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微水相中杏仁醇腈酶催化不对称合成(R)-氰醇的研究 总被引:1,自引:0,他引:1
利用气相色谱手性分析,研究了微水相中来源于杏仁的(R)-醇腈酶催化醛与HCN不对称合成(R)-氰醇.结果表明,反应时间、添加乙酸、反应介质、反应体系水活度、反应温度和底物的结构对醇腈酶反应均有显著影响.杏仁醇腈酶对芳香族、脂肪族和杂环族醛均有良好的催化作用.其中,苯甲醛为杏仁醇腈酶的最适作用底物,在低温(0~5℃)下,转化率和产物对映体过剩值均在99%以上. 相似文献
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在水/有机溶剂双相反应体系中,研究了来源于西梅的(R)-醇腈酶催化酮与丙酮醇腈合成(R)-酮醇腈的立体选择性转氰反应.系统探讨了不同酶源、酶粉颗粒大小、底物浓度、两底物配比、酶浓度和底物结构对转氰反应的影响.结果发现西梅醇腈酶能高效催化三甲基硅酮与丙酮醇腈的立体选择性转氰.酶粉颗粒大小以直径0.3~0.45 mm为优,底物浓度以21 mmol/L左右为佳,底物丙酮醇腈与三甲基硅酮摩尔浓度比以2∶1为宜,酶浓度以60.9 g/L左右为好.西梅醇腈酶对3, 3-二甲基-2-丁酮几乎没有催化活性,而对其硅结构类似物三甲基硅酮却具有非常高的立体选择性和催化活性,在上述优化反应条件下反应24 h的底物转化率和产物光学纯度均高达99%以上,表明底物中的硅原子对西梅醇腈酶的催化活性有非常显著的促进作用. 相似文献
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转酮醇酶(transketolase, TK, EC. 2.2.1.1)是一种焦磷酸硫胺素和二价阳离子依赖性酶,可催化二碳单位的转移,可逆形成C–C键,在多酶催化生产化学品、药物前体和不对称合成方面有广泛应用。文中以大肠杆菌(Escherichia coli) K12转酮醇酶TKTA为研究对象,通过定点饱和突变和组合突变提升对非磷酸化底物的反应活性,并探索突变酶TKTA_M催化合成酒石酸半醛。结果表明:突变酶TKTA_M (R358I/H461S/R520Q)最适反应温度为32℃,最适反应pH为7.0,以D-甘油醛为受体底物的比酶活为(6.57±0.14) U/mg,是野生型比酶活((0.71±0.02) U/mg)的9.25倍。在酶学性质研究的基础上,设计20 mL的反应体系,以50 mmol/L 5-酮基-D-葡萄糖酸和50 mmol/L非磷酸化乙醇醛为底物,TKTA_M催化合成酒石酸半醛,最终酒石酸半醛的产量为3.71g,摩尔转化率为55.34%。研究结果为生物质制备L-(+)-酒石酸提供数据支撑,同时为转酮醇酶催化非磷酸化底物提供了借鉴。 相似文献
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有机相中酶促有机硅烷醇的转酯 总被引:8,自引:2,他引:6
在有机介质中,脂肪酶L-1754可以催化非天然有机硅烷醇与脂肪酸酯的转酯反应.反应介质、反应体系水活度和底物的结构对酶促转酯反应有显著的影响.适宜的反应介质为正辛烷,反应体系最适水活度为0.55. 相似文献
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有机介质中脂肪酶催化转酯化反应拆分苯乙氰醇的研究 总被引:5,自引:0,他引:5
研究了有机相中脂肪酶催化苯乙氰醇的转酯化反应,拆分苯乙氰醇。考察了酶、溶剂、溶剂水含量、外加苯甲醛和苯甲酸以及底物浓度等因素对反应的影响,结果表明ZJU008号脂肪酶催化活性最高,经实验确定的最佳反应条件为:乙酸乙烯酯为反应物兼溶剂,利用分子筛去除溶剂中微量水分,40 ℃,200 r/min,酶量为10 mg/mL时的最佳底物浓度为200 mmol/L,在上述条件下反应20 h底物转化率为50%,e.e.值大于99%,能将苯乙氰醇有效拆分。外加苯甲醛和苯甲酸不利于反应的进行。 相似文献
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非水相酶催化是酶工程研究热点之一。本文介绍了来自C.cylindracea的脂肪酶催化有机硅醇和脂肪酸的酯化反应。该酶可催化有机硅醇与脂肪酸的酯化反应,并对不同链长的脂肪酸底物、有机溶剂极性及水含量等进行了初步研究。 相似文献
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C.cylindracea脂肪酶可催化有机介质中有机硅醇与脂肪酸的酯化反应。微水有机介质比水-水不溶有机介质更有利于酶的反应,有机硅醇是比其碳结构类似物更好的酰基受体。对不同有机硅醇底物,当其空间障碍大时,不利于酶催化酯化反应,对不同脂肪酸底物,有机硅醇未影响该脂肪酶的脂肪酸底物特异性。 相似文献
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有机溶剂中固定化脂肪酶催化硅醇的酯化反应 总被引:4,自引:0,他引:4
固定化Mucor miehei脂肪酶可催化有机硅醇和脂肪酸的酯化反应.对固定化酶用量、脂肪酸链长、不同有机硅醇底物、有机溶剂极性和水含量等影响因素进行了初步研究. 相似文献
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经鞘氢醇-1-磷酸酯(S1P)裂解酶(SPL)是催化S1P转化为乙醇胺磷酸酯和十六烷醛的酶,它具有多种生理学和病理功能,因此可以用作疾病标记或药靶。目前用作SPL活性定性的同位素分析法却不尽完美。作者设计出一种用NBD[ω(7-硝基-2,1,3-苯并氧杂二唑-4-)-D-赤红]标记的荧光底物分析技术, 相似文献
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(R)-oxynitrilase-catalysed synthesis of chiral silicon-containing aliphatic (R)-ketone-cyanohydrins 总被引:2,自引:0,他引:2
Optically active 2-trimethylsilyl-2-hydroxyl-ethylcyanide was prepared by enzymatic enantioselective transcyanation of acetyltrimethylsilane with acetone cyanohydrin in a biphasic system at 35°C and pH 5. (R)-Oxynitrilase from apple seed meal was the best among all the enzymes explored and diisopropyl ether was the most suitable organic phase. Acetyltrimethylsilane was a better substrate of the enzyme than its carbon analogue. The substrate conversion and product enantiomeric excess of 2-trimethylsilyl-2-hydroxyl-ethylcyanide were >99% and >99%, respectively. 相似文献
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Masamitsu Doi Yoshinori Nishi Susumu Uchiyama Yuji Nishiuchi Hideki Nishio Takashi Nakazawa Tadayasu Ohkubo Yuji Kobayashi 《Journal of peptide science》2005,11(10):609-616
For the rational design of a stable collagen triple helix according to the conventional rule that the pyrrolidine puckerings of Pro, 4-hydroxyproline (Hyp) and 4-fluoroproline (fPro) should be down at the X-position and up at the Y-position in the X-Y-Gly repeated sequence for enhancing the triple helix propensities of collagen model peptides, a series of peptides were prepared in which X- and Y-positions were altogether occupied by Hyp(R), Hyp(S), fPro(R) or fPro(S). Contrary to our presumption that inducing the X-Y residues to adopt a down-up conformation would result in an increase in the thermal stability of peptides, the triple helices of (Hyp(S)-Hyp(R)-Gly)(10) and (fPro(S)-fPro(R)-Gly)(10) were less stable than those of (Pro-Hyp(R)-Gly)(10) and (Pro-fPro(R)-Gly)(10), respectively. As reported by B?chinger's and Zagari's groups, (Hyp(R)-Hyp(R)-Gly)(10) which could have an up-up conformation unfavorable for the triple helix, formed a triple helix that has a high thermal stability close to that of (Pro-Hyp(R)-Gly)(10). These results clearly show that the empirical rule based on the conformational preference of pyrrolidine ring at each of X and Y residues should not be regarded as still valid, at least for predicting the stability of collagen models in which both X and Y residues have electronegative groups at the 4-position. 相似文献
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A stereoselective approach for synthesizing (2R,5S)-dihydroxymethyl-(3R,4R)-dihydroxypyrrolidine 1 (2,5-dideoxy-2,5-imino-d-glucitol, DGDP) was achieved using a seven-step approach starting from 2,3,4,6-tetra-O-benzyl-d-mannose (7). Key steps for the preparation of the title compound 1 involved the regioselective and diastereoselective amination of the cinnamyl anti-1,2-polybenzyl ethers 5 and 6 using chlorosulfonyl isocyanate (CSI) and ring cyclization to form the pyrrolidine ring. The reaction between anti-1,2-polybenzyl ether 5 and CSI in toluene at 0 degrees C afforded the corresponding anti-1,2-amino alcohol 4 as a major product with a diastereoselectivity of 16:1 in 76% yield. The mechanism underlying these reactions may be explained by the neighboring-group effect leading to the retention of stereochemistry. 相似文献
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Om P. Mishra Nicholas Simmons Sonia Tyagi Ralph Pietrofesa Vladimir V. Shuvaev Roman A. Valiulin Philipp Heretsch K.C. Nicolaou Melpo Christofidou-Solomidou 《Bioorganic & medicinal chemistry letters》2013,23(19):5325-5328
Secoisolariciresinol diglucosides (SDGs) (S,S)-SDG-1 (major isomer in flaxseed) and (R,R)-SDG-2 (minor isomer in flaxseed) were synthesized from vanillin via secoisolariciresinol (6) and glucosyl donor 7 through a concise route that involved chromatographic separation of diastereomeric diglucoside derivatives (S,S)-8 and (R,R)-9. Synthetic (S,S)-SDG-1 and (R,R)-SDG-2 exhibited potent antioxidant properties (EC50 = 292.17 ± 27.71 μM and 331.94 ± 21.21 μM, respectively), which compared well with that of natural (S,S)-SDG-1 (EC50 = 275.24 ± 13.15 μM). These values are significantly lower than those of ascorbic acid (EC50 = 1129.32 ± 88.79 μM) and α-tocopherol (EC50 = 944.62 ± 148.00 μM). Compounds (S,S)-SDG-1 and (R,R)-SDG-2 also demonstrated powerful scavenging activities against hydroxyl [natural (S,S)-SDG-1: 3.68 ± 0.27; synthetic (S,S)-SDG-1: 2.09 ± 0.16; synthetic (R,R)-SDG-2: 1.96 ± 0.27], peroxyl [natural (S,S)-SDG-1: 2.55 ± 0.11; synthetic (S,S)-SDG-1: 2.20 ± 0.10; synthetic (R,R)-SDG-2: 3.03 ± 0.04] and DPPH [natural (S,S)-SDG-1: EC50 = 83.94 ± 2.80 μM; synthetic (S,S)-SDG-1: EC50 = 157.54 ± 21.30 μM; synthetic (R,R)-SDG-2: EC50 = 123.63 ± 8.67 μM] radicals. These results confirm previous studies with naturally occurring (S,S)-SDG-1 and establish both (S,S)-SDG-1 and (R,R)-SDG-2 as potent antioxidants and free radical scavengers for potential in vivo use. 相似文献