生的色素及其皂 化产物进行分析,并对各个成分的扫描光谱进行了比较。认为红法夫酵母产生的类胡萝卜素成分主 要是虾青素及虾青素二酯,还有一部分β－胡萝卜素。同时,还对虾青素产生的时相和ＢＨＴ对虾青素 光分解的保护作用进行了初步研究。     

法夫酵母虾青素合成途径相关基因的研究进展

法夫酵母能合成一种具有很高商业价值的类胡萝卜素——虾青素。它广泛应用于饲料、保健品、医药、化妆品等行业。探索法夫酵母中虾青素合成途径及其调控机理对天然虾青素资源的开发具有重要的意义。虽然许多学者通过各种方法对该途径进行了一系列的研究, 但其机理目前尚未完全阐明。本文综述了法夫酵母虾青素合成途径以及合成途径中相关基因的研究进展, 并对基于基因调控的产量提高策略进行了讨论, 为利用基因工程技术进行定向育种提供了思路。     

An improved process for cell disruption and astaxanthin extraction from Phaffia rhodozyma

Phaffia rhodozyma is one of the most important natural sources of the carotenoid astaxanthin, and the key process for extracting intracellular astaxanthin is disrption of the thick cell wall. In this work, an improved process for cell disruption and astaxanthin extraction from Phaffica rhodozyma was studied using an autoclave at low acid concentration. Under the optimum conditions (HCl 0.5 M and autoclave pressure 0.1 Mpa, 15 min), the relative residual astaxanthin and astaxanthin extractability reached 90.4 ± 3.5% and 84.8 ± 3.2%, respectively. The scanning electron microscopy pictures showed that all yeast cells shattered into fragments after autoclave treatment at low acid concentration condition, whereas cells were intact or partly broken after treatment by some other physical and chemical processes. This new method left no residual toxin and gavehigher extraction recovery, with good prospects for industrial use.     

Influence of mixed culture conditions on yeast-wall hydrolytic activity of Bacillus circulans WL-12 and on extractability of astaxanthin from the yeast Phaffia rhodozyma

O kagbue , R.N. & L ewis , M.J. 1985. Influence of mixed culture conditions on yeast-wall hydrolytic activity of Bacillus circulans WL-12 and on extractability of astaxanthin from the yeast Phaffia rhodozyma. Journal of Applied Bacteriology 59 , 243–255.
In mixed culture Bacillus circulans WL-12 hydrolysed cell walls of Phaffia rhodozyma and rendered astaxanthin extractable from the yeast. pH control was critical to survival and lytic activity of the bacillus; the optimum range was 6.2–6.8. The optimum range of temperature was 20–24C. Glucose (1–2%) was efficient in minimizing catabolite repression of the lytic enzyme complex of the bacillus. Slow-feeding of glucose improved ultimate yields of lytic enzyme but did not acclerate yeast cell wall modification. A relatively high inoculum level of B. circulans accelerated modification of P. rhodozyma in the mixed culture: when the bacterial inoculum was four times that of the yeast, over 80% of total astaxanthin was extractable in 48 h. High bacterial inoculum size also stimulated yeast autolysis and necessitated early harvest of the mixed culture. Results obtained in shake flasks were duplicated in 5-litre fermentors and suggest that the mixed culture has potential industrial value for producing a biomass containing biologically-available astaxanthin. Extractability of astaxanthin was also achieved when mixed culture filtrate was incubated with pure cultured Phaffia cells. When suitably fortified with nutrients, the filtrate also supported simultaneous yeast growth and modification of the yeast cell walls. A scheme incorporating mixed culture with B. circulans WL-12 and re-use of culture filtrate has been proposed for enzymatic processing of Phaffia rhodozyma for inclusion in animal diets.     

Optimization of astaxanthin production by Phaffia rhodozyma through factorial design and response surface methodology.

Sequential methodology based on the application of three types of experimental designs was used to optimize the astaxanthin production of the mutant strain 25-2 of Phaffia rhodozyma in shake flask cultures. The first design employed was a factorial design 2(5), where the factors studied were: pH, temperature, percent of inoculum, carbon and nitrogen concentrations, each one at two levels. This design was performed in two medium types: rich YM medium and minimal medium, based on date juice (Yucca medium). With this first design the most important factors were determined (carbon concentration and temperature) that were used in the second experimental strategy: the method of steepest ascent was applied in order to rapidly approach the optimum. Finally, a second-order response surface design was applied using temperature and carbon concentration as factors. The optimal conditions stimulating the highest astaxanthin production were: 19.7 degrees C temperature; 11.25 g l(-1) carbon concentration; 6.0 pH; 5% inoculum and 0.5 g l(-1) nitrogen concentration. Under these conditions the astaxanthin production was 8100 microg l(-1), 92% higher than the production under the initial conditions.     

Influence of Oxygen and Glucose on Primary Metabolism and Astaxanthin Production by Phaffia rhodozyma in Batch and Fed-Batch Cultures: Kinetic and Stoichiometric Analysis

The influence of the oxygen and glucose supply on primary metabolism (fermentation, respiration, and anabolism) and astaxanthin production in the yeast Phaffia rhodozyma was investigated. When P. rhodozyma grew under fermentative conditions with limited oxygen or high concentrations of glucose, the astaxanthin production rate decreased remarkably. On the other hand, when the yeast grew under aerobic conditions, the astaxanthin production rate increased with increasing oxygen uptake. A kinetic analysis showed that the respiration rate correlated positively with the astaxanthin production rate, whereas there was a negative correlation with the ethanol production rate. The influence of glucose concentration at a fixed nitrogen concentration with a high level of oxygen was then investigated. The results showed that astaxanthin production was enhanced by an initial high carbon/nitrogen ratio (C/N ratio) present in the medium, but cell growth was inhibited by a high glucose concentration. A stoichiometric analysis suggested that astaxanthin production was enhanced by decreasing the amount of NADPH required for anabolism, which could be achieved by the repression of protein biosynthesis with a high C/N ratio. Based on these results, we performed a two-stage fed-batch culture, in which cell growth was enhanced by a low C/N ratio in the first stage and astaxanthin production was enhanced by a high C/N ratio in the second stage. In this culture system, the highest astaxanthin production, 16.0 mg per liter, was obtained.     

装液量和接种量对红发夫酵母生长和虾青素积累的影响

在摇瓶中研究了不同接种量和装液量对红发夫酵母PhaffiarhodozymaAs2 .15 5 7生长及虾青素积累的影响。结果表明在 5 0 0ml摇瓶中装液量为 5 0ml时对红发夫酵母生长及虾青素合成有利 ,接种量为 10 %有利于菌体生长和虾青素合成。     

法夫酵母分批发酵虾青素动力学研究

通过三联30L全自动发酵罐对虾青素产生菌法夫酵母的分批发酵动力学进行了研究,结果表明,法夫酵母的生长与限制性基质葡萄糖浓度之间符合Logistic方程,建立了细胞生长、产物合成和基质消耗随时间变化的数学模型。应用MATLAB软件对发酵动力学模型进行最优参数估计和非线性拟和,获得最大比生长速率（umax）和产物得率（Yp/x）分别为0.1829/h、0.1524g/g,虾青素分批发酵中细胞生长与产物合成属于偶联型,模型模拟计算结果和实验值能较好地吻合,动力学研究结果表明该模型能较好地反映细胞的生长、底物消耗和产物合成过程机制。     

乳酸钠促进法夫酵母虾青素合成代谢流作用分析

【目的】研究乳酸钠(一种糖代谢产物)的加入对法夫酵母JMU-VDL668发酵过程中细胞生长和虾青素合成的影响。【方法】分别在摇瓶和7 L发酵罐实验基础上,采用代谢通量分析的方法分析添加乳酸钠对法夫酵母菌株JMU-VDL668合成虾青素代谢流的影响。【结果】在7 L发酵罐实验中添加乳酸钠,虾青素产量最高可达17.70 mg/L,与对照组相比提高26%。代谢通量分析表明,乳酸钠可以调节丙酮酸、乙酰辅酶A节点处的代谢通量分布,乳酸在乳酸脱氢酶的作用下可以直接进入代谢网络的后半程,乙酰辅酶A的通量和进入TCA循环的通量得到了显著加强。【结论】乳酸钠的加入提供了更多的乙酰辅酶A等前体物质和能量供给,因此促进了虾青素的合成。