Carbon and nitrogen sources modulate lipase production in the yeast Yarrowia lipolytica

AIMS: To analyse the influence of nitrogen and carbon sources on extracellular lipase production by Yarrowia lipolytica-overproducing mutant in order to optimize its production in large-scale bioreactors. METHODS AND RESULTS: The level of lipase production and LIP2 induction, measured using an LIP2-LacZ reporter gene, were compared for different carbon and nitrogen sources and for different concentrations. The localization of the enzyme during growth was also determined by Western blotting analysis using a six-histidine-tagged lipase. SIGNIFICANCE AND IMPACT OF THE STUDY: Tryptone N1 and oleic acid are the most suitable nitrogen and carbon sources for the production of the extracellular lipase by the Y. lipolytica mutant. Higher levels of lipase production were obtained as the tryptone concentration increased in the culture medium. Such a positive correlation was not observed with oleic acid media where the highest lipolytic productivities were obtained in the presence of low concentration. We also demonstrate that in the presence of oleic acid, lipase is cell-bound during the growth phase before being released in the media. CONCLUSIONS: This work provides a better understanding of the mechanism controlling LIP2 expression and, thus, extracellular lipase production in the yeast Y. lipolytica.     

解脂耶氏酵母脂肪酶LIP4和LIP5在毕赤酵母中的异源表达及酶学性质

【目的】克隆解脂耶氏酵母(Yarrowia lipolytica)脂肪酶LIP4和LIP5的cDNA序列,研究其基因结构,并实现其在毕赤酵母中的功能表达,以探讨其酶学性质。【方法】利用反转录PCR首次扩增LIP4和LIP5的编码基因,用SignalP 3.0分析其基因序列,然后分别构建胞内表达载体pPIC3.5K-Lip4、pPIC3.5K-Lip5和胞外表达载体pPIC9K-Lip4、pPIC9K-Lip5,将其转入毕赤酵母GS115中表达,以NTA树脂纯化酶蛋白,研究其酶学性质。【结果】cDNA序列测序结果显示两者均不含内含子,酶蛋白的氨基酸序列中含有典型脂肪酶的活性三联体结构和五肽保守区;酶学性质研究表明,两者的最适底物均为癸酸(C8)对硝基苯酚酯,最适pH为7.0,最适温度为40℃,但LIP4对pH和温度更敏感;两者均能被Ca2+激活,且LIP5还能为Mg2+激活,但均被Hg2+、乙二胺四乙酸(EDTA)和苯甲基磺酰氟(PMSF)强烈抑制。【结论】首次克隆了解脂耶氏酵母脂肪酶LIP4和LIP5编码基因,实现了其在毕赤酵母中的活性表达,并初步研究了其酶学性质,为上述脂肪酶的应用及进一步深入研究解脂耶氏酵母脂肪酶家族奠定了基础。     

The use of methyl ricinoleate in lactone production by Yarrowia lipolytica: Aspects of bioprocess operation that influence the overall performance

Abstract

Yarrowia lipolytica was used to produce γ-decalactone by the degradation of methyl ricinoleate (MR). A new method for inoculating the biotransformation medium was tested, which avoided the laborious step of washing cells from the growth medium. The consequent cell hydrophobicity increase led to an enhancement of aroma production. In a study of MR concentration in shake flasks, the highest productivity (15 mg L^?1 h^?1) was achieved using 30 g MR L^?1. Lipase and protease activities were induced but no correlation between lipase induction and aroma production was found. The effects of different aeration and agitation rates were studied in bioreactor assays. Productivity was improved to 87 mg L^?1 h^?1, and another compound, 3-hydroxy-γ-decalactone, was detected in large amounts. Dehydration of this lactone produced two decenolides with aroma characteristics. The direct influence of oxygen on the production of both lactones was demonstrated.     

Oxygen requirements for growth and citric acid production of Yarrowia lipolytica

During continuous cultivation of Yarrowia lipolytica N 1, oxygen requirements for growth and citric acid synthesis were found to depend on the iron concentration in the medium. A coupled effect of oxygen and iron concentrations on the functioning of the mitochondrial electron transport chain in Y. lipolytica N 1 was established. Based on the results obtained in continuous culture, conditions for citric acid production in a batch culture of Y. lipolytica N 1 were proposed. At relatively low pO(2) value and a high iron concentration, citric acid accumulation was as high as 120 g l(-1); the specific rate of citric acid synthesis reached 120 mg citric acid (g cells h)(-1). The mass yield coefficient was 0.87 and the energy yield coefficient was 0.31.     

Improving performance of Yarrowia lipolytica lipase lip2-catalyzed kinetic resolution of (R,S)-1-phenylethanol by solvent engineering

Extracellular Yarrowia lipolytica lipase Lip2 (YLIP2) demonstrated an (R)-enantiopreference for efficient resolution of (R,S)-1-phenylethanol by solvent engineering with different kinds of binary solvent. The enantioselectivity was significantly improved by the addition of 1, 4-dioxane. The reaction parameters including co-solvent concentration, reaction temperature, and the reaction time were optimized. When the reaction was carried out with n-hexane in the presence of 0.8% 1,4-dioxane at 50°C for 72 h, the enantiomeric excess of product markedly increased to 99.1% from 66% in pure n-hexane; the enantiomeric ratio was higher than 200, which was 500-fold compared with that in pure n-hexane. The results indicated that it is very important to design the proper co-solvents, especially to create appropriate micro-environment for YLIP2 for catalyzing the resolution of (R,S)-1-phenylethanol.     

Analysis of Yarrowia lipolytica extracellular lipase Lip2p glycosylation

Wild-type (WT) Yarrowia lipolytica strain secretes a major extracellular lipase Lip2p which is glycosylated. In silico sequence analysis reveals the presence of two potential N-glycosylation sites (N113IS and N134NT). Strains expressing glycosylation mutant forms were constructed. Esterase activities for the different forms were measured with three substrates: p-nitrophenol butyrate (p-NPB), tributyrin and triolein. Sodium dodecyl sulfate polacrylamide gel electrophoresis analysis of supernatant indicated that the suppression of the two sites of N-glycosylation did not affect secretion. S115V or N134Q mutations led to lipase with similar specific activity compared with WT lipase while a T136V mutation reduced specific activity toward p-NPB and tributyrin. Electrospray ionization MS of the WT entire protein led to an average mass of 36 950 Da, higher than the mass deduced from the amino acid sequence (33 385 Da) and to the observation of at least two different mannose structures: Man(8)GlcNAc(2) and Man(9)GlcNAc(2). LC-tandem MS analysis of the WT Lip2p after trypsin and endoproteinase Asp-N treatments led to high coverage (87%) of protein sequence but the peptides containing N113 and N134 were not identified. We confirmed that the presence of N-glycosylation occurred at both N113 and N134 by MS of digested proteins obtained after enzymatic deglycosylation or from mutant forms.     

利用a凝集素在酿酒酵母表面展示解脂耶氏酵母脂肪酶Lip2

[目的]将解脂耶氏酵母胞外脂肪酶Lip2展示在酿酒酵母表面,构建全细胞催化剂.[方法]采用PCR方法扩增得到解脂耶氏酵母胞外脂肪酶Lip2成熟肽编码基因LIP2,将其连接到AGA2基因的下游构建表面展示载体pCTLIP2.分别以橄榄油、三丁酸甘油酯和对硝基苯酚棕榈酸酯(pNPP)为底物检测展示的脂肪酶酶活.在此基础上,对野生菌及工程菌的酶学性质进行比较.[结果]展示Lip2的酿酒酵母重组菌株在半乳糖的诱导下,表现出水解橄榄油、三丁酸甘油脂以及pNPP的活性,20℃诱导72h时酶活达到最高,为182 U/g干细胞.对展示的Lip2的酶学性质研究表明,其最适温度为40℃,最适pH为8.0,温度稳定性比自由酶有所提高,50℃温浴4 h后残余酶活为其最大酶活的23.2%.以不同碳链长度的对硝基苯酚酯为底物检测其底物特异性,结果显示其水解C8,C12,C16对硝基苯酚酯活性相近,均远高于对硝基苯酚丁酸酯(C4)的水解酶活.[结论]对于Lip2,a凝集素系统是一个有效的展示系统,利用该系统成功将Lip2展示在酿酒酵母表面,从而构建了酿酒酵母全细胞催化剂,该全细胞催化剂具有良好的潜在应用前景.     

Rationally engineered double substituted variants of Yarrowia lipolytica lipase with enhanced activity coupled with highly inverted enantioselectivity towards 2‐bromo phenyl acetic acid esters

Inverting enzyme enantioselectivity by protein engineering is still a great challenge. Lip2p lipase from Yarrowia lipolytica, which demonstrates a low S‐enantioselectivity (E‐value = 5) during the hydrolytic kinetic resolution of 2‐bromo‐phenyl acetic acid octyl esters (an important class of chemical intermediates in the pharmaceutical industry), was converted, by a rational engineering approach, into a totally R‐selective enzyme (E‐value > 200). This tremendous change in selectivity is the result of only two amino acid changes. The starting point of our strategy was the prior identification of two key positions, 97 and 232, for enantiomer discrimination. Four single substitution variants were recently identified as exhibiting a low inversion of selectivity coupled to a low‐hydrolytic activity. On the basis of these results, six double substituted variants, combining relevant mutations at both 97 and 232 positions, were constructed by site‐directed mutagenesis. This work led to the isolation of one double substituted variant (D97A‐V232F), which displays a total preference for the R‐enantiomer. The highly reversed enantioselectivity of this variant is accompanied by a 4.5‐fold enhancement of its activity toward the preferred enantiomer. The molecular docking of the R‐ and S‐enantiomers in the wild‐type enzyme and the D97A‐V232F variant suggests that V232F mutation provides a more favorable stacking interaction for the phenyl group of the R‐enantiomer, that could explain both the enhanced activity and the reversal of enantioselectivity. These results demonstrate the potential of rationally engineered mutations to further enhance enzyme activity and to modulate selectivity. Biotechnol. Bioeng. 2010;106: 852–859. © 2010 Wiley Periodicals, Inc.     

解脂耶氏酵母(Yarrowia lipolytica) ATCC30162脂肪酶基因Yllip1和Yllip2的结构及表达特征

以目前报道油脂产量最高的解脂耶氏酵母菌株(Yarrowia lipolytica)ATCC 30162为对象,采用逆转录PCR扩增到脂肪酶编码基因Yllip1和Yllip2,编码产物分别为816和549个氨基酸。保守结构域预测表明,Yllip1包含Patatin类磷脂酶和功能未知的DUF3336结构域,而Yllip2包含lipase_3类脂肪酶结构域,且这两个蛋白都具有1～4个跨膜区域。与不同物种来源的脂肪酶同源蛋白的多序列比对表明Yllip1和Yllip2分别包含8和6个保守区域,这些生物信息学分析表明这两个来源于解脂耶氏酵母的脂肪酶作用底物可能分别为细胞内膜磷脂和酰基甘油酯。荧光定量PCR分析表明:培养基中添加油酸在短期内(6 h)诱导了这两个脂肪酶基因Yllip1和Yllip2的显著上调表达,表明它们可能参与了酵母分解利用油酸的生化过程。     

Phosphatase activity during growth of Yarrowia lipolytica

Abstract The yeast Yarrowia lipolytica produces four patterns of phosphatase activity during growth in the presence or absence of inorganic phosphate in the medium. Activities had pH optima at 4.2, 5.8, about pH 6.5 and pH 9.0. The level of all four phosphatase activities depended on the presence of inorganic phosphate in the medium.     

Enabling xylose utilization in Yarrowia lipolytica for lipid production

The conversion of lignocellulosic sugars, in particular xylose, is important for sustainable fuels and chemicals production. While the oleaginous yeast Yarrowia lipolytica is a strong candidate for lipid production, it is currently unable to effectively utilize xylose. By introducing a heterologous oxidoreductase pathway and enabling starvation adaptation, we obtained a Y. lipolytica strain, E26 XUS, that can use xylose as a sole carbon source and produce over 15 g/L of lipid in bioreactor fermentations (29.3% of theoretical yield) with a maximal lipid productivity of 0.19 g/L/h. Genomic sequencing and genetic analysis pointed toward increases in genomic copy number of the pathway and resulting elevated expression levels as the causative mutations underlying this improved phenotype. More broadly, many regions of the genome were duplicated during starvation of Yarrowia. This strain can form the basis for further engineering to enhance xylose catabolic rates and conversion. Finally, this study also reveals the flexibility and dynamic nature of the Y. lipolytica genome, and the means at which starvation can be used to induce genomic duplications.     

Biosensor online control of citric acid production from glucose by Yarrowia lipolytica using semicontinuous fermentation

Our study aimed at the development of an effective method for citric acid production from glucose by use of the yeast Yarrowia lipolytica. The new method included an automated bioprocess control using a glucose biosensor. Several fermentation methodologies including batch, fed‐batch, repeated batch and repeated fed‐batch cultivation were tested. The best results were achieved during repeated fed‐batch cultivation: Within 3 days of cycle duration, approximately 100 g/L citric acid were produced. The yields reached values between 0.51 and 0.65 g/g and the selectivity of the bioprocess for citric acid was as high as 94%. Due to the elongation of the production phase of the bioprocess with growth‐decoupled citric acid production, and by operating the fermentation in cycles, an increase in citric acid production of 32% was achieved compared with simple batch fermentation.     

产琥珀酸重组解脂酵母发酵副产物乙酸的代谢控制

琥珀酸是一种高附加值的有机酸,广泛用于食品、化工和农药领域。解脂酵母Yarrowia lipolytica作为新型强健的非传统酵母,近年来逐渐吸引了研究者的注意。前期通过基因敲除琥珀酸脱氢酶基因构建了一株产琥珀酸的重组解脂酵母PGC01003。由于糖酵解和TCA循环流量不协调,PGC01003分泌大量副产物乙酸,限制了琥珀酸产量的进一步提高。为降低乙酸的溢出,实现自然低pH值发酵生产琥珀酸,首先干扰旁路代谢,异源表达来自鼠沙门氏菌的乙酰辅酶A合酶,乙酸的产量下降至4.6 g/L,比对照降低了24.6%。而基因敲除乙酰辅酶A水解酶基因得到的重组菌PGC11505,发酵96 h乙酸分泌量只有0.4 g/L,琥珀酸产量提高到7.0 g/L,琥珀酸的转化率为0.30 g/g,为进一步构建高产琥珀酸的细胞工厂奠定基础。     

Producing Biochemicals in Yarrowia lipolytica from Xylose through a Strain Mating Approach

Enabling xylose catabolism is challenging, especially for unconventional yeasts and previously engineered background strains. In this study, the efficacy of a yeast mating approach with Yarrowia lipolytica that can combine a previously engineering and evolved xylose phenotype with a metabolite overproduction phenotype is demonstrated. Specifically, several engineered Y. lipolytica strains that produce α‐linolenic acid (ALA), riboflavin, and triacetic acid lactone (TAL) with an engineered and adapted xylose‐utilizing strain to obtain three diploid strains that rapidly produce these molecules directly from xylose are mated. Titers of 0.52 g L^?1 ALA, 96.6 mg L^?1 riboflavin, and 2.9 g L^?1 TAL, are obtained from xylose in flask cultures and 1.42 g L^?1 production of ALA is obtained using bioreactor condition. This total production level is generally on par or higher than the parental strain cultivated on glucose, although specific productivities decreased as a result of improved overall cell growth by the diploid strains. In the case of ALA, this lipid content reached similar levels to that of flaxseed oil. This result showcases the first study using strain mating in Y. lipolytica for producing biomolecules from xylose, and thus demonstrates the utility of this approach as a routine tool for metabolic engineering.     

解脂耶罗维亚酵母产油脂的研究进展

单细胞油脂是生产生物柴油最理想的原料,随着化石能源的日益枯竭,单细胞油脂的生产受到广泛关注。解脂耶罗维亚酵母是生产单细胞油脂的最佳菌株,它能够利用诸多廉价底物作为碳源,在工业上有极大的应用前景。其遗传背景清晰,全基因组测序已完成,基因表达系统已构建。在此基础上对油脂累积途径进行了深入研究,多株油脂含量更高的菌株被构建。深入了解解脂耶罗维亚酵母的基因表达及油脂代谢系统,对日后对其进一步的代谢改造具有重要意义。     

Citric acid production from sucrose by recombinant Yarrowia lipolytica using semicontinuous fermentation

The genetically modified yeast strain Yarrowia lipolytica H222‐S4(p67ICL1)T5 is able to utilize sucrose as a carbon source and to produce citric and isocitric acids in a more advantageous ratio as compared to its wild‐type equivalent. In this study, the effect of pH of the fermentation broth (pH 6.0 and 7.0) and proteose‐peptone addition on citric acid production by the recombinant yeast strain were investigated. It was found that the highest citric acid production occurred at pH 7.0 without any addition of proteose‐peptone. Furthermore, two process strategies (fed‐batch and repeated fed‐batch) were tested for their applicability for use in citric acid production from sucrose by Y. lipolytica. Repeated fed‐batch cultivation was found to be the most effective process strategy: in 3 days of cycle duration, approximately 80 g/L citric acid was produced, the yield was at least 0.57 g/g and the productivity was as much as 1.1 g/Lh. The selectivity of the bioprocess for citric acid was always higher than 90% from the very beginning of the fermentation due to the genetic modification, reaching values of up to 96.4% after 5 days of cycle duration.     

Enhancement of single cell oil production by Yarrowia lipolytica growing in the presence of Teucrium polium L. aqueous extract

Yarrowia lipolytica, grown in a nitrogen-limited continuous culture (D = 0.032 h^–1), produced 9.3 g dry biomass l^–1, which contained 0.25 g oil g^–1. When an aqueous extract from Teucrium polium L. was added, the biomass concentration remained constant while the oil content increased to 0.33 g oil g^–1 dry weight. The specific rate of oil formation increased from 7.9 to 10.6 mg oil g^–1 biomass h.