毕赤酵母表面展示南极假丝酵母脂肪酶B全细胞催化合成葡萄糖月桂酸酯

利用表面展示南极假丝酵母脂肪酶B(Candida antarctica lipase B,CALB)的毕赤酵母细胞为全细胞催化剂,以葡萄糖为酰基受体,月桂酸为酰基供体,在非水相体系中催化合成糖酯。用硅胶柱层析对产物进行初提,再用制备液相色谱进一步分离纯化,并用高效液相色谱-质谱鉴定纯品性质。对该酶法合成糖脂反应体系进行了优化,其中考察了有机溶剂种类、复合溶剂体系中二甲基亚砜(DMSO)体积百分比、酶量、底物摩尔比、水活度和温度等几个影响酯化反应的因素。结果表明:在5mL反应体系中,以叔戊醇/二甲基亚砜(DMSO30%,V/V)为反应介质,添加初始水活度为0.11的全细胞催化剂0.5g,葡萄糖0.5mmol/L,月桂酸1.0mmol/L,60°C下反应72h后,葡萄糖月桂酸单酯的转化率达到48.7%。     

Green enzymatic production of glyceryl monoundecylenate using immobilized Candida antarctica lipase B

Enzymatic synthesis of glyceryl monoundecylenate (GMU) was performed using indigenously immobilized Candida anatarctica lipase B preparation (named as PyCal) using glycerol and undecylenic acid as substrates. The effect of molar ratio, enzyme load, reaction time, and organic solvent on the reaction conversion was determined. Both batch and continuous processes for GMU synthesis with shortened reaction time were developed. Under optimized batch reaction conditions such as 1:5 molar ratio of undecylenic acid and glycerol, 2?h of reaction time at 30% substrate concentration in tert-butyl alcohol, conversion of 82% in the absence of molecular sieve, and conversion of 93% in the presence of molecular sieve were achieved. Packed bed reactor studies resulted in high conversion of 86% in 10-min residence time. Characterization of formed GMU was performed by FTIR, MS/MS. Enzymatic process resulted in GMU as a predominant product in high yield and shorter reaction time periods with GMU content of 92% and DAG content of 8%. Optimized GMU synthesis in the present study can be used as a useful reference for industrial synthesis of fatty acid esters of glycerol by the enzymatic route.     

酵母表面展示脂肪酶合成己二酸二异辛酯

展示酶的酵母细胞既具有固定化酶的优点,又有制备简单、成本较低的特点.采用表面展示南极假丝酵母脂肪酶B (Candida antarctica lipase B,CALB)的毕赤酵母细胞催化合成己二酸二异辛酯(Diisooctyl adipate,DIOA),对该反应体系进行优化,并实现了初步工艺放大制备.经条件优化后,在10mL反应体系中,DIOA的产率可达85.0％.该工艺放大到200mL反应体系时,DIOA产率可达97.8％.经减压蒸馏,DIOA纯度可达到98.2％.该酵母表面展示脂肪酶在合成绿色润滑油己二酸二异辛酯中具有良好应用前景.     

展示南极假丝酵母脂肪酶B的毕赤酵母全细胞催化合成短链芳香酯

展示酶的酵母细胞作为全细胞催化剂,既具有固定化酶的优点,又有制备简单、成本较低的特点。本研究将细胞表面展示南极假丝酵母脂肪酶B(Candida antarctica lipase B,CALB)的重组毕赤酵母用于非水相中催化合成短链芳香酯,通过滴定和气相色谱的方法测定底物酸的转化率,从底物的碳链长度、醇的结构、酵母冻干粉的添加量、底物浓度及底物的酸醇摩尔比等方面考察了展示CALB的毕赤酵母全细胞催化合成短链芳香酯的特性。研究结果表明:该全细胞催化剂可催化C10以下的酸和醇直接酯化合成多种短链芳香酯,酸的转化率达到90%以上;其中己酸和乙醇为酶的最适底物;酵母冻干粉的添加量20g/L(306.0U/g-drycell)、己酸浓度0.8mol/L、酸醇摩尔比1:1.1是合成己酸乙酯的最佳条件。在此条件下反应1.5h,己酸的转化率达到97.3%。在现有的关于脂肪酶非水相催化合成短链芳香酯的报道中,该全细胞催化剂显示出较好的底物耐受性以及较高的催化反应速率。因此,展示CALB的毕赤酵母全细胞催化剂在合成短链芳香酯方面具有较大的商业化应用潜能。     

An integrated scale-down plant for optimal recombinant enzyme production by Pichia pastoris

An integrated bioprocess was created in a scale-down production plant by developing a two-stage enzyme production process with Pichia pastoris, containing a cell-breeding reactor and a production reactor in combination with a three-stage downstream process. To harvest the secreted enzymes, a disc separator and a cross-flow microfiltration clear the broth from the cells. Purification with hydrophobic interaction chromatography removes other proteins, concentrates the product, and prepares the enzyme solution for lyophilization. Fully automated and broad observable multi-stage parallel process courses have been developed using industrial process control systems and at-line measurements for enzyme concentration and enzyme activity. Optimal process conditions were found by application of Design of Experiments (DoE) for the production process.     

Enzymatic synthesis of 2-ethylhexyl esters of fatty acids by immobilized lipase from Candida sp. 99–125

The 2-ethylhexyl esters of fatty acids were synthesized by immobilized lipase from Candida sp. 99–125. The reuse stability of immobilized lipase was at least four batches. The conditions of enzymatic synthesis of 2-ethylhexyl palmitate were optimized. In the system of petroleum ether, 10% (w/w) immobilized lipase was used in the esterfication of 2-ethyl hexanol (7.8 mmol) and palmitic acid (7.8 mmol) at 40 °C with silica gel as the water absorbent. The esterification degree was 91% under these conditions. The purity of 2-ethylhexyl palmitate was 98% after purification consisting washing by water and evaporation to remove the organic solvent.     

Understanding the effect of tert-butanol on Candida antarctica lipase B using molecular dynamics simulations

The use of organic solvents as reaction media for enzymatic reactions has many advantages. Several organic solvents have been proposed as reaction media, especially for transesterifications using Candida antarctica lipase B (CalB). Among organic solvents, tert-butanol is associated with an enhanced conversion rate in bio-diesel production. Thus, it is necessary to understand the effect of tert-butanol on CalB to explain the high-catalytic efficiency compared with the reaction in other hydrophilic organic solvents. In this study, the effects of tert-butanol on the structure of CalB were investigated by MD simulations. The overall flexibility was increased in the presence of tert-butanol. The substrate entrance and the binding pocket size of CalB in tert-butanol were maintained as in TIP3P water. The distance between the catalytic residues of CalB in tert-butanol indicated a higher likelihood of forming hydrogen bonds. These structural analyses could be useful for understanding the effect of tert-butanol on lipase transesterification.     

毕赤酵母中表达透明颤菌血红蛋白提高重组脂肪酶的表达

解脂耶氏酵母胞外脂肪酶Lip2(YlLip2)是一种具有广泛应用前景的工业酶.为了改善高密度发酵生产Y1Lip2过程中的溶氧限制,提高Y1Lip2的表达量,将YlLip2基因lip2和透明颤菌血红蛋白(VHb)基因vgb分别置于AOXl启动子和PsADH2启动子的调控之下,进行YlLip2和VHb在毕赤酵母中的共表达.PsADH2启动子来源于树干毕赤酵母Pichia stipitis,在低氧条件下能被激活.SDS-PAGE和CO-差式光谱分析表明,Y1Lip2和VHb在重组菌中成功实现了共表达.在氧限制性条件下,VHb表达的细胞(VHb+,GS 115/9Klip2-pZPVT)与对照细胞(VHb-,GS 115/9Klip2)相比,摇瓶和10 L发酵罐中YlLip2表达量分别提高了25％和83％.此外,在低氧条件下,VHb+细胞在10 L发酵罐中的生物量也比VHb-细胞高.文中也获得了一株表达了VHb的并携带有多个lip2基因拷贝的克隆子GS 115/9Klip2-pZP VTlip2 49#,在低氧条件下,该克隆子在10L发酵罐中的最高脂肪酶水解活力达33 900 U/mL.因此,在毕赤酵母中用PsADH2启动子表达VHb,同时增加lip2基因的拷贝数是提高YlLip2表达量的一种有效策略.     

Activation of immobilized lipase in non-aqueous systems by hydrophobic poly-DL-tryptophan tethers

Many industrially important reactions use immobilized enzymes in non-aqueous, organic systems, particularly for the production of chiral compounds such as pharmaceutical precursors. The addition of a spacer molecule ("tether") between a supporting surface and enzyme often substantially improves the activity and stability of enzymes in aqueous solution. Most "long" linkers (e.g., polyethylene oxide derivatives) are relatively hydrophilic, improving the solubility of the linker-enzyme conjugate in polar environments, but this provides little benefit in non-polar environments such as organic solvents. We present a novel method for the covalent immobilization of enzymes on solid surfaces using a long, hydrophobic polytryptophan tether. Candida antarctica lipase B (CALB) was covalently immobilized on non-porous, functionalized 1-microm silica microspheres, with and without an intervening hydrophobic poly-DL-tryptophan tether (n approximately 78). The polytryptophan-tethered enzyme exhibited 35 times greater esterification of n-propanol with lauric acid in the organic phase and five times the hydrolytic activity against p-nitrophenol palmitate, compared to the activity of the same enzyme immobilized without tethers. In addition, the hydrophobic tethers caused the silica microspheres to disperse more readily in the organic phase, while the surface-immobilized control treatment was less lipophilic and quickly settled out of the organic phase when the suspensions were not vigorously mixed.     

Biocatalytic synthesis of chiral N-(2-hydroxyalkyl)-acrylamides

Abstract

The preparation of a series of novel chiral N-(2-hydroxylalkyl)-acrylamides through a lipase-catalyzed resolution of racemic alkanolamines is described. The absolute stereochemistry and enantiomeric excess of the products were determined by a modified Mosher's method. The method was validated for this particular case by the synthesis of an enantiomerically pure product. Moreover, the stereoselective behavior of the lipase in this reaction is discussed.     

Characterization of N- and O-linked glycosylation of recombinant human bile salt-stimulated lipase secreted by Pichia pastoris

Recombinant human bile salt-stimulated lipase (hBSSL) was expressed in and secreted by Pichia pastoris, an organism exploited for the large-scale production of recombinant (glyco)proteins by bioprocessing technology. The 76.3-kDa glycoprotein was associated with 75-80 Man and a small amount of GlcNAc. hBSSL has one N-glycosylation site at Asn187, which was 38-40% occupied with a Man(10)GlcNAc(2) structure defined previously in Pichia as the oligosaccharide-lipid form of Man(9)GlcNAc(2) trimmed of the middle-arm terminal alpha 1,2-Man and elongated with Man alpha 1,2Man alpha 1,6-disaccharide attached to the lower-arm core alpha 1,3-Man (Trimble et al. [1991], J. Biol. Chem., 266, 22807-22817). The C-terminal 192 residues of hBSSL contain 16 Pro-rich 11-amino-acid repeats, which include 32 Ser/Thr residues as potential O-glycosylation sites. Using hBSSL as a platform to study Pichia's O-glycosylation capabilities, we found that nearly all of these sites were occupied by mannose-containing O-glycans, whose structures, after beta-elimination and purification, were assigned by (1)H NMR and, in some cases, by linkage-specific exoglycosidases and methylation analysis. The most abundant O-glycan was alpha 1,2-mannobiitol (55%), followed by alpha 1,2-mannotriitol (16%) and mannitol (10%) and a lesser amount was alpha 1,2-mannotetraitol. Unexpectedly, Man(5) and Man(6) O-glycans were present, which had the structure Man beta 1,2Man beta 1,2Man alpha 1,2(Man alpha 1,2)(1,2)mannitol. Also a small amount of a phosphorylated Man(6) O-glycan was characterized by MALDI-TOF MS postsource decay analysis as having the reducing-end mannitol disubstituted with a glycosidically linked phosphorylated Man and an unbranched Man(4) polymer elongated from a different mannitol carbon. This is the first report of the synthesis of beta-Man- and phosphate-containing O-linked constituents on glycoproteins synthesized by P. pastoris.     

Substrate specificity of lipase B from Candida antarctica in the synthesis of arylaliphatic glycolipids

Arylaliphatic glycolipids are known for their pharmaceutical and medicinal properties. We found that a great variety of arylaliphatic esters can be synthesized from non-activated substrates like glucose or the natural occurring drug salicin using lipase B from Candida antarctica (CAL-B). However, esters based on aromatic carboxylic acids or unsaturated arylaliphatic acids, like cinnamic acid and its derivatives, which are known to display anticancer activity, could not be obtained. In this work, we performed computer-aided molecular modeling based on data of our work published recently and syntheses of new glycolipids to understand why some substances are accepted by CAL-B while some are not. For this purpose, we investigated the accessibility of the lipase binding site for the arylaliphatic acyl donors as well as the steric interactions between the aglycons of glucosides and the residues of the alcohol binding pocket in order to elucidate potentials and limitations of CAL-B for the synthesis of aromatic glycolipids.     

共表达伴侣蛋白对重组毕赤酵母产米根霉(Rhizopus oryzae)脂肪酶发酵过程的影响

[目的]通过共表达伴侣蛋白Erolp和PDI获得米根霉(Rhizopus oryzae)脂肪酶在毕赤酵母中的高效表达.[方法]利用毕赤酵母基因重组菌高密度发酵的方法,在7L发酵罐水平上分析共表达伴侣蛋白菌株(BH128)与非共表达伴侣蛋白菌株(H238)对脂肪酶表达的差异.[结果]在相同条件下,BH128发酵产酶能力高于H238,最高酶活可达到2 338.7U/mL,最大比生长速率达到0.02 h-1,最大产物比形成速率达到944.5 U/(gDCW·h),最大底物比消耗速率也能达到0.15 gmethanol/(gDCW·h),分别是H238的1.7、0.5、4.1和1.3倍,且发酵周期缩短了20h.[结论]毕赤酵母基因重组菌BH128通过共表达伴侣蛋白Ero1p和PDI,提高了米根霉脂肪酶的产量,而且缩短了发酵周期,为工业化生产奠定了基础.     

Effects of organic solvents on activity and conformation of recombinant Candida antarctica lipase A produced by Pichia pastoris

The effect of various organic solvents on the hydrolytic and esterification activities of lipase A from Candida antarctica (CALA) was investigated. Compared to the control group, the esterification and hydrolytic activities of CALA both increased with treatment of acetonitrile or acetone. However, the catalytic activity decreased after treatment with other organic solvents, especially with ethanol or ethyl acetate. Moreover, with treatment by the same organic solvents, the residual esterification activity of CALA was much higher than the hydrolytic activity for the olive oil. Results of Fourier transform-infrared spectroscopy analysis implied that the catalytic activity variance was mainly attributed to the secondary structure changes of CALA. The acetonitrile treatment could also increase the thermal and pH stability of CALA.     

Biotechnological applications of Candida antarctica lipase A: State-of-the-art

The yeast Candida antarctica produces two different lipases, lipases A and B. While lipase B (CAL-B) is probably the mostly employed hydrolase in the biocatalysis field, the use of the lipase A (CAL-A) has been rather scarce and consequently its tridimensional structure has not been elucidated yet. However, CAL-A is a useful biocatalyst with many different applications that have been described especially in the last few years. Its attractiveness results from its unique features among hydrolases: the high thermostability, allowing operation at T > 90 °C; the ability to accept tertiary and sterically hindered alcohols, which has recently been attributed to the existence of a specific aminoacidic sequence in the active site; the sn-2 recognition in hydrolysis of triglycerides; the selectivity towards trans-fatty acids; the stability in the acidic pH range. Furthermore, it is considered to be an excellent biocatalyst for the asymmetric synthesis of amino acids/amino esters, due to its chemoselectivity towards amine groups. Considering all these aspects, in the present review, the origin, the properties and the applications of the CAL-A are briefly described and discussed, pointing out the unique characteristics of this biocatalyst.     

Multipoint covalent immobilization of microbial lipase on chitosan and agarose activated by different methods

In this work Candida antarctica lipase type B (CALB) was immobilized on agarose and chitosan. The influence of activation agents (glycidol, glutaraldehyde and epichlorohydrin) and immobilization time (5, 24 and 72 h) on hydrolytic activity, thermal and alkaline stabilities of the biocatalyst was evaluated. Protein concentration and enzymatic activity in the supernatant were determined during the immobilization process. More active derivatives were attained when the enzymatic extract was first purified through dialysis. The highest activities achieved were: for agarose-glyoxyl (with glycidol), 845 U/g of gel, after 72 h of immobilization; for chitosan-glutaraldehyde and agarose-glutaraldehyde, respectively, 1209 U/g of gel and 2716 U/g of gel, after 5 h of immobilization. Thermal stability was significantly increased, when compared to the soluble enzyme: 20-fold for agarose-glyoxyl (with glycidol)-CALB, 18-fold for chitosan-glutaraldehyde-CALB and 21-fold for agarose-glutaraldehyde. The best derivative, 58-fold more stable than the soluble enzyme, was obtained when CALB was immobilized on chitosan activated in two steps, using glycidol and glutaraldehyde, 72 h immobilization time. The stabilization degree of the derivative increased with the immobilization time, an indication that a multipoint covalent attachment between enzyme and the support had really occurred.     

Continuous synthesis of alkyl ferulate by immobilized Candida antarctica lipase at high temperature

1-Pentyl, 1-hexyl and 1-heptyl ferulates were continuously synthesized at 60–90°C using a reactor system in which a column packed with ferulic acid powders and another column packed with immobilized Candida antarctica lipase particles were connected in series. Conversions greater than 0.9 were achieved for the synthesis of the 1-hexyl and 1-heptyl ferulates at 90°C. The system could be stably operated for the 1-heptyl ferulate synthesis at 90°C for at least two weeks.     

Solvent-free synthesis of glyceryl ferulate using a commercial microbial lipase

A process was optimized for the enzymatic synthesis of glyceryl ferulate with a yield of up to 96% using a vacuum-rotary evaporation strategy under following conditions: 15 mmol glycerol, 1.5 mmol ethyl ferulate, 170 mg Candida antarctica lipase, at 60°C for 10 h and under a vacuum of 10 mm Hg. The immobilized lipase can be used 10 times.     

Expression of carboxylesterase and lipase genes in rat liver cell-types

Approximately 80% of the body vitamin A is stored in liver stellate cells with in the lipid droplets as retinyl esters. In low vitamin A status or after liver injury, stellate cells are depleted of the stored retinyl esters by their hydrolysis to retinol. However, the identity of retinyl ester hydrolase(s) expressed in stellate cells is unknown. The expression of carboxylesterase and lipase genes in purified liver cell-types was investigated by real-time PCR. We found that six carboxylesterase and hepatic lipase genes were expressed in hepatocytes. Adipose triglyceride lipase was expressed in Kupffer cells, stellate cells and endothelial cells. Lipoprotein lipase expression was detected in Kupffer cells and stellate cells. As a function of stellate cell activation, expression of adipose triglyceride lipase decreased by twofold and lipoprotein lipase increased by 32-fold suggesting that it may play a role in retinol ester hydrolysis during stellate cell activation.