Effects of the Reaction Conditions on the Enantio-Selective Esterification Using Candiada Cylindracea Lipase

Parameters influencing the synthetic activity and enantioselectivlty of the Candida cylindracea lipase were investigated. The test reaction was presented through the enantioselective esterification of 2—substituted propionic acids in organic solvents. It was found that both the activity and the enantioselectivity of the lipase could be most effectively influenced by solvent engineering. Since the solvent has a different effect on activity and enantioselectivity of the lipase, selection of the most suitable solvent or solvent mixture is an important optimization question.     

Lipase-Catalyzed Resolution of Isopropylidene Glycerol: Effect of Co-Solvents on Enantioselectivity

The resolution of 1,2-O-isopropylidene glycerol via enzyme catalyzed hydrolysis of the corresponding benzoic ester was investigated. Using lipase PS from Pseudomonas cepacia, we determined the influence of organic co-solvents on the activity and enantioselectivity of the enzyme. The performance of the lipase was correlated to the nature (logP, ε,μ and the percentage of the organic media. The highest enzymatic activity was found in solvents completely miscible or completely immiscible in water. The enzyme stereoselectivity was inversely related to the logP of the solvent.     

Lipase-Catalyzed Resolution of Isopropylidene Glycerol: Effect of Co-Solvents on Enantioselectivity

The resolution of 1,2-O-isopropylidene glycerol via enzyme catalyzed hydrolysis of the corresponding benzoic ester was investigated. Using lipase PS from Pseudomonas cepacia, we determined the influence of organic co-solvents on the activity and enantioselectivity of the enzyme. The performance of the lipase was correlated to the nature (logP, ?,μ and the percentage of the organic media. The highest enzymatic activity was found in solvents completely miscible or completely immiscible in water. The enzyme stereoselectivity was inversely related to the logP of the solvent.     

The lid is a structural and functional determinant of lipase activity and selectivity

In several lipases access to the enzyme active site is regulated by the position of a mobile structure named the lid. The role of this region in modulating lipase function is reviewed in this paper analysing the results obtained with three different recombinant lipases modified in the lid sequence: Candida rugosa lipase isoform 1 (CRL1), Pseudomonas fragi lipase (PFL) and Bacillus subtilis lipase A (BSLA). A CRL chimera enzyme obtained by replacing its lid with that of another C. rugosa lipase isoform (CRL1LID3) was found to be affected in both activity and enantioselectivity in organic solvent. Variants of the PFL protein in which three polar lid residues were replaced with amino acids strictly conserved in homologous lipases displayed altered chain length preference profile and increased thermostability. On the other hand, insertion of lid structures from structurally homologous enzymes into BSLA, a lipase that naturally does not possess such a lid structure, caused a reduction in the enzyme activity and an altered substrate specificity. These results strongly support the concept that the lid plays an important role in modulating not only activity but also specifity, enantioselectivity and stability of lipase enzymes.     

离子液体中固定化脂肪酶催化拆分（±）-薄荷醇

以自制的平均粒径为4．5um磁性高分子微球为载体,采用离子交换法固定化Candida rugosa脂肪酶,催化（±）-薄荷醇的酯化反应,以考察反应时间、pH、反应温度、水活度等因素对酶的固定化以及酯化反应的影响。在固定化反应150min、pH5．0、酯化反应温度30℃、固定化酶的水活度为0．78的条件下,所制备的固定化脂肪酶在离子液体[bmim]PF6中催化拆分（±）-薄荷醇的效果最佳,与游离酶相比固定化脂肪酶的立体选择性有很大的提高,对映体过量率可达93％,对映体选择值为35。     

Lipase-catalysed kinetic resolution of secondary alcohols with improved enantioselectivity in propylene carbonate

The lipase-catalysed kinetic resolution of secondary alcohols was studied using vinyl acetate as acyl donor in propylene carbonate. Propylene carbonate offers an environmentally friendly alternative in contrast to conventional solvents. Several different lipases were investigated, and Candida antarctica lipase B (CALB) exhibited better results for all the substrates. It was shown that the addition of non-reactive base triethylamine and silver oxide to the reaction mixture enhanced the reaction rate and enantioselectivity. With propylene carbonate as solvent, CALB could be recycled without significant activity or enantioselectivity losses.     

Wheat germ lipase catalyzed kinetic resolution of secondary alcohols in non-aqueous media

The lipase from wheat germ was used for the kinetic resolution of secondary alcohols. It has the opposite enantioselectivity against the Kazlauskas rule and acts as an anti-Kazlauskas catalyst. The effect of initial water activity, organic solvent, acyl donor and temperature were investigated. Wheat germ lipase had a high activity and enantioselectivity only in n-hexane with a high initial water activity (α_w = 0.97), especially with 1-phenylethanol (C 32%, E > 200). Its performance changed little with the chain length of acyl donor and temperature. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

HBV整合片段对人PCNA基因启动子的调控

Ｈ７Ｃ是从一例肝癌组织中克隆得到的ＨＢＶ整合片段,其中保留有ｐｒｅＳ２基因的启动子及Ｃ端缺失的ｐｒｅＳ／Ｓ蛋白的阅读框架,我们用共转染方法研究了该整合片段地增殖细胞核抗原启动子的影响。结合表明在ＨｅｐＧ２细胞中,含有上述ＨＢＶ整合片段ＤＮＡ的质粒ＰＫＳＨ７Ｃ－ＨｐａＩ能以剂量依赖方式激活ＰＣＮＡ启动子。对ＳＶ４０启动子而言,ＰＣＮＡ启动子有１－２倍的更高激活。而破坏ｐｒｅＳ／Ｓ表达的两个亚克隆ＰＫ     

Optimizing lipase activity, enantioselectivity, and stability with medium engineering and immobilization for beta-blocker synthesis.

Lipase from Pseudomonas cepacia showed poor activity and moderate enantioselectivity (E) in pure aqueous systems for hydrolysis of a racemic mixture (+/-)-1-chloro-2-acetoxy-3-(1-naphthyloxy)-propane, which is a potential intermediate for beta-blocker synthesis. However, addition of polar organic solvents to the reaction can change both the activity and the enantioselectivity for this chiral reaction significantly. It was observed, in general, that the activity increases and the enantioselectivity decreases with the increase in the polarity of the organic solvent added to the medium. Among the six solvents chosen (i.e., dimethylsulfoxide [DMSO], 1, 4-dioxane, dimethylformamide [DMF], acetone, 1-propanol, and tetrahydrofuran [THF]), maximum activity and minimum enantioselectivity was obtained with DMSO, whereas minimum activity and maximum enantioselectivity was obtained with THF as the cosolvents. In the subsequent studies, native or polyethylene glycol (PEG)-modified lipase was immobilized by entrapping in Caalginate gel beads. In a fixed-bed continuous reactor containing these catalyst beads, the enzyme was found to be at least three times more enantioselective than the native form in a batch reactor. This fixed-bed reactor with the beads could be operated with high concentration of acetone (33% v/v) for about 1 month without a significant loss of enzyme activity and enantioselectivity.     

有机介质中脂肪酶催化外消旋苯甘氨酸甲酯的对映体选择性氨解反应

由水解酶催化的酯的对映体选择性水解和醇解反应 ,已在外消旋物质的拆分中得到广泛应用[1 ] 。近年来的一些研究表明 ,某些水解酶还可催化一些非天然酰基受体的转化 ,如过氧化氢、烷基胺、联胺和氨等。这些非天然酰基受体的转化反应在多肽的合成及手性化合物的拆分中显示出巨大的应用前景。其中 ,以氨为酰基受体的酶促氨解反应 ,是继酶促对映体选择性水解、酯化及转酯反应之后的另一制备光学纯化合物的新反应[2 ] 。目前国际上对这一新反应的研究尚属起步 ,国内未见有对该反应研究的报道。(Ｄ ,Ｌ) 苯甘氨酸是半合成 β 内酰胺类抗生素的重…     

Substitution of Val72 residue alters the enantioselectivity and activity of Penicillium expansum lipase

Error-prone PCR was used to create more active or enantioselective variants of Penicillium expansum lipase (PEL). A variant with a valine to glycine substitution at residue 72 in the lid structure exhibited higher activity and enantioselectivity than those of wild-type PEL. Site-directed saturation mutagenesis was used to explore the sequence-function relationship and the substitution of Val72 of P. expansum lipase changed both catalytic activity and enantioselectivity greatly. The variant V72A, displayed a highest enantioselectivity enhanced to about twofold for the resolution of (R, S)-naproxen (E value increased from 104 to 200.7 for wild-type PEL and V72A variant, respectively). In comparison to PEL, the variant V72A showed a remarkable increase in specific activity towards p-nitrophenyl palmitate (11- and 4-fold increase at 25 and 35?°C, respectively) whereas it had a decreased thermostability. The results suggest that the enantioselective variant V72A could be used for the production of pharmaceutical drugs such as enantiomerically pure (S)-naproxen and the residue Val 72 of P. expansum lipase plays a significant role in the enantioselectivity and activity of this enantioselective lipase.     

Esterification of 2-methylalkanoic acids Catalysed by Lipase from Candida rugosa: Enantioselectivity as a Function of water Activity and Alcohol Chain Length

Esterifications catalysed by immobilised lipase from Candida rugosa (CRL) in cyclohexane at constant water activity (a_w = 0.76) were studied using 2-methyl substituted octa-, nona- or decanoic acids and n-alcohols of varying chain length as substrates. The importance of controlling the water activity and choosing the right alcohol for obtaining maximum enantioselectivity is demonstrated. The immobilised lipase was easily recovered without loss of activity and enantioselectivity.     

Studies of the Heterogeneity of a Candida cylindracea (rugosa) Lipase: Monitoring of Esterolytic Activity and Enantioselectivity by Chiral Liquid Chromatography

A method for the determination of lipase activity in terms of rate and enantioselectivity of hydrolysis of a chiral ester substrate has been developed. When this method was applied to fractions, isolated from preparative, column chromatographic separations (anion-exchange, molecular sieve) of the lipase, significant differences in enantioselectivity (E) was found between the fractions. The highest enantioselectivity was found in the first main peak obtained on DEAE-Sepharose chromatography, meaning that the enzyme with the highest isoelectric point shows the highest esterolytic enantioselectivity.

The experimental results are discussed in the light of some earlier reported results and with respect to the possible existence of subunit aggregates and isoenzymes.     

Lipase‐Catalyzed Kinetic Resolution of Novel Antifungal N‐Substituted Benzimidazole Derivatives

A series of new N‐substituted benzimidazole derivatives was synthesized and their antifungal activity against Candida albicans was evaluated. The chemical step included synthesis of appropriate ketones containing benzimidazole ring, reduction of ketones to the racemic alcohols, and acetylation of alcohols to the esters. All benzimidazole derivatives were obtained with satisfactory yields and in relatively short times. All synthesized compounds exhibit significant antifungal activity against Candida albicans 900028 ATCC (% cell inhibition at 0.25 μg concentration > 98%). Additionally, racemic mixtures of alcohols were separated by lipase‐catalyzed kinetic resolution. In the enzymatic step a transesterification reaction was applied and the influence of a lipase type and solvent on the enantioselectivity of the reaction was studied. The most selective enzymes were Novozyme SP 435 and lipase Amano AK from Pseudomonas fluorescens (E > 100). Chirality 28:347–354, 2016. © 2016 Wiley Periodicals, Inc.     

Resolution of racemic ketoprofen in organic solvents by lipase from Burkholderia cepacia G63

A lipase from the Burkholderia cepacia strain G63 immobilized on resin was used for the resolution of ketoprofen. To study its catalytic properties in enantioselective esterication, different alcohols and solvents were tested to select the most suitable acyl acceptor and reaction medium. Compared with the low activity of the free lipase, the enzyme activity and E value of the immobilized lipase were significantly enhanced. The enantioselectivity of the immobilized lipase could also be markedly improved by adding a small amount of 18-crown-6. RSM was employed to optimize the reaction parameters. The optimal reaction conditions were: reaction time 22.50 h, additives dosage 0.4322 g (0.33 mmol/mL), and substrate molar ratio 54.11:1. Under optimal conditions, the maximal E value was up to 10.01, which exhibited a better enantioselectivity than some commercial lipases, such as Novozym 435, Lipozyme RM IM and LipozymeTL IM.     

Partially purified Carica papaya lipase: a versatile biocatalyst for the hydrolytic resolution of (R,S)-2-arylpropionic thioesters in water-saturated organic solvents

With the hydrolytic resolution of (R,S)-naproxen 2,2,2-trifluoroethyl thioesters in water-saturated isooctane as a model system, improvements of the specific lipase activity and thermal stability were found when a crude Carica papaya lipase (CPL) was partially purified and employed as the biocatalyst. The partially purified Carica papaya lipase (PCPL) was furthermore explored as an effective enantioselective biocatalyst for the hydrolytic resolution of (R,S)-profen thioesters in water-saturated organic solvents. The kinetic analysis in water-saturated isooctane indicated that both acyl donor and acyl acceptor have profound influences on the lipase activity, E-value, and enantioselectivity. Inversion of the enantioselectivity from (S)- to (R)-thioester was found for (R,S)-fenoprofen and (R,S)-ketoprofen thioesters that contained a bulky substituent at the meta-position of 2-phenyl moiety of the acyl part. Kinetic constants for the acylation step were furthermore estimated for elucidating the kinetic data and postulating an active site model. The thermodynamic analysis indicated that the enantiomer discrimination was driven by the difference of activation enthalpy (DeltaDeltaH) and that of activation entropy (DeltaDeltaS), yet the latter was dominated for most of the reacting systems. The postulated active site model was supported from the variation of DeltaDeltaH and DeltaDeltaS with the acyl moiety, in which a good linear enthalpy-entropy compensation relationship was also illustrated. A comparison of the performances between Candida rugosa lipase (CRL) and PCPL indicated that PCPL was superior to CRL in terms of the better thermal stability, similar or better lipase activity for the fast-reacting substrate, time-course-stability, and lower enzyme cost.     

Resolution of 1,3-dioxolane derivatives using the lipase from an Acinetobacter junii SY-01

Acinetobacter junii SY-01 producing a lipase enantioselectively hydrolyzing 1,3-dioxolane derivatives was isolated from water sludge sample and the effect of solvent, acyl donor, vinyl acetate concentration, substrate concentration, operating temperature and immobilization on activity and enantioselectivity was studied for the resolution of 1,3-dioxolane derivatives through transesterification reaction using a lipase from the isolated strain. Best selectivity was obtained at lower substrate concentration (3–5 mM), higher vinyl acetate concentration (500–1000 mM) and lower temperature (30–40 °C) in the reaction mixture. Lipase immobilized onto Accurel MP-1000 (micro-porous polypropylene) gave the best results and the reactivity was about 29-fold higher than the free enzyme without the decrease of enantioselectivity. Resolution of 1,3-dioxolane derivatives was carried out in flask scale containing 100 ml solvents using the lipase immobilized onto Accurel MP-1000. In this reaction, the yield and enantiomeric excess of the remaining (2R, 4S)-alcohol were 31.2% and 98.2%, respectively. This result suggests that it can be used as an alternative method, compared to the present synthetic method, for the production of optically pure (2R, 4S)-itraconazole.     

Esterification In Organic Solvents: Selection Of Hydrolases And Effects Of Reaction Conditions

Fifty different hydrolases were screened for retention of high esterification activity in an organic solvent with citronellol as substrate. Although 22 hydrolases were very active as catalysts in the organic solvent, lipase from Candida cylindracea (lipase OF 360) was selected for further examination of the effects of reaction conditions on enzyme activity, with regard to catalyst availability and activity retention after immobilization. When the enzyme was entrapped in hydrophobic polyurethane gels, water-saturated isooctane was found to be the most suitable solvent, whereas polar solvents caused reversible catalyst inactivation. Entrapment significantly enhanced the operational stability of the lipase in the organic solvent.     

Effect of the enzyme form on the activity,stability and enantioselectivity of lipoprotein lipase in toluene

Summary The properties of various forms of lipoprotein lipase (powder, adsorbed onto Celite, covalently linked to PEG, with additives) in toluene were investigated. The form of the enzyme dramatically influenced the activity and stability of the enzyme with the highest activity obtained with PEG-lipase and the highest stability with Celite-immobilized lipase. By contrast, the enantioselectivity was only marginally affected.     

Esterification of 2-methylalkanoic acids Catalysed by Lipase from Candida rugosa: Enantioselectivity as a Function of water Activity and Alcohol Chain Length

Esterifications catalysed by immobilised lipase from Candida rugosa (CRL) in cyclohexane at constant water activity (a_w = 0.76) were studied using 2-methyl substituted octa-, nona- or decanoic acids and n-alcohols of varying chain length as substrates. The importance of controlling the water activity and choosing the right alcohol for obtaining maximum enantioselectivity is demonstrated. The immobilised lipase was easily recovered without loss of activity and enantioselectivity.