Asymmetric bioreduction of γ- and δ-keto acids by native carbonyl reductases from Saccharomyces cerevisiae

Optically pure(R)-γ-and(R)-δ-lactones can be prepared by intramolecular cyclization of chiral hydroxy acids/esters reduced asymmetrically from γ-and δ-keto acids/esters using Saccharomyces cerevisiae(S.cerevisiae) as a whole-cell biocatalyst.However,some of the enzymes catalyzing these reactions in S.cerevisiae are still unknown up to date.In this report,two carbonyl reductases,OdCRl and OdCR2,were successfully discovered,and cloned from S.cerevisiae using a genome-mining approach,and overexpressed in Escherichia coli(E.coli).Compared with OdCR1,OdCR2 can reduce 4-oxodecanoic acid and 5-oxodecanoic acid asymmetrically with higher stereoselectivity,generating(R)-γ-decalactone(99% ee) and(R)-δ-decalactone(98% ee) in 85% and 92%yields,respectively.This is the first report of native enzymes from S.cerevisiae for the enzymatic synthesis of chiral γ-and δ-lactones which is of wide uses in food and cosmetic industries.

枫香种源生物量和NRA对供氮水平的响应差异

为研究不同纬度枫香种源经过无营养胁迫生长后对供氮水平的响应差异,按种源与氮2因素裂区设计砂培试验,以N水平为主处理,枫香种源为副处理,3次重复,随机排列(水平内种源间)。结果表明:低氮胁迫会刺激枫香叶片提前形成花青素变红,且低纬区种源变红早于高纬区种源;另外低纬区种源与高纬区种源硝酸还原酶活性(NRA)存在各自的变化规律。以最高生物量为对照,在0 N水平下福建延平种源生物量降低最少(54.54%),且具有较高的生物量,但其在2N水平生物量迅速降低,耐肥性较差;其它种源生物量变化趋势一致。各种源根冠比从0 N到1/2 N水平均迅速降低:广西南丹>福建延平>浙江永康>安徽泾县,即随着纬度的升高,枫香种源根冠比受N的影响越来越小。统计分析发现,福建延平种源在无N及低N水平时NRA极显著高于其它种源,且具有较高生物量,受环境影响较小(主要是棚内重复间光照的差异),可以认为福建延平是优良的耐低N型种源。

重组短链脱氢酶LcSDR催化(R)-1-苯基乙醇不对称合成的工艺开发

采用基因挖掘技术从Lactobacillus composti基因组中筛选到一条编码短链脱氢酶(LcSDR)的序列,该LcSDR能不对称还原苯乙酮(1a)合成(R)-1-苯基乙醇[(R)-1b]。构建了Lc SDR和葡萄糖脱氢酶(EsGDH)双酶偶联催化合成体系,优化了Lc SDR不对称还原1a合成(R)-1b的催化工艺参数。在较佳催化条件下,50 g/L1a转化反应2 h,产物(R)-1b得率93.8%,产物对映体过量值(eep)高于99%,该手性生物合成催化过程的时空产率达到562.8 g/(L·d)。

重组大肠杆菌细胞不对称还原4-氯乙酰乙酸乙酯合成(R)-(+)-4-氯-3-羟基丁酸乙酯

从赭色掷孢酵母(Sporobolomyces salmonicolorZJU0105)中克隆出NADPH依赖型醛基还原酶基因,构建了重组大肠杆菌E.coliBL21(pET28-ALR0105),该工程菌可以高效地表达醛基还原酶.将重组细胞用于催化4-氯乙酰乙酸乙酯不对称还原,合成出具有光学活性的(R)-(+)-4-氯-3-羟基丁酸乙酯.实验发现,在加入适量辅酶及辅酶再生酶的条件下,利用重组细胞催化还原反应可以获得比使用赭色掷孢酵母更高的转化率、产率和ee值,得到了几乎是光学纯的(R)-(+)-型产物,从而解决了酵母细胞催化此类反应ee值较低的问题.考察了辅酶及共底物的添加、底物和产物的浓度、pH值、温度以及菌体密度等因素对还原反应的影响.结果表明,不对称还原反应必须在辅酶NADPH和辅酶再生酶系及共底物葡萄糖的参与下进行;底物和高浓度的产物对还原反应有一定的抑制作用;当pH>6.0时,反应的转化率及产率都显著降低;高密度重组细胞可以减小底物的抑制作用.

(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pETDuet^(TM)-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。

化学-酶法不对称氢化柠檬醛合成(R)-香茅醛

烯醇还原酶OYE2催化(E)-或(Z)-柠檬醛不对称氢化时,其氢化产物的手性是互补的.因而,以(E/Z)-柠檬醛为底物时产物e.e.值往往很低.拟将酶法不对称氢化反应与氨基酸催化的底物异构化反应相偶联,从而提高产物(R)-香茅醛的e.e.值.对氨基酸催化的异构化反应进行了条件优化,最优氨基酸为甘氨酸,最优添加浓度为1.0 mol/L,最优pH为7.0.在优化条件下反应11h,偶联底物异构化反应时的(R)-香茅醛e.e.值和得率分别为75.06%和91.84%,比对照分别提高了27.62%和23.90%.

伴有辅酶原位再生的胞外酶耦合法制备(R)-苯基乙二醇

经5轮诱变筛选,从近平滑假丝酵母(Candida parapsilosis CICC1676)中分离得到产NADH依赖型羰基还原酶(Carbonyl reductase,CR)菌株CP-9。所产羰基还原酶(CRCp-9)经两步快速纯化获得纯化倍数为11.5倍,比活力为1.84 U/mg的酶液,其还原反应的最适pH值为6.5,最适温度为40℃。该酶转化β-羟基苯乙酮制备手性化合物(R)-苯基乙二醇,因此是(R)-专一性羰基还原酶。该酶与NADH普适性再生酶-甲酸脱氢酶(Formate dehydrogenase,FDH)在胞外相耦联,构建伴有辅酶再生与反复利用的CR/FDH双酶催化制备立体醇体系,底物β-羟基苯乙酮转化率达95.4%,产物(R)-苯基乙二醇得率为93%,辅酶的总转化数(Total turn number,TTN)达267,产物e.e.值为98.6%,批次耦合反应生产能力达0.8 g/L/h,较单酶催化有较大提高,与细胞转化法相比也具有较好的生产能力。因此,伴有辅酶再生的胞外酶耦合催化具有潜在的制备手性醇化合物的工业应用价值。

近平滑假丝酵母(R)-羰基还原酶在大肠杆菌中的外泌表达及高效转化(R)-苯基乙二醇

克隆了近平滑假丝酵母(Candida parapsilosis)(R)-羰基还原酶基因rcr,构建胞外表达工程茵Escherichia coli BL21(DE3)/pET20b-rcr,实现了(R)-羰基还原酶在大肠杆菌中高效外泌表达,周质空间和发酵液酶的比活力分别达0.68 U/mg和0.26 U/mg,与大肠杆菌的胞内体系重组酶相比,酶的比活力提高了近两倍。为了更好地促进该重组酶的外分泌于大肠杆菌细胞外,通过添加温和型化学渗透剂甘氨酸,改善细胞壁的透性,(R)-羰基还原酶的活力提高至1.99 U,与添加甘氨酸前相比,酶活力提高了12.4倍,比活提高了4.3倍。浓缩后的发酵液催化2-羟基苯乙酮,产生(R)-苯基乙二醇,产率为88.1%,e.e.值为93.9%。与胞内重组酶相比,产率和光学纯度分别提高了44.4%和15.9%。本研究通过构建(R)-羰基还原酶的大肠杆菌分泌表达体系,大幅度提高了(R)-羰基还原酶的比活和生物转化手性醇的效率。

耦合透性化辅酶循环制备手性(R)-苯基乙醇

通过耦合透性化博伊丁假丝酵母(Candida boidinii,C.boidinii)加强了近平滑假丝酵母(Candida parapsilosis,C.parapsilosis)内羰基还原酶(Carbonyl reductase,CR)催化反应中的辅酶循环与反复利用,构建了有效的手性(R)-苯基乙醇透性化细胞耦合制备体系。实验结果如下:透性化的C.parapsilosis细胞底产物渗透效果增强,底物转化率由33.5%提升到43.8%;进一步外添加辅酶后,底物转化率由43.8%提高到了52.1%;耦合透性化C.boidinii细胞并同时外添加辅酶可大大增强辅酶循环效率,底物转化率可提高至71.8%。优化透性化细胞耦合体系反应条件,当以0.2 g近平滑假丝酵母(C.parapsilosis)为基准时,在C.parapsilosis与C.boidinii细胞质量比为1.5∶1,底物浓度为10 mmol/L,辅酶浓度为0.1 mmol/L时,底物转化率可达78.2%。离心法收集细胞进行多批次反应,当反应12批次时,耦合体系仍然保持有55%底物转化率,此时总的底物转化率达70.3%,产物经高效液相色谱测定为(R)-苯基乙醇,对映体过量值(e.e.值)达98.2%。

不对称还原制备光学纯(R)-2-羟基-4-苯基丁酸乙酯的双酶共表达重组菌的构建

克隆了来自于枯草芽孢杆菌的羰基还原酶基因IolS和葡萄糖脱氢酶基因GDH,采用Ni-NTA镍亲和层析柱对重组蛋白IolS进行纯化,并对纯酶进行了酶学性质研究.结果表明,该羰基还原酶的最适温度和pH值分别为30oC和6.0;在40oC以下具有较好的热稳定性;在pH5.57.0的偏酸性范围内能保持75%以上的酶活.采用三种策略构建了IolS和GDH的共表达重组质粒,结果发现,采用双启动子的重组质粒能够实现羰基还原酶IolS的高效表达,粗酶液中的IolS和GDH的比酶活均达到1.5U/mg.运用该重组菌对10g/L的OPBE进行不对称还原,反应15h后,底物转化率大于99%,产物(R)-2-羟基-4-苯基丁酸乙酯的ee值达到99.5%.

Ribonucleotide reductase small subunit M2 promotes the proliferation of esophageal squamous cell carcinoma cells via HuR-mediated mRNA stabilization

Esophageal squamous cell carcinoma(ESCC),a malignancy of the digestive system,is highly prevalent and the primary cause of cancer-related deaths worldwide due to the lack of early diagnostic biomarkers and effective therapeutic targets.Dysregulated ribonucleotide reductase(RNR)expression has been confirmed to be causally linked to tumorigenesis.This study demonstrated that ribonucleotide reductase small subunit M2(RRM2)is significantly upregulated in ESCC tissue and that its expression is negatively correlated with clinical outcomes.Mechanistically,HuR promotes RRM2 mRNA stabilization by binding to the adenine/uridine(AU)-rich elements(AREs)within the 3′UTR,resulting in persistent overexpression of RRM2.Furthermore,bifonazole is identified as an inhibitor of HuR via computational screening and molecular docking analysis.Bifonazole disrupts HuR-ARE interactions by competitively binding to HuR at F65,R97,I103,and R153 residues,resulting in reduced RRM2 expression.Furthermore,bifonazole exhibited antitumor effects on ESCC patient-derived xenograft(PDX)models by decreasing RRM2 expression and the dNTP pool.In summary,this study reveals the interaction network among HuR,RRM2,and bifonazole and demonstrated that bifonazole is a potential therapeutic compound for ESCC through inhibition of the HuR/RRM2 axis.

双酶体系高效制备(R)-2-氯-1-(3-氯苯基)乙醇

人工合成经密码子优化的羰基还原酶基因Sys1,并与葡萄糖脱氢酶基因Sygdh共克隆至双启动子表达质粒p ETDuet-1中,获重组质粒p ETDuet-Sygdh-Sys1。将其转化大肠杆菌(Escherichia coli)BL21(DE3),构建了共表达羰基还原酶和葡萄糖脱氢酶的重组工程菌E.coli BL21/p ETDuet-Sygdh-Sys1。以经IPTG诱导的重组菌为生物催化剂,不对称还原间-氯苯甲酰甲基氯(m-CPC),制备手性药物中间体(R)-2-氯-1-(3-氯苯基)乙醇((R)-CCE)。在m-CPC 30 mmol/L、重组湿菌体70 mg/m L、葡萄糖40 mmol/L、辅酶NADP+0.2 mmol/L,以及p H 7.0、反应温度40℃和反应时间3 h等条件下,所获手性化合物(R)-CCE的摩尔产率高达99.0%,对映体过量值(e.e.值)为100%。

一种新型醛酮还原酶的克隆表达、性质研究以及在不对称合成(R)-CHBE中的应用

为开发催化4-氯乙酰乙酸乙酯(COBE)制备(R)-4-氯-3-羟基丁酸乙酯((R)-CHBE)的新型催化剂,挖掘到了来自白色念珠菌SC5314中的一种NADPH辅酶依赖型醛酮还原酶CAK基因(cak),并将该基因在大肠杆菌中表达。将重组酶进行纯化后,测定其酶学性质,并构建了以葡萄糖为辅底物的双酶偶联辅酶再生系统,考察其不对称转化制备(R)-CHBE的能力。结果表明:CAK对多种醛酮类化合物有催化活性,其催化COBE的最适反应温度为40℃,最适p H为5。CAK在40℃下以及酸性条件中能保持较好的稳定性。Mg2+、Na+、K+对酶活有一定的激活作用,而Cu2+存在条件下酶会彻底失活。乙酸乙酯、邻苯二甲酸二丁酯对酶活的抑制作用较小。利用双酶偶联辅酶再生系统不对称转化制备(R)-CHBE。在合适的条件下,转化600 mmol/L的底物,产率达80.6%,产物对映体过量值(e.e.值)>99%。

化学酶法合成(R)-肾上腺素及工艺优化

以氯乙酰儿茶酚为起始原料,在羰基还原酶NsCRsO_(2)的不对称催化下得到(R)-4-(2-氯-1-羟乙基)苯-1,2-二醇,然后和甲胺反应制备了(R)-肾上腺素。本研究对羰基还原酶-葡萄糖脱氢酶双酶(全细胞)催化体系的不对称还原进行了单因素条件优化,优化后的工艺条件为:氯乙酰儿茶酚22.32 g·L^(-1),葡萄糖43.2 g·L^(-1),NsCRs0_(2)、葡萄糖脱氢酶菌体10 g·L^(-1),NADP^(+)0.04 g·L^(-1),二甲亚砜10%,温度35℃,pH 6.0,反应时间12 h。在上述条件下使用5 L体系反应,氯乙酰儿茶酚几乎被完全还原为(R)-4-(2-氯-1-羟乙基)苯-1,2-二醇且e.e._(p)>99.9%,甲胺化反应后得到(R)-肾上腺素,收率84.0%,e,e._(p)>99.9%。

羰基还原酶的克隆、异源表达及其在(R)-2-羟基-4-苯基丁酸乙酯合成中的应用

(R)-2-羟基-4-苯基丁酸乙酯是合成血管紧张素转换酶抑制剂类降压药的关键手性中间体。筛选了1株具有不对称还原2-氧代-4-苯基丁酸乙酯合成(R)-2-羟基-4-苯基丁酸乙酯活性的野生菌DY99,经鉴定此菌为Kazachstania naganishii。从该菌基因组序列中挖掘并克隆了发挥催化活性的羰基还原酶基因,构建了重组大肠杆菌E.coli-pET28-kncr,对其诱导表达条件和催化反应条件进行了优化,并在最适条件下进行了催化反应。结果发现:在最优条件(当OD 600达到0.8时,添加乳糖6 g/L,在28℃、150 r/min诱导12 h)下,重组菌酶活达到330.61 U/L发酵液。确定了全细胞催化不对称还原2-氧代-4-苯基丁酸乙酯制备(R)-2-羟基-4-苯基丁酸乙酯的最适反应条件为30℃,pH7.5,底物、葡萄糖、细胞生物量分别为15、15和20 g/L(以干质量计),在最适反应条件下,产物累积量、时空产率分别为11.2 g/L和26.88 g/(L·h),产物的对映体过量值(e.e.)>99%,显示了良好的应用前景。

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 b-hydroxyacetophenone without any additive to regenerate NAD+from NADH.

Characterization of acid‑resistant aldo–keto reductases capable of asymmetric synthesis of(R)‑CHBE from Lactobacillus plantarum DSM20174

Ethyl(R)-4-chloro-3-hydroxybutyrate((R)-CHBE),as a chiral intermediate,is widely used in the synthesis of various chiral drugs.In this study,we screened two aldo–keto reductases(LP-AKRs)from the probiotic Lactobacillus plantarum DSM20174,both with a molecular weight of approximately 31 kDa.Both enzymes could reduce 4-chloroacetoacetic acid ethyl ester(COBE)to produce(R)-CHBE with an enantioselectivity value of 99%.When determining the kinetic parameter,the K_(m),K_(cat),and V_(max)of LP-AKR5 and LP-AKR9 were 9.5 mM,7.6 U/mg,3.96 s^(-1)and 8.7 mM,8.59 U/mg,4.47 s^(-1),respectively.Both LP-AKR5 and LP-AKR9 had an optimal reaction pH of 6 and could maintain a high level of stability at pH 6,allowing them to perform well in an acidic environment.LP-AKR5 and LP-AKR9 had optimal reaction temperatures of 30℃and 40℃,respectively.Metal ions had minimal influence on LP-AKR5 and LP-AKR9 enzyme activities.This series of enzymatic properties showed that LP-AKR5 and LP-AKR9 mined from Lactobacillus plantarum DSM20174 could asym-metrically catalyze the synthesis of(R)-CHBE under weakly acidic circumstances,which could maintain product stability and provide a good foundation for industrial production.

Purification and characterization of a novel carbonyl reductase with high stereo-selectivity

A novel NADPH-dependent carbonyl reductase was separated from Candida parapsilosis CCTCC 203011.The enzyme gave a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis(SDS-PAGE),which was purified through ammonium sulfate,Diethylamino Ethanol(DEAE)sepharose Fast flow(FF),phenyl-sepharose FF and blue sepharose FF chromato graphy from cell-free extract.The molecular mass of the enzyme was about 30 kDa.The optimum pH and temperature for reduction were 4.5℃ and 35℃,respectively.The Cu2+had strong restrictive effect on enzyme activity.In addition,the carbonyl reductase was an enzyme with high substrate specificity and stereo-selectivity,and showed high asymmetric reduction activity towards a-hydroxyacetophenone and ethyl 4-chloro acetoacetate.For the asymmetric reduction of a-hydroxyacetophenone and ethyl 4-chloro acetoacetate,(S)-1-phenyl-1,2-ethanediol and(R)-ethyl 4-chloro-3-hydroxybutanoate were produced by the purified enzyme,with the 100% and 94.3%e.e.value,respec-tively.Therefore,the enzyme could be one of the effective biocatalysts for asymmetric synthesis of chiral alcohols.The amino acid sequences of one peptide from the purified enzyme were analyzed by LC-MASS-MASS,and the car-bonyl reductase showed some identity to the hypothetical protein CaO19.10414 reported.

Redesign of a short-chain dehydrogenase/reductase for asymmetric synthesis of ethyl (R)-2-hydroxy-4-phenylbutanoate based on per-residue free energy decomposition and sequence conservatism analysis

As an important building block for the synthesis of angiotensin-converting enzyme inhibitors,ethyl(R)-2-hy-droxyl-4-phenylbutanoate[(R)-HPBE]has attracted increasing attention.The key to industrial biosynthesis of(R)-HPBE is a biocatalyst that efficiently reduces ethyl 2-oxo-4-phenylbutanoate(OPBE)with high R-enantiose-lectivity.This paper proposed a strategy for identifying key residues involved in enantioselectivity control based on per-residue free energy decomposition and sequence conservatism analysis.Using this strategy,4 noncon-servative sites with high energy contribution to binding of OPBE were chosen as engineering targets,generating variant Mu27 with 99%conversion and 98%(R)ee value at substrate loading of up to 500 mmol/L.MD simu-lations suggested the higher stability and formation probability of Mu27-OPBEproR prereaction state as key rea-sons for the excellent R-enantioselectivity of Mu27 towards OPBE.The success in this study provides a viable approach for rational design of alcohol dehydrogenases with high enantioselectivity towards unnatural substrates.

5周间歇性负重游泳训练对大鼠睾丸Leydig细胞胆固醇代谢的影响

采用实时荧光定量PCR的Taqman技术探讨5周间歇性负重游泳训练导致大鼠血清睾酮水平降低时,大鼠睾丸Leydig细胞胆固醇代谢关键环节上的HMG-CoA还原酶、LDL-R、SR-BI、类固醇激素合成急性调控蛋白(StAR)基因表达的变化。结果显示,运动引起血清睾酮显著降低时(P<0.01),Leydig细胞内LDL-R mRNA表达量显著增加(P<0.05),HMG-CoA还原酶、SR-BI、StAR mRNA表达量无显著性变化。结果表明当大鼠以负重5%体重的负荷强度进行5周的间歇性游泳训练引起血清睾酮显著降低时,Leydig细胞通过LDL-R介导的内吞作用摄取外源性胆固醇作用加强,Leydig细胞内胆固醇的合成、摄取和转运的关键环节未发生障碍。