不同碳源对小球藻Chlorella zofingiensis异养产虾青素的影响

研究了葡萄糖、蔗糖和果糖对小球藻(Chlorella zofingiensis)异养生长及产虾青素的影响,结果表明,在糖浓度为20g/L时,细胞生长较快,但干重较小,虾青素含量较低;在糖浓度为50g/L时,细胞生长较慢,但干重较大,虾青素含量较高。3种碳源中蔗糖和葡萄糖效果较好,在蔗糖浓度为50g/L时,虾青素含量和产量分别达到0.94 mg/g和9.61 mg/L。     

温度对雨生红球藻(Haematococcus pluvialis)生物量和虾青素产量的影响

在用环形培养池模拟系统培养雨生红球藻的过程中,研究了温度对雨生红球藻生物量及虾青素产量的影响。结果表明,在15～25℃的范围内,不同温度下雨生红球藻生物量和虾青素含量及产量都经历了一个上升—最高—下降的过程。25℃与22℃时红球藻的虾青素产量、虾青素含量(干重)均显著高于其他温度的(P<0.01),但两者间差异不显著(P>0.05)。15℃时,红球藻生物量、虾青素含量和虾青素产量均最低,分别为1.4g、0.54%和2.49mg/L;25℃时,红球藻生物量和虾青素产量最高,分别为2.68g和13.53mg/L;22℃时,虾青素含量最高,为1.52%。     

基于动力学模型的法夫酵母发酵生产虾青素的补料策略优化

对法夫酵母的不同补料发酵方式进行了研究.基于底物抑制模型,提出了一种优化的两阶段补料策略,用于法夫酵母产虾青素的高密度发酵.在发酵的延迟期和对数生长期早期,糖浓度控制在25 g/L左右,在此条件下,生物量可以达到最大,且时间缩短.在对数生长期后期及稳定期,糖浓度控制在5 g/L,虾青素的合成时间可以有效延长.与传统的补料方式相比,采用此补料策略取得了较好的发酵效果.发酵终点细胞干重达到23.8g/L,虾青素产量达到29.05 mg/L,分别比分批发酵提高了52.8%和109%.     

黄腐酸对雨生红球藻虾青素的积累和CHY基因表达量影响

实验以雨生红球藻Haematococcus pluvialis LUGU为对象,研究了不同浓度的黄腐酸对微藻细胞生长、虾青素积累以及β-胡萝卜素羟化酶(CHY)基因表达量的影响。结果表明,FA浓度为5 mg/L,藻细胞生物量产率达到了79.39 mg/(L·d),虾青素产量达到了20.82 mg/L,分别比对照组提高了4.25%和86.89%;FA浓度为10 mg/L,藻细胞的生物量产率和虾青素产量分别比对照组提高了5.44%和9.78%。RT-PCR分析显示,虾青素合成的关键基因CHY的表达受FA的诱导,当添加5和10 mg/L的黄腐酸时,CHY基因最大的表达量分别为对照的18.1倍和7.3倍,当添加20 mg/L的黄腐酸时CHY基因的最大的表达量仅为对照的3.2倍,FA诱导下的雨生红球藻虾青素的积累含量和CHY基因表达量呈正相关。实验表明,适当浓度的黄腐酸不仅能够显著提高虾青素合成关键酶基因CHY的表达水平,并且明显促进了藻细胞内虾青素的积累,因此黄腐酸可作为虾青素生产的一种有效诱导子。     

法夫酵母PLX-ll发酵纤维素酶水解物合成虾青素

法夫酵母（Phaffiarhodozyma)PLX朅ll菌株能够发酵纤维素酶水解物进行虾青素的生物合成。纤维素的酶解物主要为纤维二糖和葡萄糖,在另外添加适量其它营养物后可被法夫酵母发酵用于生长及合成虾青素。摇瓶试验结果表明,培养108h,法夫酵母的生物量可达2.3g／L,虾青素的产率达913.4g／g干细胞,虾青素体积产率为2.1mg／L。在2L罐的发酵试验中,法夫酵母的生物量可达3.23g／L（第96h）,虾青素的产率达581.4g／g干细胞,虾青素体积产率达1.88mg／L。     

法夫酵母PLX-All发酵纤维素酶水解物合成虾青素

法夫酵母（Phaffia rhodozyma)PLX-All菌株能够发酵纤维素酶水解物进行虾青素的生物合成。纤维素的酶解物主要为纤维二糖和葡萄糖,在另外添加适量其它营养物后可被法夫酵母发酵用于生长及合成虾青素。摇瓶试验结果表明,培养108h,法夫酵母的生物量可达2.3g／L,虾青素的产率达913.4g／g干细胞,虾青素体积产率为2.1mg／L。在2L罐的发酵试验中,法夫酵母的生物量可达3.23g／L（第96h）,虾青素的产率达581.4g／g干细胞,虾青素体积产率达1.88mg／L。     

法夫酵母PLX-All发酵纤维素酶水解物合成虾青素*

法夫酵母（Phaffia rhodozyma)PLX-All菌株能够发酵纤维素酶水解物进行虾青素的生物合成。纤维素的酶解物主要为纤维二糖和葡萄糖,在另外添加适量其它营养物后可被法夫酵母发酵用于生长及合成虾青素。摇瓶试验结果表明,培养108h,法夫酵母的生物量可达2.3g／L,虾青素的产率达913.4g／g干细胞,虾青素体积产率为2.1mg／L。在2L罐的发酵试验中,法夫酵母的生物量可达3.23g／L（第96h）,虾青素的产率达581.4g／g干细胞,虾青素体积产率达1.88mg／L。     

碳氮比和光强对小球藻合成虾青素的影响

本文研究了碳氮比和光强对小球藻Chlorella zofingiensis合成虾青素的影响。结果表明, 随着碳氮比的增加, 虾青素含量提高, 但是过高的碳氮比限制藻细胞的生长。当碳氮比为 133 时, 虾青素的产量最大, 达到 9.19 mg/L。高光诱导在高碳氮比基础上进一步提高虾青素的含量及产量。200 mmol/m2﹒s 光强在没有严重影响小球藻生长的同时, 明显提高虾青素含量, 最大虾青素产量达到 12.52 mg/L。文章对不同诱导条件下虾青素的合成机理以及利用异养自养相结合的方法提高虾青素产量的可能性进行了讨论。     

几种营养物质对烟草细胞生长和CoQ_(10)含量的影响

研究了蔗糖、KH2PO4、NH 4/NO3比对烟草细胞生长和CoQ10含量的影响,结果表明,当蔗糖浓度为30g/L时,CoQ10总量最高,此时细胞产量、CoQ10含量和总量分别为198g/L、4147μg/g(dwt)、8212μg/L。在上述蔗糖浓度下,当KH2PO4起始浓度为340mg/L、NH 4/NO-3为12时,细胞产量、CoQ10含量和总量分别最高,高于此比例时有利于CoQ10形成,但不利于细胞生长。     

雨生红球藻培养过程中色素动态变化与光合生理特性研究

以雨生红球藻Haematococcus pluvialis CG-06为实验材料,分析测定在正常培养周期内藻细胞主要色素的变化动态、光合生理特性,以及培养基中硝态氮的含量。结果表明,雨生红球藻在绿色细胞阶段的主要色素包括:叶绿素、叶黄素、β-胡萝卜素,培养至红色细胞阶段增加了角黄素、海胆酮、虾青素单酯及双酯等次生类胡萝卜素。硝态氮浓度在培养初期下降迅速,第3 d降至4.875 mg/L,下降了85.3%,至第7 d下降为0.169 mg/L。雨生红球藻培养至第7 d时,细胞中开始检测出虾青素,含量为0.159 mg/g,此时虾青素合成速度较快,至第11 d虾青素含量上升为1.68 mg/g,在虾青素合成初期β-胡萝卜素的含量下降。藻细胞的光合速率、呼吸速率和NPQ在培养前期比较稳定,第7 d细胞光合速率开始下降,而呼吸速率和NPQ则上升,在整个培养周期中,藻细胞的Fv/Fm变化不明显。     

Comparative analysis of astaxanthin and its esters in the mutant E1 of Haematococcus pluvialis and other green algae by HPLC with a C30 column

A gradient reversed-phase high-performance liquid chromatography (HPLC) method using a C30 col-umn was developed for the simultaneous determination of astaxanthin, astaxanthin monoesters and astaxanthin diesters in the green algae Chlorococcum sp., Chlorella zofingiensis, Haematococcus plu-vialis and the mutant E1, which was obtained from the mutagenesis of H. pluvialis by exposure to UV-irradiation and ethyl methanesulphonate (EMS) with subsequent screening using nicotine. The re-sults showed that the contents of total astaxanthins including free astaxanthin and astaxanthin esters ranged from 1.4 to 30.9 mg/g dry biomass in these green algae. The lower total astaxanthin levels (< 2 mg/g dry biomass) were detected in the green algae Chlorococcum sp. and C. zofingiensis. The higher total astaxanthin levels (>16 mg/g dry biomass) were found in the green alga H. pluvialis and its mutant E1. It is notable that the mutant E1 is found to have considerably higher amounts of total astaxanthin (30.9 mg/g) as compared to the wild strain of H. pluvialis (16.1 mg/g). This indicates that UV-irradiation and EMS compound mutagenesis with subsequent screening using nicotine is an effective method for breeding of a high-producing astaxanthin strain of H. pluvialis. In addition, the green alga C. zofingien-sis had a remarkably higher percentage of astaxanthin diesters (76.3% of total astaxanthins) and a re-markably lower percentage of astaxanthin monoesters (18.0% of total astaxanthins) in comparison with H. pluvialis (35.5% for diesters and 60.9% for monoesters), the mutant E1 (49.1% and 48.1%) and Chlorococcum sp. (18.0% and 58.6%).     

Lipid accumulation and growth of Chlorella zofingiensis in flat plate photobioreactors outdoors

Culturing microalgae using natural sunlight is an effective way to reduce the cost of microalgae-based biodiesel production. In order to evaluate the feasibility of culturing Chlorella zofingiensis outdoors for biodiesel production, effects of nitrogen limitation and initial cell concentration on growth and lipid accumulation of this alga were investigated in 60 L flat plate photobioreactors outdoors. The highest μmax and biomass productivity obtained was 0.994 day(-1) and 58.4 mg L(-1)day(-1), respectively. The lipid content was much higher (54.5% of dry weight) under nitrogen limiting condition than under nitrogen sufficient condition (27.3%). With the increasing initial cell concentrations, the lipid contents declined, while lipid concentrations and productivities increased. The highest lipid content, lipid concentration, and lipid productivity obtained was 54.5%, 536 mg L(-1) and 22.3 mg L(-1)day(-1), respectively. This study demonstrated that it was possible to culture C. zofingiensis under outdoor conditions for producing biodiesel feedstock.     

无机碳源对小球藻自养产油脂的影响

旨在研究小球藻利用无机碳自养产油脂,考察了3种无机碳源 (Na2CO3、NaHCO3和CO2) 及其初始浓度对小球藻产油特性的影响。结果表明,小球藻能利用Na2CO3、NaHCO3和CO2产油;经Na2CO3、NaHCO3和CO2培养10 d后,随着每种无机碳源浓度的增加,小球藻产量均先增加后减少。小球藻经3种无机碳源培养后,其培养液pH值上升。最适宜的Na2CO3和NaHCO3添加量均为40 mmol/L,其生物量分别达到0.52 g/L和0.67 g/L,产油量分别达到0.19 g/L和0.22 g/L。在3种无机碳源中,CO2是最佳无机碳源,当CO2浓度为6％时,小球藻生长最快,生物量达2.42 g/L,产油量最高达0.72 g/L;当CO2浓度过低时,无机碳供应不足,油脂产量低;当CO2浓度过高时,培养液pH偏低,小球藻油脂积累受到抑制。Na2CO3和NaHCO3较CO2更有利于小球藻积累不饱和脂肪酸。     

Modeling of Xanthophyllomyces dendrorhous growth on glucose and overflow metabolism in batch and fed-batch cultures for astaxanthin production

An astaxanthin-producing yeast Xanthophyllomyces dendrorhous ENM5 was cultivated in a liquid medium containing 50 g/L glucose as the major carbon source in stirred fermentors (1.5-L working volume) in fully aerobic conditions. Ethanol was produced during the exponential growth phase as a result of overflow metabolism or fermentative catabolism of glucose by yeast cells. After accumulating to a peak of 3.5 g/L, the ethanol was consumed by yeast cells as a carbon source when glucose in the culture was nearly exhausted. High initial glucose concentrations and ethanol accumulation in the culture had inhibitory effects on cell growth. Astaxanthin production was partially associated with cell growth. Based on these culture characteristics, we constructed a modified Monod kinetic model incorporating substrate (glucose) and product (ethanol) inhibition to describe the relationship of cell growth rate with glucose and ethanol concentrations. This kinetic model, coupled with the Luedeking-Piret equation for the astaxanthin production, gave satisfactory prediction of the biomass production, glucose consumption, ethanol formation and consumption, and astaxanthin production in batch cultures over 25-75 g/L glucose concentration ranges. The model was also applied to fed-batch cultures to predict the optimum feeding scheme (feeding glucose and corn steep liquor) for astaxanthin production, leading to a high volumetric yield (28.6 mg/L) and a high productivity (5.36 mg/L/day).     

Efficiency assessment of the one-step production of astaxanthin by the microalga Haematococcus pluvialis

Continuous cultivation of Haematococcus pluvialis under moderate nitrogen limitation represents a straightforward strategy, alternative to the classical two-stage approach, for astaxanthin production by this microalga. Performance of the one-step system has now been validated for more than 40 combinations of dilution rate, nitrate concentration in the feed medium, and incident irradiance, steady state conditions being achieved and maintained in all instances. Specific nitrate input and average irradiance were decisive parameters in determining astaxanthin content of the biomass, as well as productivity of the system. The growth rate of the continuous photoautotrophic cultures was a hyperbolic function of average irradiance. As long as specific nitrate input was above the threshold value of 2.7 mmol/g day, cells performed green and astaxanthin was present at basal levels only. Below the threshold value, under moderate nitrogen limitation conditions, astaxanthin accumulated to reach cellular levels of up to 1.1% of the dry biomass. Increasing irradiance resulted in enhancement of astaxanthin accumulation when nitrogen input was limiting, but never under nitrogen sufficiency. Mean daily productivity values of 20.8 +/- 2.8 mg astaxanthin/L day (1.9 +/- 0.3 g dry biomass/L day) were consistently achieved for a specific nitrate input of about 0.8 mmol/g day and an average irradiance range of 77-110 microE/m(2) s. Models relating growth rate and astaxanthin accumulation with both average irradiance and specific nitrate input fitted accurately experimental data. Simulations provided support to the contention of achieving efficient production of the carotenoid through convenient adjustment of the determining parameters, and yielded productivity estimates for the one-step system higher than 60 mg astaxanthin/L day. The demonstrated capabilities of this production system, as well as its product quality, made it a real alternative to the current two-stage system for the production of astaxanthin-rich biomass.     

Effect of light supply and carbon source on cell growth and cellular composition of a newly isolated microalga Chlorella vulgaris ESP‐31

Light supply is one of the most important factors affecting autotrophic growth of microalgae. This study investigated the effect of the type and light intensity of artificial light sources on the cell growth of an indigenous microalga Chlorella vulgaris ESP‐31 obtained from southern Taiwan. In addition, a dissolved inorganic carbon source (i.e. sodium bicarbonate) was used to improve the biomass production of strain ESP‐31. The results show that a new fluorescent light source (TL5) was effective in indoor cultivation of microalgae. Better overall productivity of 0.029 g dry cell weight/L‐d was obtained when using TL5 lamps as the light source with a light intensity of 9 W/m². A carbon source (sodium bicarbonate) concentration of 1000 mg/L was found to be optimal for the growth of strain ESP‐31 in terms of both biomass production and carbon source utilization. Under the optimal growth conditions, the resulting microalgal biomass consisted of 25–30% protein, 6–10% carbohydrate, and 30–40% lipid.     

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     

几种营养物质对烟草细胞生长和CoQ10含量的影响

研究了蔗糖、KH₂PO₄、NH₄NO₃比对烟草细胞生长和CoQ₁₀量的影响,结果表明,当蔗糖浓度为30g/L时,CoQ₁₀总量最高,此时细胞产量、CoQ₁₀含量和总量分别为19.8g/L、414.7μg/g(dwt)、8212μg/L。在上述蔗糖浓度下,当KH₂PO₄起始浓度为340mg/L、NH₄NO₃为12时,细胞产量、CoQ₁₀含量和总量分别最高,高于此比例时有利于CoQ₁₀形成 ,但不利于细胞生长。