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1.
气相色谱法测定酵母转化2,5-己二酮发酵液中的主要成分   总被引:1,自引:0,他引:1  
采用毛细管柱INNOWAX (30 m×0.25 mm×0.25 μm),以1,3-丙二醇为内标物对生物转化发酵液中底物2,5-己二酮、产物2,5-己二醇及中间产物5-羟基-2-己酮进行气相色谱分析.优化分析条件为:进样口为SPL,温度250 ℃;FID检测器,温度250 ℃;柱温140 ℃;载气为氮气,线速度3.0 cm/min;分流进样,进样量1.0 μL,分流比40:1.在10 min内,3个组分能得到完全分离,回收率分别为98.8%、 103.0%和99.3%,相对标准偏差分别为0.92%、 2.9%和3.9%.  相似文献   

2.
报道了甲酸/三乙胺体系中,(S,S) -TsDPEN-Ru络合物催化的不对称氧转移反应合成(S)-γ-胺基醇的方法.考察了不同底物的反应性能,β-单/二烷基胺基-2-噻吩酮在该还原体系中氧解得到1-(2-噻吩基)-1-丙酮;氮原子上吸电子基取代的底物以高收率、高立体选择性(>95%e.e.)得到还原产物.将这一反应用于...  相似文献   

3.
构建了羰基还原酶CR2重组酶体系,并优化了相关的酶促催化反应条件.通过在催化体系中添加辅酶NADP+(0.1 mmol/L)和辅底物葡萄糖(120 g/L),在30℃及p H=8.0的条件下反应4 h,CR2重组酶体系不对称还原N,N-二甲基-3-酮-3-(2-噻吩)-1-丙胺(DKTP,10 g/L),合成了高光学纯度(S)-N,N-二甲基-3-羟基-3-(2-噻吩)-1-丙胺[(S)-DHTP,e.e.值99.9%],产率为62%.在酶促催化过程中,由于辅酶循环生成葡萄糖酸导致反应体系p H值下降而影响催化效率.通过调控反应体系p H值,(S)-DHTP的产率提高到68%.不同浓度底物的反应过程表明底物对CR2酶促反应具有抑制作用,且在10 g/L底物浓度下反应的时空产率可达1.3 g·L-1·h-1.  相似文献   

4.
张捷  刘汉范  王黎辉 《催化学报》2000,21(5):441-442
近年来,α-二酮的不对称氢化引起了人们的极大兴趣[1~3].由于α-二酮分子内存在两个共轭的羰基,α-二酮的氢化包括两步反应,通过控制反应条件可以使反应停留在第一步氢化的阶段[3].在已往的文献报道中[1~3],氢化反应的底物均局限于对称的α-二酮,如2,3-丁二酮或3,4-己二酮.这类底物的第一步氢化并不涉及区域选择性的问题.以2,3-丁二酮为例,第一步氢化只生成3-羟基-2-丁酮一种产物.但是,象2,3-戊二酮之类的不对称α-二酮的氢化情况则复杂得多,因为在第一步反应中有2-羟基-3-戊酮和3-羟基-2-戊酮两种产物生成.因此,在研究不对称α-二酮的对映体选择性氢化时还必须顾及其区域选择性氢化.  相似文献   

5.
杨忠华  姚善泾  赵珺 《催化学报》2005,26(10):895-899
 以苯乙酮为模型底物,研究了水相体系中酵母细胞催化前手性芳香酮不对称还原生成相应手性醇的反应特性. 实验发现,酵母细胞催化苯乙酮不对称还原的产物以(S)-α-苯乙醇为主,反应的立体选择性很高,(S)-α-苯乙醇的对映体过量值可达99%左右. 在pH为7~8, 酵母细胞用量为0.2 g/ml的条件下能获得较高的产物收率(可达35%左右). 酵母细胞能选择性地氧化(S)-α-苯乙醇,而留下(R)-α-苯乙醇. 在反应体系中加入合适的吸附树脂,可以降低底物和产物对细胞的毒害作用,显著提高反应底物的初始浓度,从而提高产物收率.  相似文献   

6.
酵母细胞催化芳香酮的不对称还原反应   总被引:13,自引:0,他引:13  
 研究了酵母细胞催化芳香酮的不对称还原反应,采用正交试验综合考察了反应温度、反应时间、底物浓度和酵母浓度等因素对底物苯乙酮转化率和产物(S)-1-苯基乙醇对映选择性的影响. 结果表明,影响苯乙酮转化率的因素依次为底物浓度、反应时间、反应温度和酵母浓度,影响(S)-1-苯基乙醇对映选择性的因素依次为反应温度、底物浓度、酵母浓度和反应时间. 同时考察了芳香酮结构对产物对映选择性的影响,发现对映选择性的变化规律符合Prelog规则,与羰基相连的两个基团体积差异越大,对映选择性越好,最高的对映体过量值达到了96.4%.  相似文献   

7.
高分辩气相色谱法手性固定相拆分α-羟基酮光学异构体   总被引:2,自引:0,他引:2  
使用高分辩气相色谱法环糊精接枝聚硅氧烷 (二环〔2 ,6 二 O 戊基 3 O 己烯基 ( 5 )〕五环〔2 ,6 二 O 戊基 3 O 甲基〕 β 环糊精 聚硅氧烷 )作手性固定相 ,实现了α 羟基酮的有效拆分 ,并测定了一系列光学活性 3 羟基 2 丁酮的对映体过剩值 (e .e值 )。结果表明 ,所选取的手性固定相对测定此类不对称催化反应产物的光学产率 ,评价催化体系的手性选择性均具有较好的效果。  相似文献   

8.
水相中酵母细胞催化4-氯乙酰乙酸乙酯不对称还原反应   总被引:15,自引:2,他引:13  
杨忠华  姚善泾 《催化学报》2004,25(6):434-438
 利用活性酵母细胞催化4-氯乙酰乙酸乙酯(COBE)的不对称还原可以直接合成具有光学活性的4-氯-3-羟基丁酸乙酯(CHBE). 实验发现,在水相体系中主要生成D-(S)-型产物,COBE的转化率及CHBE的收率和光学选择性都比较高. 考察了底物和产物的浓度、辅助底物的种类和浓度、体系的pH和温度以及菌体培养条件等因素对反应的影响. 结果表明,在较低COBE浓度下R型产物占优,在高浓度下主要是S型产物; 较高的反应温度有利于S型产物的生成,pH≈8.0时可获得较高的S型产物选择性; 产物CHBE对COBE的还原反应具有一定的抑制作用. 在酵母催化COBE还原的同时需要一定的辅助底物来再生辅酶NAD(P)H,利用乙醇、异丙醇和仲丁醇作辅助底物可获得较高的立体选择性. 对数生长期和厌氧条件培养的细胞对生成S型产物较有利.  相似文献   

9.
生物质基平台化合物5-羟甲基糠醛的转化研究是近年来的研究热点之一,1-羟基-2,5-己二酮是一种具有广泛应用前景的化合物.由5-羟甲基糠醛加氢制备1-羟基-2,5-己二酮是一种重要的合成策略,具有绿色、原子经济性高等优势,取得了一些重要的研究进展.从非均相催化和均相催化两方面对1-羟基-2,5-己二酮的制备进行了综述,讨论了催化体系的优劣和催化机理的研究.  相似文献   

10.
 考察了面包酵母发酵液直接催化4-氯-乙酰乙酸乙酯(COBE)的不对称还原反应,并进行了手性添加物的筛选和反应条件的优化实验. 结果表明,以β-环糊精为手性添加物时,酵母发酵液催化COBE不对称还原生成光活性产物(S)-4-氯-3-羟基-丁酸乙酯((S)-CHBE)的产率和ee值分别高达76%和92%. 在一定条件下,增大β-环糊精浓度,有利于(S)-CHBE的生成. 最佳酵母菌培养时间为16~18 h, 最佳反应温度和pH值分别为29~31 ℃和7.2.  相似文献   

11.
杨益琴  李艳苹  王石发  谷文 《有机化学》2009,29(7):1092-1095
以(1S,5S)-(-)-α-蒎烯为原料合成了系列新型(1S,2S,3S,5R)-N-烷基-3-蒎胺类化合物. (-)-α-蒎烯经硼氢化氧化、重铬酸吡啶盐(PDC)氧化得到(1S,2S,5R)-(-)-3-蒎酮; 在BF3•(C2H5)2O催化下(1S,2S,5R)-(-)-3-蒎酮与伯胺化合物反应生成Schiff碱, 再经KBH4或NaBH4还原得到(1S,2S,3S,5R)-N-烷基-3-蒎胺类化合物. 采用FT-IR, 1H NMR, 13C NMR和GC-MS等分析手段对合成所得(1S,2S,5R)-N-烷基-3-蒎烷亚胺和(1S,2S,3S,5R)-N-烷基-3-蒎胺类化合物的结构进行了表征. 考察了(1S,2S,3S,5R)-N-烷基-3-蒎胺类化合物对大肠杆菌(E. coli)、金黄色葡萄球菌(S. aureus)、枯草芽胞杆菌(B. subtilis)、荧光假单胞菌(P. fluorescens)、白色念珠菌(C. albicans)、黑曲霉(A. niger)和米根霉(R. oryzae)等细菌和真菌的抑菌和杀菌活性. 结果表明(1S,2S,3S,5R)-N-正庚基-3-蒎胺对真菌和细菌均表现出良好的杀菌和抑菌活性.  相似文献   

12.
The mechanisms for the reaction of C2H5S with NO2 are investigated at the QCISD(T)/6‐311++G(d, p)//B3LYP/6‐311++G(d, p) level on both single and triple potential energy surfaces. The geometries, vibrational frequencies and zero‐point energy (ZPE) corrections of all stationary points involved in the title reaction are calculated at the B3LYP/6‐311++G(d, p) level. The results show that the reaction is more predominant on the single potential energy surface, while it is negligible on the triple potential energy surface. Without barrier height in the whole process, the major channel is R → C2H5SONO (IM1 and IM2) → P1 (C2H5SO+NO). With much heat released in the formation of C2H5SNO2 (IM3) and the transition state involved in the subsequent step more stable than reactants, P4 (CH3CHS + t‐HONO) is subdominant product energetically. © 2007 Wiley Periodicals, Inc. Int J Quantum Chem, 2007  相似文献   

13.
以不对称环氧化和双羟化反应为构筑手性碳的关键步骤, 首次合成了(+)-(2R,3S,4S,5S)-6-甲基-4,5-环氧-2,3-二羟基-庚酸乙酯(5)和(-)-(2R,3S,4R,5S)-6-甲基-2,3,4,5-四羟基-庚酸乙酯(11). 找到一条适宜于该类化合物合成的简便有效且立体选择性好的合成路线. 初步生物活性测试表明, 化合物5, 11对HL60细胞具有抑制活性.  相似文献   

14.
Crystal Structure and Properties of Calcium and Strontium Hexathiodiphosphate(IV), Ca2P2S6 and Sr2P2S6, with a Contribution on Ca5P8 and Pb2P2S6 Ca2P2S6 and Sr2P2S6 were prepared from metal and a mixture of red phosphorus and sulfur (molar ratio M:P:S = 1:1:3) in 2 corundum crucibles inserted in quartz ampullae under vacuum (20 d 900°C). The compounds were obtained as colourless, crystalline powders containing single crystals. They crystallize in the Sn2P2S6 (high temperature form) type structure (P21/c, Z = 2): Ca2P2S6 a = 653.2(2)pm, b = 728.1(2)pm, c = 1110.1(4)pm, β = 124.00(4)°, d = 2.50(2); Sr2P2S6 a = 664.3(2)pm, b = 755.7(3)pm, c = 1139.7(3)pm, β = 124.07(2)°, d = 2.97(2). The anions P2S have staggered confirmation and are arranged with the motif of a cubic close-packing. Sr2+ is coordinated by 8S which form a twofold face-capped trigonal prism and belong to 4P2S. Structure calculations clearly show that Pb2P2S6 also crystallizes in P21/c and not in Pc [1]. Also, Raman- and IR-spectra of Ca5P8 were recorded at 20°C. The stretching vibrations of P were assigned in analogy to those of P2S in alkaline earth hexathiodiphosphates(IV). The range of their frequencies (480 to 340 cm?1) is essentially smaller and shifted to smaller values compared with P2S in Ca2P2S6 and Sr2P2S6 (620 to 390 cm?1). The symmetry of P is not D3d but C2h as in the case of P2S.  相似文献   

15.
以TiO2、TiS2及Sm2O3为前驱体,分别加入LiCl-KCl与LiCl-CsCl的最低共熔混合物作为熔盐,在较低温度下成功合成了Sm2Ti2S2O5(STSO)颗粒。通过对比不同温度下所制备产物的X射线衍射图,首次表明STSO的热力学结晶温度在520℃左右,远低于之前报道的650℃的最低合成温度。扫描电子显微镜照片显示,采用2种混合熔盐制备的STSO都呈片状形貌;同一合成温度下,采用LiCl-CsCl熔盐制备的STSO的厚度小于LiCl-KCl所得产物。采用出射光波长大于420 nm的氙灯作为光源,在含有Na2S-Na2SO3空穴牺牲剂的溶液中,所制备的STSO颗粒表现出最高35μmol·h-1的光催化分解水产氢活性以及20 h以上的产氢稳定性。  相似文献   

16.
郝海燕  刘振  祖莉莉 《物理化学学报》2015,31(11):2029-2035
有机硫化物是大气主要污染物之一,其在大气中的光解产物还将造成二次污染,除了存在于有机硫化物中, S―S键还存在于胱氨酸等蛋白质中, S―S键的形成和断裂决定该类蛋白质的活性.本工作中,我们研究了用实验室常见的Nd:YAG激光器的四倍频266 nm激光光解C2H5SSC2H5过程,通过激光诱导荧光(LIF)光谱方法检测乙硫自由基C2H5S等光解产物.实验表明266 nm激光主要光解C2H5SSC2H5的S―S键产生C2H5S自由基.本文应用密度泛函理论的Becke3-Lee-Yang-Parr泛函(B3LYP方法)得到C2H5SSC2H5的S―S键、C―S键和C―C键的解离势能曲线,可知在266 nm光解条件下, C2H5SSC2H5在基态能够发生S―S键、C―S键解离, C―C键不发生解离.本文采用全活化空间自洽场(CASSCF)方法优化得到态和态的C2H5S自由基结构及其跃迁的绝热激发能,以辅助解析实验检测的C2H5S自由基的LIF光谱.实验结合理论计算最终得出,本实验266 nm光解条件下, C2H5SSC2H5主要发生S―S键解离,不排除少量分子发生C―S键解离的可能性.  相似文献   

17.
An efficient and facile strategy for the synthesis of 6-(sulfonylmethyl)phenanthridines and its derivatives has been developed via tandem sulfonylation cyclization of vinyl azides under mild conditions in the absence of any catalysts and additives. The reaction simply utilizes easily accessible and cheap K2S2O5 as the sulfur dioxide source, delivering functionalized phenanthridines in moderate to excellent yields with operational simplicity and gram-scale synthesis, as well as good functional-group tolerance.  相似文献   

18.
共沉淀-气固法合成Sm2Ti2S2O5催化剂及可见光制氢性能   总被引:1,自引:1,他引:0  
李越湘 《分子催化》2011,25(2):147-151
用一种改进的共沉淀-气固反应法制备了Sm2Ti2S2O5光催化剂.通过紫外-可见(UV-Vis)漫反射、X射线衍射(XRD)对催化剂进行了表征.以甲酸为电子给体,考察了光催化剂在可见光照射下的制氧活性.研究结果表明,相对于传统的高温固相反应来说,用改进的共沉淀-气固反应法制备Sm2Ti2S2O5,能有效地降低反应温度,...  相似文献   

19.
Gaussian-2 ab initio calculations were performed to examine the six modes of unimolecular dissociation of cis-CH3CHSH+ (1+), trans-CH3CHSH+ (2+), and CH3SCH2+ (3+): 1+→CH3++trans-HCSH (1); 1+→CH3+trans-HCSH+ (2); 1+→CH4+HCS+ (3); 1+→H2+c-CH2CHS+ (4); 2+→H2+CH3CS+ (5); and 3+→H2+c-CH2CHS+ (6). Reactions (1) and (2) have endothermicities of 584 and 496 kJ mol−1, respectively. Loss of CH4 from 1+ (reaction (3)) proceeds through proton transfer from the S atom to the methyl group, followed by cleavage of the C–C bond. The reaction pathway has an energy barrier of 292 kJ mol−1 and a transition state with a wide spectrum of nonclassical structures. Reaction (4) has a critical energy of 296 kJ mol−1 and it also proceeds through the same proton transfer step as reaction (3), followed by elimination of H2. Formation of CH3CS+ from 2+ (reaction (5)) by loss of H2 proceeds through protonation of the methine (CH) group, followed by dissociation of the H2 moiety. Its energy barrier is 276 kJ mol−1. On both the MP2/6-31G* and QCISD/6-31G* potential-energy surfaces, the H2 1,1-elimination from 3+ (reaction (6)) proceeds via a nonclassical intermediate resembling c-CH3SCH2+ and has a critical energy of 269 kJ mol−1.  相似文献   

20.
Nitride Sulfide Chlorides of the Lanthanides. III. Synthesis and Crystal Structure of Pr5N3S2Cl2 By reacting praseodymium with sulfur, sodium azide and praseodymium trichloride in sealed, evacuated silica tubes (850°C, 7 d), the nitride sulfide chloride Pr5N3S2Cl2 is obtained in case of a 4:2:1:1 molar ratio of the reactants (Pr:S:NaN3:PrCl3). A slight excess of trichloride or the addition of NaCl as a flux supports the yield of brownish red, rod-shaped transparent crystals which prove to be stable against hydrolysis. The crystal structure (monoclinic, C2/m (no. 12), a = 1540.2(1), b = 400.92(3), c = 1656.3(1) pm, β = 101.24(1)°, Z = 4, R = 0.039, Rw = 0.028) was determined by means of X-ray single crystal data. Thus five crystallographically different cations (Pr3+) are present which with three distinct kinds of nitride anions (N3?) build up two types of translationally commensurate chains from interconnected [NPr4] tetrahedra. With an additional edge per “chain-link” in chain I, two single chains [NPr3/3ePr1/1t]3+ (?[NPr2]3+) of cis-edge connected [NPr4] tetrahedra (known from the Sm4N2S3-type structure) are condensed into the double chain [(N1){(Pr1)(2+2)/(2+2)e,e(Pr2)(2+1)/(2+1)e,v}(N2)(Pr3)1/1t]3+ (?[N2Pr3]3+). Chain II consists of two single chains [NPr2/2vPr2/1t] 6+ (?[NPr3]6+) of vertex-connected [NPr4] tetrahedra (known from the Sm3NS3-type structure), which are condensed to the double chain [(N3)(Pr4)2/2e(Pr5)2/2v]3+ (?[NPr2]3+) via an additional edge per “chain-link” too. Both types of chains are bundled along [010] like a closest packing of rods. Four crystallographically different but by X-ray diffraction indistinguishable anions S2? and Cl? hold both cationic double chains together and also adjust the charge balance in a molar ratio of 1 : 1.  相似文献   

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