糠醛对粘红酵母生长与油脂积累的影响

为了探究纤维素水解液中常见的发酵抑制物糠醛对粘红酵母Rhodotorula glutinis生长与油脂积累的影响,对比了不同的糠醛浓度(0.1、0.4、0.6、1.5 g/L)下粘红酵母的生物量和油脂积累情况,并探究了1.0 g/L的糠醛对粘红酵母不同碳源(葡萄糖和木糖)利用的影响。研究表明,当糠醛浓度达1.5 g/L时,粘红酵母的延迟期延长至96 h,残糖高达17.7 g/L,生物量最高6.6 g/L,仅为正常积累量的47%,油脂含量也减少了约50%;以木糖为碳源时,糠醛对粘红酵母的抑制程度小于葡萄糖为碳源时的情况;在糠醛存在的逆境中,粘红酵母倾向于生成更多的18碳脂肪酸或18碳不饱和脂肪酸。     

粘红酵母和酿酒酵母联合处理味精废水

为了解决味精废水中高NH4+浓度抑制油脂微生物的生长和油脂积累问题,采用粘红酵母和酿酒酵母联合处理味精废水的方法:首先利用酿酒酵母降解味精废水(MSG)中NH4+,然后将处理后的废水进一步发酵培养合成油脂。研究结果表明:用经酿酒酵母预处理过的味精废水作为粘红酵母的培养基发酵时,粘红酵母的生物量为33.3 g/L,油脂产率为18.16%,COD降解率为50.6%,NH4+的降解率为93.9%。比粘红酵母单独处理味精废水,NH4+的降解率提高了6.14倍,生物量、油脂产率和COD降解率分别提高了8.1%、30.06%和9.58%。     

酵母微生物油脂的生物合成研究

摘要：目的 微生物油脂可作为制备绿色能源生物柴油的原料。对酵母微生物油脂的生物合成方法进行研究。方法 以斯达油脂酵母Lipomyces starkeyi AS 2.1560为菌种进行微生物油脂生物合成。首先获得大量细胞,将细胞收集后,转移至葡萄糖溶液中进行油脂合成。结果 斯达油脂酵母可在不含有其他营养成分的葡萄糖溶液中快速合成油脂,细胞油脂含量可达到细胞干重的60%以上。菌龄对油脂生成影响不明显,糖浓度过高抑制油脂生成,40 g/L葡萄糖溶液中60 h合成油脂最多,达到65.2%,并有进一步积累的可能,在（0.5～6）×108个/mL,接种细胞的密度越大,油脂合成能力越低。合成油脂成分主要为棕榈酸和油酸。结论 斯达油脂酵母细胞增殖与油脂生物合成可分开进行,其油脂成分与普通动植物油脂成分相似。     

油脂酵母发酵木糖生产微生物油脂

目的用斯达油脂酵母(Lipomyces starkeyi)作为发酵菌株,以纯木糖溶液为油脂发酵原料,对L.starkeyi利用木糖积累油脂进行系统研究。方法 L.starkeyi于斜面培养基中活化后,接种于YPD液体培养基,于30℃、200 r/min摇床培养。在摇瓶中培养一段时间后,测定发酵液细胞浓度,离心发酵液收集细胞。将离心后得到的菌体加入木糖溶液重悬,并转接于含50 mL木糖溶液的250 mL摇瓶中进行发酵生产。结果相比一阶段法,两阶段发酵方法可以在更短的时间内达到较高的油脂含量,油脂含量能够达到细胞自身干重的60%以上。实验发现高菌龄酵母产油速度更快;并且初始木糖浓度高达120 g/L时,酵母细胞仍然能够高效合成油脂。结论 L.starkeyi能够有效利用木糖进行发酵产生油脂,是以木质纤维素为原料生产微生物油脂的优良菌种。     

利用木糖-葡萄糖为原料产乙醇酵母的筛选、鉴定及发酵试验

建立筛选利用木糖为碳源产乙醇酵母模型,获得一株适合利用木质纤维素为原料产乙醇的酵母菌株。样品经麦芽汁培养基培养后,以木糖为唯一碳源的筛选培养基初筛,再以重铬酸钾显色法复筛。通过生理生化和26D1/D2区对筛选得到的菌株进行分析和鉴定,该菌初步鉴定为Pichia caribbica。经过筛选得到的菌株Y2-3以木糖（40g/L）为唯一碳源发酵时：生物量为23.5g/L,木糖利用率为94.7 %,乙醇终产量为4.57 g/L;以混合糖（葡萄糖40 g/L,木糖20 g/L）发酵时：生物量为28.6 g/L,木糖利用率为94.2 %,葡萄糖利用率为95.6%,乙醇终产量为20.6 g/L。Pichia caribbica是可以转化木糖及木糖-葡萄糖混合糖为乙醇的酵母菌株,为利用木质纤维素发酵乙醇的进一步研究奠定了基础。     

木质纤维素水解液副产物对东方伊萨酵母乙醇发酵的影响

为了客观评判耐高温东方伊萨酵母HN-1利用木质纤维素水解液生产燃料乙醇的潜力,本文采用单因素试验和响应面中心组合试验研究了木质纤维素水解液有毒副产物甲酸钠(1.0-5.0 g/L)、乙酸钠(2.5-8.0 g/L)、糠醛(0.2-2.0 g/L)、5-羟甲基糠醛(0.1-1.0 g/L)和香草醛(0.5-2.0 g/L)对其乙醇发酵的影响。结果表明,木质纤维素水解液有毒副产物对东方伊萨酵母HN-1乙醇发酵的影响较小,除添加2 g/L香草醛或添加1 g/L 5-羟甲基糠醛可使乙醇产量分别降低20.38%和11.2%外,其他抑制物的添加对乙醇的生成未有显著影响。但是,当副产物浓度较高时,可以显著抑制菌体生长,添加1-5 g/L甲酸钠、2.5-8.0 g/L乙酸钠、0.4-2 g/L糠醛或0.5-2 g/L香草醛,发酵36 h时菌体细胞干重分别较对照下降了25.04%-37.02%、28.83%-43.82%、20.06%-37.60%和26.39%-52.64%。中心组合试验结果表明各抑制物交互作用对乙醇的生成影响不显著。该研究表明木质纤维素水解液副产物对东方伊萨酵母HN-1乙醇发酵的影响较小,适合用于纤维乙醇发酵。     

皮状丝孢酵母B3利用木薯淀粉发酵生产微生物油脂

对皮状丝孢酵母B3以木薯淀粉水解液为碳源发酵生产微生物油脂培养条件进行了优化,并在2 L发酵罐中对菌体生长和油脂积累进行了考察。摇瓶实验表明,木薯淀粉水解液的浓度高于90 g/L时不利于菌体的生长和油脂积累,皮状丝孢酵母B3发酵生产微生物油脂的最适氮源及其浓度、最适C/N比和pH分别为酵母提取物3.0 g/L、116、6.0,在此条件下培养144 h菌体生物量、油脂产量和油脂含量分别达到15.2 g/L、6.22 g/L和40.9％;在2 L发酵罐中分批发酵44 h后菌体生物量、油脂产量和油脂含量分别达28.7 g/L、12.27 g/L和42.8％。以皮状丝孢酵母B3所产油脂制备生物柴油,其主要组成包括棕榈酸甲酯、硬脂酸甲酯、油酸甲酯、亚油酸甲酯等,且理化特性符合相关国家标准,可作为一种有潜力的化石燃料替代品。     

低能离子修饰多不饱和脂肪酸产生菌株的研究北大核心CSCD

为得到多不饱和脂肪酸高产菌株,通过氮离子注入产油粘红酵母(Rhodotorula glutinis),对其进行辐照诱变,发现当注入能量为10 keV时,注入剂量80×2.6×1013ion/cm2为最佳诱变参数。然后,采用含有脂肪酸合成酶抑制剂cerulenin的培养基对高产油脂粘红酵母进行初筛,并研究了cerulenin对粘红酵母细胞的抑制作用,结果表明,当cerulenin的浓度达到11.20×10-6mol/L时,抑制率为90%,可以作为筛选浓度,利用酸热耦合超生波法和索氏抽提法验证了cerulenin筛选菌株的准确性。最终筛选出一株油脂产量比出发菌株提高32%的高产菌株D30,经多次传代实验表明,该菌株遗传稳定性较好。气相色谱分析其油脂组成,结果表明多不饱和脂肪酸含量为28.07%。     

利用脂肪酸合成酶抑制剂和磷酸香草醛反应筛选高产油脂酵母菌

利用80 MeV/u碳离子束对产油菌株粘红酵母进行辐照诱变, 采用含有脂肪酸合成酶抑制剂cerulenin的培养基进行高产油脂突变株的初筛, 并通过磷酸香草醛反应和氯仿甲醇抽提法对初筛菌株油脂含量进行分析。结果表明, cerulenin对酵母细胞生长有较好的抑制作用, 浓度为8.96×10-6 mol/L时, 抑制率达98%以上, 可作为筛选浓度。通过磷酸香草醛反应法对初筛菌体油脂含量进行定量分析, 发现菌体油脂含量与该反应在530 nm处的光吸收成线性正相关, 初筛菌株的正突变率达65%以上。该方法快速方便, 是一种较为理想的产油酵母筛选方法。通过该方法, 筛选出了2株油脂含量高于对照90%以上的突变株。     

发酵性丝孢酵母HWZ004利用水稻秸秆水解液发酵产油脂

为高效利用水稻秸秆中的纤维素和半纤维素产油脂,采用稀酸预处理和酶水解两步法对水稻秸秆进行水解,然后以水解液为碳源,培养发酵性丝孢酵母Trichosporon fermentans HWZ004产微生物油脂。结果表明,经简单overliming法脱毒后水稻秸秆水解液中乙酸、糠醛和5-羟甲基糠醛的浓度分别为0.4 g/L、0.1 g/L和0.05 g/L。只需添加少量氮源和微量CuSO4?5H2O,该水解液即可满足T. fermentans HWZ004发酵产油脂的要求。发酵最适接种量、初始pH和温度分别是5.0％、7.0和25 ℃。T. fermentans HWZ004在优化条件下培养7 d的生物量、油脂含量和油脂产量分别是26.4 g/L,52.2％和13.8 g/L;油脂得率系数为17.0,大大高于驯化前菌株T. fermentans CICC 1368在脱毒水稻秸秆半纤维素水解液中的对应值 (11.9)。所产油脂的脂肪酸组成与植物油相似,不饱和脂肪酸含量达70％以上,宜作为生物柴油的生产原料。     

Efficient oleaginous yeasts for lipid production from lignocellulosic sugars and effects of lignocellulose degradation compounds on growth and lipid production

Microbial lipid production using lignocellulosic biomass is considered an alternative for biodiesel production. In this study, 418 yeast strains were screened to find efficient oleaginous yeasts which accumulated large quantities of lipid when cultivated in lignocellulosic sugars. Preliminary screening by Nile red staining revealed that 142 strains contained many or large lipid bodies. These strains were selected for quantitative analysis of lipid accumulation by shaking flask cultivation in nitrogen-limited medium II containing 70 g/L glucose or xylose or mixture of glucose and xylose in a ratio of 2:1. Rhodosporidium fluviale DMKU-SP314 produced the highest lipid concentration of 7.9 g/L when cultivated in the mixture of glucose and xylose after 9 days of cultivation, which was 55.0% of dry biomass (14.3 g/L). The main composition of fatty acids were oleic acid (40.2%), palmitic acid (25.2%), linoleic acid (17.9%) and stearic acid (11.1%). Moreover, the strain DMKU-SP314 could grow and produce lipid in a medium containing predominantly lignocellulose degradation products, namely, acetic acid, formic acid, furfural, 5-hydroxymethylfurfural (5-HMF) and vanillin, with however, some inhibitory effects. This strain showed high tolerance to acetic acid, 5-HMF and vanillin. Therefore, R. fluviale DMKU-SP314 is a promising strain for lipid production from lignocellulosic hydrolysate.     

Enthalpy content as a function of lipid accumulation in Rhodotorula glutinis

Microcalorimetry has been demonstrated to be a suitable on-line method for monitoring the lipid production phase of oleaginous yeasts. The choice of lipid extraction method for the oil accumulated by oleaginous yeasts is highly important both for accuracy when quantifying the lipid level and determining the fatty acid composition. The energy content of Rhodotorula glutinis increased from 23.0 kJ/g to 30.6 kJ/g dry biomass during the lipid-accumulating phase and was directly correlated to the analysed level of lipids, when an alkaline hydrolysis extraction method was used. Consequently, bomb-calorimetric measurements of the energy content were shown to be an indirect method of quantifying the lipid content in oleaginous yeasts. The fatty acid composition remained rather constant during the batch growth of Rh. glutinis with approximately 70% unsaturated C18 fatty acids. The high energy content as well as the fatty acid composition of Rh. glutinis makes this yeast a better candidate for use as aquaculture feed compared with the commonly used Saccharomyces cerevisiae.     

The effect of glycerol as a sole and secondary substrate on the growth and fatty acid composition of Rhodotorula glutinis

Rhodotorula glutinis is a yeast that produces copious quantities of lipids in the form of triacylglycerols (TAG) and can be used to make biodiesel via a transesterification process. The ester bonds in the TAG are broken leaving behind two products: fatty acid methyl esters and glycerol that could provide an inexpensive carbon source to grow oleaginous yeast R. glutinis. Described here are the effects of different growth substrates on TAG accumulation and fatty acids produced by R. glutinis. Yeast cultured 24h on medium containing dextrose, xylose, glycerol, dextrose and xylose, xylose and glycerol, or dextrose and glycerol accumulated 16, 12, 25, 10, 21, and 34% TAG on a dry weight basis, respectively. Lipids were extracted from R. glutinis culture and transesterified to form fatty acid methyl esters. The results show a difference in the degree of saturation for the carbon sources tested. Cells cultivated on glycerol alone had the highest degree of unsaturated fatty acids at 53% while xylose had the lowest at 25%. R. glutinis can be cultivated on all sugars tested as single carbon substrates or in mixtures. Glycerol may be used as secondary or primary carbon substrate.     

囊状黄丝藻在不同初始氮浓度条件下特殊的油脂积累规律

对不同初始氮浓度条件下囊状黄丝藻(Tribonema utriculosum SAG22.94)的生长状况、油脂含量和脂肪酸组成与含量进行研究。结果显示,囊状黄丝藻在氮浓度为3.0 mmol/L时,获得生物质浓度最高,为6.39 g/L;氮浓度为18.0 mmol/L时获得总脂和总脂肪酸含量最高,分别为细胞干重的44.62%和42.21%;上述3个指标单位体积的产率均在氮浓度3.0 mmol/L时达到最高值,分别为0.538、0.209和0.206 g·L~(-1)·d~(-1)。在4种初始氮浓度条件下,囊状黄丝藻油脂和脂肪酸含量可随着氮浓度增加而增加。脂肪酸含量分析结果显示,该藻的主要脂肪酸为豆蔻酸(C14∶0)、棕榈酸(C16∶0)、棕榈油酸(C16∶1ω7)、花生四烯酸(C20∶4ω6)和二十碳五烯酸(C20∶5ω3,EPA)。其中棕榈油酸含量最高,占总脂肪酸含量的36.53%~50.08%。研究结果表明囊状黄丝藻在不同初始氮浓度条件下具有特殊的油脂积累规律,是一株具有重要应用价值的产油丝状微藻。     

初始硝酸钠浓度对魏氏真眼点藻的生长、形态和油脂积累的影响

为了确定不同初始氮供应水平对产油微藻魏氏真眼点藻(Eustigmatos vischeri)生长、形态和油脂积累的影响, 本研究通过在改良的BG-11培养基中设置4种不同的初始硝酸钠浓度(17.6、11.7、5.9和3.0 mmol/L)对魏氏真眼点藻(E. vischeri)进行培养。观察结果表明, 魏氏真眼点藻(E. vischeri)的营养细胞为一具裂叶状叶绿体、细胞质中有一红色素体和许多振动颗粒及光滑细胞壁的球形单细胞; 细胞繁殖方式主要是形成二分裂和四分裂的似亲孢子。在低氮条件下, 随着培养时间的延长, 细胞内油体逐步形成, 至培养末期占据细胞的大部分空间, 同时培养物的颜色也由绿色向黄绿色转变, 最终呈橙黄色。实验结果表明, 魏氏真眼点藻(E. vischeri)生物质浓度在17.6 mmol/L组获得最大值为9.14 g/L; 总脂、中性脂和总脂肪酸三者占干重的含量随着初始硝酸钠浓度的降低而升高, 在3.0 mmol/L组获得最高值, 分别为60.81%、56.59%和53.47%; 三者的单位体积产率均在5.9 mmol/L组获得最高值, 分别为0.24、0.21和0.20 g/(Ld); 主要脂肪酸组成为棕榈酸(C16:0)、棕榈油酸(C16:1)、油酸(C18:1)和二十碳五烯酸(C20:53, EPA), 其中棕榈油酸的含量最高。上述研究表明, 魏氏真眼点藻(E. vischeri)是一株适合于生产生物柴油和长链不饱和脂肪酸EPA的高产油微藻。       

Mixed culture of oleaginous yeast Rhodotorula glutinis and microalga Chlorella vulgaris for lipid production from industrial wastes and its use as biodiesel feedstock

A mixed culture of oleaginous yeast Rhodotorula glutinis and microalga Chlorella vulgaris was performed to enhance lipid production from industrial wastes. These included effluent from seafood processing plant and molasses from sugar cane plant. In the mixed culture, the yeast grew faster and the lipid production was higher than that in the pure cultures. This could be because microalga acted as an oxygen generator for yeast, while yeast provided CO(2) to microalga and both carried out the production of lipids. The optimal conditions for lipid production by the mixed culture were as follows: ratio of yeast to microalga at 1:1; initial pH at 5.0; molasses concentration at 1%; shaking speed at 200 rpm; and light intensity at 5.0 klux under 16:8 hours light and dark cycles. Under these conditions, the highest biomass of 4.63±0.15 g/L and lipid production of 2.88±0.16 g/L were obtained after five days of cultivation. In addition, the plant oil-like fatty acid composition of yeast and microalgal lipids suggested their high potential for use as biodiesel feedstock.     

In vitro effects of sterculic acid on lipid biosynthesis in Rhodococcus opacus strain PD630 and isolation of mutants defective in fatty acid desaturation

The in vivo effects of sterculic acid methyl ester on triacylglycerol fatty acid composition in the oleaginous, hydrocarbon-degrading bacterium R. opacus strain PD630 was investigated. Sterculic acid, a cyclopropene fatty acid and an inhibitor of the stearoyl-CoA desaturase system, strongly inhibited the synthesis of monoenic fatty acids, of saturated fatty acids with more than 16 carbon atoms and of odd-numbered fatty acids when added to the culture medium. In addition, chemical mutagenesis and the application of the penicillin enrichment technique provided mutants, which were more or less completely impaired in the desaturation of long-chain fatty acids and exhibited in some cases a similar fatty acid composition like the wild-type in the presence of sterculic acid methyl ester. The implications of these findings for fatty acid metabolism in R. opacus strain PD630 are discussed.     

培养条件对产油微生物生长的影响

为了筛选出高产油菌株, 首先采用细胞形态学方法与细胞化学方法(苏丹III染色法)对4株高产油脂菌株进行初筛, 并通过索氏提取法对初筛菌株油脂含量进行分析, 确定M2菌株为实验菌株, 其油脂含量达53.09%。为了增加产油微生物油脂产量, 本试验考察了不同发酵条件对其细胞生长和油脂积累的影响。优化工艺参数为: 10° Bx玉米皮渣水解液为培养基质, 0.2% NaNO3为氮源, pH 6.0、28oC下发酵培养6 d, 微生物油脂含量75.21%, 菌体生物量30.40 g/L, 油脂产量22.86 g/L。气相色谱分析表明该油脂的脂肪酸组成与植物油相似, 主要含有16碳和18碳系脂肪酸, 可作为生物柴油的原料, 不饱和脂肪酸含量达68%, 可应用于医药化工领域。