Complementary selectivity to (S)-1-phenyl-1,2-ethanediol-forming Candida parapsilosis by expressing its carbonyl reductase in Escherichia coli for (R)-specific reduction of 2-hydroxyacetophenone

An (R)-specific carbonyl reductase from Candida parapsilosis CCTCCM203011 (CprCR) was shown to catalyze the asymmetric reduction of 2-hydroxyacetophenone to (R)-1-phenyl-1,2-ethanediol (PED), which is a critical chiral building block in organic synthesis. The gene (rcr) encoding CprCR was cloned based on the amino acid sequences of tryptic fragments of the enzyme. Sequence analysis revealed that rcr is comprised of 1008 nucleotides encoding a 35 977 Da polypeptide, and shares similarity to proteins of the medium-chain dehydrogenase/reductase (MDR) superfamily. Recombinant rcr expressed in Escherichia coli showed a specific 2-hydroxyacetophenone-reducing activity. Using rcr expressing cells, (R)-PED was obtained by asymmetric reduction, which is complementary in enantiomeric configuration to (S)-PED obtained by using whole cells of C. parapsilosis. After optimization of reaction conditions, (R)-PED was produced at 95.5% enantiomeric excess with a yield of 92.6% when isopropanol was used for cofactor regeneration.     

Cloning and expression of the gene encoding (R)-specific carbonyl reductase from Candida parapsilosis CCTCC M203011

The gene which encodes (R)-specific carbonyl reductase (rCR) from Candida parapsilosis CCTCC M203011 was cloned, sequenced and compared with genes from the GenBank. The results indicated that rCR gene was 1011 bp, encoding a protein of 336 amino acids with a molecular weight of 35.9 kDa, and its nucleotide sequence showed 99% similarity to those of other members of the alcohol dehydrogenase superfamily. The rCR gene could express in recombinant strain Escherichia coli JM 109, and the expression plasmid could produce (R)-1-pheny-1,2-ethanediol (100% e.e., 80.14% yield) fromβ-hydroxyacetophenone without any additive to regenerate NAD+ from NADH.     

近平滑假丝酵母(R)-专一性羰基还原酶基因的克隆与表达*

根据纯化得到的（R）-专一性羰基还原酶（rCR）蛋白质测序结果推导出的核苷酸序列设计引物,以筛选得到的近平滑假丝酵母（Candida parapsilosis）CCTCC M203011基因组为模板,通过PCR扩增目的片段,克隆后测序。核苷酸序列测定结果表明rcr基因全长1011bp,共编码336个氨基酸,分子量为35．9kD。将序列递交NCBI比对,与醇脱氢酶超家族成员序列同源性达99％。在大肠杆菌（Escherichia coli）JM109中表达rcr基因,重组菌可还原β-羟基苯乙酮得到（R）-苯乙二醇,光学纯度为100％e．e,摩尔产率为80．4％,在反应体系中无需外加辅酶再生系统即可完成转化。     

一种新型(S)-羰基还原酶的克隆及其功能表达

【目的】从近平滑假丝酵母(Candida parapsilosis CCTCC M203011)基因组中钓取新型(S)-羰基还原酶基因(scrⅡ),对其生物转化手性醇的功能进行了验证。【方法】采用PCR的方法,从C.parapsilosis基因组中扩增出一段可能的羰基还原酶基因scrⅡ。以构建的重组菌Escherichia coli BL21/pET28a-scrⅡ为生物催化剂,2-羟基苯乙酮为底物进行催化反应,经HPLC分析,计算终产物的光学纯度和产率,确定了转化反应的最适温度和pH值。【结果】scrⅡ基因全长为840bp,编码279个氨基酸,与已报道的(S)-羰基还原酶基因scr的一致性为85%。氨基酸序列分析表明SCRⅡ具有典型短链醇脱氢酶的功能域:辅酶结合区域Thr40-Gly41-(X)3-Gly45-X-Gly47和催化三联体结构Ser172-(X)n-Tyr187-(X)3-Lys191。在30℃,0.1mmol/LIPTG的诱导下,(S)-羰基还原酶(SCRⅡ)在E.coli中过量表达。以10%(w/v)的重组菌为催化剂,高浓度(6g/L)2-羟基苯乙酮为底物,在最适反应温度35℃和pH5.5的条件下,转化产物(S)-苯基乙二醇的光学纯度高达99.1%e.e.,产率为89.6%。与(S)-羰基还原酶SCR相比较,底物浓度提高了一倍,产物的光学纯度和产率分别提高了10%和28%。【结论】采用分子克隆技术分离出新型羰基还原酶SCRⅡ的编码基因,该酶的发现为手性醇的高效制备奠定了坚实的研究基础。     

A novel NADH-dependent carbonyl reductase with unusual stereoselectivity for (R)-specific reduction from an (S)-1-phenyl-1,2-ethanediol-producing micro-organism: purification and characterization

AIMS: To purify and characterize the (R)-specific carbonyl reductase from Candida parapsilosis; to compare the enzyme with other stereospecific oxidoreductases; and to develop an available procedure producing optically active (R)-1-phenyl-1,2-ethanediol (PED). METHODS AND RESULTS: An (R)-specific carbonyl reductase was found and purified from C. parapsilosis through four steps, including blue-sepharose affinity chromatography. The relative molecular mass of the enzyme was estimated to be 35 kDa on gel-filtration chromatography and 37.5 kDa on Sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purified enzyme catalysed the reduction of various ketones, including alkyl and aromatic ketones, and was specific to short-chain and medium-chain alkyl ketones. The enzyme activity was inhibited by divalent ion of CuSO(4) and FeSO(4), whereas zincum ion stimulated its activity. For catalysing reduction, the enzyme performed maximum activity at pH 6.0 and the optimum temperature was 45 degrees C. The carbonyl reductase catalysed asymmetric reduction of beta-hydroxyacetophenone to the corresponding (R)-PED with the optical purity of 100% enantiomeric excess (e.e.). By analysing its partial amino acid sequences, the enzyme was proposed to be a novel stereospecific carbonyl reductase. CONCLUSIONS: The purified carbonyl reductase showed unusual stereospecificity and catalysed the NADH-dependent reduction of beta-hydroxyacetophenone to (R)-PED. The enzyme was different from other stereoselective oxidoreductases in catalytic properties. SIGNIFICANCE AND IMPACT OF THE STUDY: The discovery of (R)-specific oxidoreductase exhibiting unusual stereospecificity towards hydroxyl ketone is valuable for the synthesis of both enantiomers of useful chiral alcohols, and provides research basis for the achievement of profound knowledge on the relationship between structure and catalytic function of (R)-specific enzymes, which is meaningful for the alteration of stereospecificity by molecular methods to obtain the enzymes with desired stereospecificity.     

Cloning and expression of the gene encoding (R)-specific carbonyl reductase from Candida parapsilosis CCTCC M203011

The gene which encodes (R)-specific carbonyl reductase (rCR) from Candida parapsilosis CCTCC M203011 was cloned, sequenced and compared with genes from the GenBank. The results indicated that rCR gene was 1011 bp, encoding a protein of 336 amino acids with a molecular weight of 35.9 kDa, and its nucleotide sequence showed 99% similarity to those of other members of the alcohol dehydrogenase superfamily. The rCR gene could express in recombinant strain Escherichia coli JM109, and the expression plasmid could produce (R)-1-pheny-1,2-ethanediol (100% e.e., 80.14% yield) from β-hydroxyacetophenone without any additive to regenerate NAD⁺ from NADH. __________ Translated from Microbiology, 2006, 33(4): 112–118 [译自: 微生物学通报]     

Coexpression of a carbonyl reductase and glucose 6-phosphate dehydrogenase in Pichia pastoris improves the production of (S)-1-phenyl-1,2-ethanediol

Abstract

To develop an efficient biocatalyst to produce optically active (S)-phenyl ethanediol (PED), a carbonyl reductase SCRII and glucose 6-phosphate dehydrogenase were coexpressed intracellularly in Pichia pastoris. The recombinant enzyme PpSCRII was purified with a specific activity of 8.32 U mg^?1, over 36% higher than that of Escherichia coli SCRII. The recombinant cells P. pastoris/SCRIIG catalyzed the reduction of 2-hydroxyacetophenone to give (S)-PED with optical purity of >99% in a yield of 96.3%. The yield was improved by 19.9% and 25.7% over E. coli BL21/SCRII and Candida parapsilosis, respectively, when the reaction duration was shorted from 48 h to 24 h. When using glucose 50 g L^?1 as co-substrate, these P. pastoris/SCRIIG cells could be reused ten times and the optical purity and yield of (S)-PED kept at >99% enantiomeric excess and >85%, respectively.     

（R）与（S）-羰基还原酶偶联一步法制备（S）-苯乙二醇

【目的】通过 (R) - 和(S) -羰基还原酶在大肠杆菌中偶联,实现了一步法制备（S）-苯乙二醇的生物转化过程。【方法】将来源于近平滑假丝酵母(Candida parapsilosis CCTCC M203011)的(R)- 羰基还原酶基因（rcr）和(S) -羰基还原酶基因（scr）串联于共表达载体pETDuetTM-1上。重组质粒pETDuet-rcr-scr转化稀有密码子优化型菌株Escherichia coli Rosetta,获得酶偶联重组菌株E. coli Rosetta / pETDuet-rcr-scr。当重组菌体培养至OD600 0.6-0.8时,添加终浓度1 mmol/L IPTG,30℃诱导蛋白表达10 h。【结果】SDS-PAGE结果表明(R)- 和(S) -羰基还原酶均明显表达,它们的相对分子质量分别为37 kDa和30 kDa。重组菌生物转化结果表明：在pH7.0的磷酸缓冲液中,添加5 mmol/L Zn2+时,获得产物(S)-苯乙二醇,产物光学纯度为91.3% e.e.,产率为75.9%。【讨论】采用分子重组技术成功整合了两种氧化还原酶的催化功能,实现了(S)- 苯乙二醇的一步法转化,为简化手性醇制备途径提供了一条崭新的思路。     

(R)-、(S)-羰基还原酶在酿酒酵母中的表达和亚细胞定位

【目的】将增强型荧光蛋白标记的(R)-和(S)-羰基还原酶于酿酒酵母(Saccharomyces cerevisiae W303-1A)细胞中表达,分析荧光蛋白表达谱,确定两种酶在细胞中的功能分布和亚细胞定位。【方法】采用SOE-PCR法克隆出增强型荧光蛋白与(R)-和(S)-羰基还原酶的融合基因,构建到真核表达载体pYX212中,电击转化酵母细胞,以荧光蛋白为筛选标志,观察两种酶在酵母细胞中的表达和分布。【结果】激光扫描共聚焦显微观察表明(R)-和(S)-羰基还原酶多定位于细胞内膜和细胞质中稳定表达,少数成点状分布于细胞中央。根据荧光强度可知(S)-羰基还原酶的表达水平明显高于(R)-羰基还原酶。生物转化结果显示融合型(R)-和(S)-羰基还原酶催化底物2-羟基苯乙酮,分别获得(R)-和(S)-苯基乙二醇,前者产物的光学纯度和产率为86.6%和70.4%,后者产物的光学纯度和产率分别为92.3%和81.8%。【讨论】荧光蛋白与酶的融合没有改变靶蛋白的分子构象与生物活性,酿酒酵母工程菌较重组大肠杆菌具有更明显的生物功能优势,该研究为羰基还原酶蛋白的功能表达调控与亚细胞定位的可视化研究奠定了坚实的基础。     

固定化细胞生物催化制备(S)-苯基乙二醇的研究

采用海藻酸钙固定化细胞方法能有效提高近平滑假丝酵母催化(RS)-苯基乙二醇(S-PED)去消旋化反应的稳定性,在优化反应条件下,固定化细胞催化批次由游离细胞的2次提高至6次,产物可保持高光学纯度(>95%)、高产率(>85%)。与化学合成液晶掺杂剂S-1011的理化特性对比结果表明,生物催化法制备获得的(S)-PED能够替代化学法制备的相同产品。     

羰基还原酶产生菌Candida ontarioensis制备(R)-2-氯-1-(3-氯苯基)乙醇

从实验室保藏的菌株中筛选获得Candida sp.PT2A,并通过18S rRNA鉴定为安大略假单胞菌Candida on-tarioensis。对C.ontarioensis不对称还原合成(R)-2-氯-1-(3-氯苯基)乙醇的发酵产酶条件和转化条件进行优化,确定了最适的发酵产酶条件和转化条件:温度30℃,初始pH 6.5,摇床转速180 r/min,菌体质量浓度200 g/L。采用2-氯-1-(3-氯苯基)乙酮质量浓度为10 g/L时,还原反应72 h,(R)-2-氯-1-(3-氯苯基)乙醇的e.e.值为99.9%,产率为99%;底物质量浓度提高至30 g/L时,产率下降为84.3%。采用十六烷基三甲基溴化铵(CTAB)对C.ontarioensis细胞进行通透性处理(CTAB g/L,4℃下处理20 min),在30 g/L底物下反应24 h,产物的e.e.和产率分别达到99.9%和97.5%。     

(R)-专一性羰基还原酶与甲酸脱氢酶基因在大肠杆菌中的共表达

【目的】通过研究(R)-专一性羰基还原酶和甲酸脱氢酶基因在大肠杆菌中的共表达,解决较高底物浓度下不对称转化反应的辅酶限制性问题。【方法】分别以近平滑假丝酵母(Candida parapsilosis CCTCC M203011)和博伊丁假丝酵母(Candida boidinii)基因组为模板,采用PCR方法扩增得到(R)-专一性羰基还原酶基因（rcr）和甲酸脱氢酶基因（fdh）,克隆到共表达载体pETDuetTM-1中进行表达。共表达质粒pETDuet-rcr-fdh转化稀有密码子优化型菌株E. coli Rosetta,获得重组菌E. coli Rosetta/pETDuet-rcr-fdh。【结果】在30℃条件下,经1 mmol/L IPTG诱导表达8 h后,SDS-PAGE结果表明(R)-专一性羰基还原酶和甲酸脱氢酶均有明显的表达,其相对分子质量分别为37 kDa和 40 kDa。以高浓度(6 g/L)2-羟基苯乙酮为底物时,0.1 g重组菌细胞催化产生(R)-苯基乙二醇,产物光学纯度为100% e.e.,产率为85.9%。与无甲酸脱氢酶参与辅酶再生循环的重组菌E. coli Rosetta/pETDuet-rcr相比,产物光学纯度和产率分别提高了1.3和2.7倍。【讨论】该重组菌的构建为基因工程法生物合成(R)-苯基乙二醇的工业应用奠定了基础。     

mRNA翻译起始区二级结构优化提高(R)-羰基还原酶的表达及催化效率

为了提高近平滑假丝酵母(Candida parapsilosis CCTCC M203011)的(R)-羰基还原酶在大肠杆菌中的表达水平及催化效率,对酶编码基因mRNA翻译起始区中+1～+78区进行二级结构的优化,并构建了相应的突变体。优化后mRNA翻译起始区的发夹结构明显减少,自由能显著下降(由原始的?9.5kcal/mol降至?5.0kcal/mol),使酶蛋白的表达水平及粗酶比活力分别比优化前提高了4～5倍和61.9%。在高底物浓度(5.0g/L2-羟基苯乙酮)下,优化突变株不对称转化效率较高,产物(R)-苯基乙二醇的光学纯度和产率分别为93.1%e.e.和81.8%,比优化前提高了27.5%和40.5%。研究结果表明:优化mRNA翻译起始区的二级结构,克服蛋白翻译启动的空间位阻,不仅能促进翻译的顺利进行,使目标蛋白得到高效表达,而且有利于蛋白空间结构的正确折叠,有效提高酶蛋白活力及生物催化功能。     

Kinetics of acetophenone reduction to (R)-1-phenylethanol by a whole-cell Pichia capsulata biocatalyst

(R)-1-phenylethanol is an important substance in fragrance and flavor industry. In this work, the reduction of acetophenone to (R)-1-phenylethanol in an aqueous medium was examined using Pichia capsulata as a whole-cell biocatalyst. Progress curve and initial rate measurements were used to obtain kinetic data. The experiments were carried out at pH 5, temperature of 25?°C, and in the presence of glucose to maintain in vivo regeneration of NADH. A model of the reversible reaction kinetics considering the substrate inhibition of the forward reaction was developed. Five kinetic parameters of this model were determined by a simultaneous fit of a reaction rate dependence on substrate concentration and 18 substrate and product concentration progress curves with very good accuracy. Equilibrium constant of the reaction and equilibrium conversion of acetophenone to (R)-1-phenylethanol were 13.7 and 93%, respectively.     

响应面法优化热带假丝酵母104菌株产羰基还原酶发酵培养基

通过菌种优选得到产高选择性羰基还原酶的热带假丝酵母(Candida tropicalis)104菌株,可不对称还原1-(3,5-二三氟甲基)苯基乙酮生成(S)-1-(3,5-二三氟甲基)苯基乙醇,对映体过量值>99.9%。采用部分因子实验设计考察发酵培养基中各组分对产酶的影响,结果表明,酵母粉、葡萄糖和NH4Cl浓度对产酶影响显著。继而采用最陡爬坡路径逼近最大响应区域,并结合中心组合实验和响应面对3个显著性因素进行分析,得到优化的发酵培养基组成:葡萄糖47.14g/L,酵母粉13.25g/L,NH4Cl2.71g/L,MgSO4·7H2O0.4g/L,KH2PO41g/L和K2HPO41g/L。采用该优化培养基,供试菌株的羰基还原酶活力达851.13U/L,较优化前提高了65.2%。     

Purification and Characterization of a (R)-1-Phenyl-1,3-propanediol-producing Enzyme from Trichosporon fermentans AJ-5152 and Enzymatic (R)-1-Phenyl-1,3-propanediol Production

An (R)-1-phenyl-1,3-propanediol-producing enzyme was purified from Trichosporon fermentans AJ-5152. It was NADPH-dependent and converted 3-hydroxy-1-phenylpropane-1-one (HPPO) to (R)-1-phenyl-1,3-propanediol [(R)-PPD] with anti-Prelog’s specificity. It showed maximum activity at pH 7.0 and 40 °C. Its K _m and V _max values toward HPPO were 20.1 mM and 3.4 μmol min^?1 mg protein^?1 respectively. The relative molecular weight of the enzyme was estimated to be 68,000 on gel filtration and 32,000 on SDS-polyacrylamide gel electrophoresis. An (R)-PPD-producing reaction using the (R)-PPD-producing enzyme and an NADPH recycling system was carried out by successive feeding of HPPO. A total (R)-PPD yield of 8.9 g/l was produced in 16 h. The molar yield was 76%, and the optical purity of the (R)-PPD produced was over 99% e.e.     

Preparation of an (−)-ephedrine intermediate through asymmetric reduction of 1-phenyl-1,2-propanedione by anaerobically pre-treated baker’s yeast

The influence of using an anaerobically pre-treated baker’s yeast on the reduction of (R)-1-hydroxy-1-phenyl-2-propanone (2) and (S)-2-hydroxy-1-phenyl-1-propanone (4) was investigated in comparison with non-pre-treated baker’s yeast reduction (control experiments). We observed that there is no significant difference between the anaerobically pre-treated yeast and the control experiment on the reduction rates of 2. On the other hand, the rate of reduction of 4 mediated by the anaerobically pre-treated yeast is much slower than the aerobic experiment. To improve the regioselectivity of reduction of 1-phenyl-1,2-propanedione (1), a baker’s yeast suspension was pre-treated with nitrogen (60 min) followed by oxygen (20 min), to give 2 in 28–31% of yields (96% e.e.) and 3 in 42–62% (>99% e.e.) after 75–90 min of reaction.     

Carbonyl reductase SCRII from Candida parapsilosis catalyzes anti-Prelog reaction to (S)-1-phenyl-1,2-ethanediol with absolute stereochemical selectivity

An (S)-specific carbonyl reductase (SCRII) was purified to homogeneity from Candida parapsilosis by following an anti-Prelog reducing activity of 2-hydroxyacetophenone. Peptide mass fingerprinting analysis shows SCRII belongs to short-chain dehydrogenase/reductase family. Its coding gene was cloned and overexpressed in Escherichia coli. The recombinant SCRII displays the similar enzymatic characterization and catalytic properties to SCR. It catalyzes the enantioselective reduction of 2-hydroxyacetophenone to (S)-1-phenyl-1,2-ethanediol with excellent optical purity of 100% in higher yield than SCR. Based on the sequence-structure alignment, several single-point mutations inside or adjacent to the substrate-binding loop or active site were designed. With respect to recombinant native SCRII, the A220 and E228 mutations almost lost enantioselectivity towards 2-hydroxyacetophenone reduction. The catalytic efficiencies (k_cat/K_m) for the A220 or E228 variants are <7% that of the unmutated enzyme. This work provides an excellent catalyst for enantiopure alcohol preparation and the lethal mutations of A220 and E228 suggest their importance in substrate-binding and/or catalysis.     

Improved production of (R)-2-octanol via asymmetric reduction of 2-octanone with Oenococcus oeni CECT4730 in a biphasic system

Abstract

Oenococcus oeni CECT4730, which catalyses the asymmetric reduction of 2-octanone to (R)-2-octanol with high enantioselectivity, was further studied to exploit its potential for production of (R)-2-octanol in an aqueous/organic solvent biphasic system. Variables such as the volume ratio of aqueous to organic phase (V_a/V_o), buffer pH, reaction temperature, shaking speed, co-substrates and the ratio of biocatalyst to substrate were examined with respect to the molar conversion, the initial reaction rate and the product enantiomeric excess (e.e.). Under the optimized conditions (V_a/V_o=1:1 (v/v), buffer pH=8.0, reaction temperature=30°C, shaking speed=150 rev/min, ratio of glucose to biomass=5.4:l (w/w), ratio of biocatalyst to substrate=0.51:l (g/mol)), the highest space time yield of (R)-2-octanol, 24 mmol L^?1 per h, and >98% product e.e. were obtained at a substrate concentration close to 1.0 mol L^?1 after 24 h reduction.     

C(2)-Symmetric dialkoxyphosphoramide and dialkoxythiophosphoramide derivatives of (1R, 2R)-1,2-diaminocyclohexane as chiral ligands for the titanium(IV) alkoxide-promoted asymmetric addition reactions of diethylzinc to arylaldehydes.

C(2)-Symmetric chiral diethoxyphosphoramide 4, diethoxythiophosphoramide 5, and diisopropoxyphosphoramide 6 of (1R, 2R)-1,2-diaminocyclohexane were prepared by the reactions of diethoxyphosphinic chloride, diethoxythiophosphinic chloride, and diisopropoxyphosphinic chloride with (1R, 2R)-1,2-diaminocyclohexane, respectively. They were used as catalytic chiral ligands in the asymmetric addition reactions of diethylzinc to aldehydes in the presence of titanium(IV) isopropoxide to give the corresponding sec-alcohols with 43-70% ee. Chiral ligands 4 and 5 gave the sec-alcohols with opposite absolute configuration.