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161.
162.
Microalgae are diverse microorganisms inhabiting a wide range of habitats with only a small fraction being cultivated for human use. Recently, interest in microalgal research has increased in the quest for alternative renewable fuels due to possible depletion of fossil fuels in the near future. However, costly downstream processing has hampered the commercialization of biofuels derived from microalgae. Several value added products of industrial, pharmaceutical and agricultural relevance could be simultaneously derived from microalgae during bioenergy production. Despite these value-added products having the potential to offset the high cost of downstream processing of renewable fuels, their production has not been explored in-depth. This review presents a critical overview of the current state of biotechnological applications of microalgae for human benefit and highlights possible areas for further research and development. 相似文献
163.
Six‐membered cyclic carbonates from trimethylolpropane: Lipase‐mediated synthesis in a flow reactor and in silico evaluation of the reaction
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Six‐membered cyclic carbonates with hydroxyl and methoxycarbonyloxy functional groups were prepared by transesterification of trimethylolpropane (TMP) with dimethylcarbonate (DMC) by solvent‐free lipase‐mediated flow reaction followed by thermal cyclization. The flow reaction efficiency was evaluated using different configurations of reactor consisting of packed beds of Novozym®435 (immobilized Candida antarctica lipase B—CalB—a.k.a. N435) and molecular sieves, flowrate, and biocatalyst loads. The mixed column of the biocatalyst and molecular sieves, allowing rapid and efficient removal of the by‐product—methanol—was the most efficient setup. Higher conversion (81.6%) in the flow reaction compared to batch process (72%) was obtained using same amount of N435 (20% (w/w) N435:TMP) at 12 h, and the undesirable dimer and oligomer formation were suppressed. Moreover, the product was recovered easily without extra separation steps, and the biocatalyst and the molecular sieves remained intact for subsequent regeneration and recycling. The reaction of CalB with DMC and the primary transesterification product, monocarbonated TMP, respectively, as acyl donors was evaluated by in silico modeling and empirically to determine the role of the enzyme in the formation of cyclic carbonates and other side products. DMC was shown to be the preferred acyl donor, suggesting that TMP and its carbonated derivatives serve only as acyl acceptors in the lipase‐catalyzed reaction. Subsequent cyclization to cyclic carbonate is catalyzed at increased temperature and not by the enzyme. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 33:375–382, 2017 相似文献
164.
165.
复合脂肪酶催化生物柴油的初步研究 总被引:6,自引:0,他引:6
初步探讨了复合脂肪酶催化生物柴油的工艺。优化了复合酶配比条件和叔丁醇反应体系。在无溶剂体系中,Novozym435分别与Lipozyme TLIM和Lipozyme RMIM均以70/30质量比混合时,甲酯得率分别达到94.52%和96.25%,比Novozym435单独催化时的甲酯得率分别提高了9.52%和9.99%。在叔丁醇体系中,当Novozym435与Li-pozyme TLIM和Lipozyme RMIM分别以60/40和80/20的质量比混合时,其甲酯得率分别为85.06%和81.5%,比Novozym435单独催化的效率分别提高了9.89%和7.48%。优化叔丁醇体系中复合酶催化条件后,甲酯得率达92%。 相似文献
166.
对有机相中酶法催化合成乙酸肉桂酯的转酯化反应进行研究。结果发现:Candida anatarctic脂肪酶(Novozyme435)、根霉脂肪酶(Rhizopus niveus lipase)和荧光假单胞菌脂肪酶(Pseudomonas fluore lipase)均有较好的催化活性。同时考察各反应参数(温度、反应溶剂、体系水活度、酰化剂类型、肉桂醇与酰化剂摩尔比、肉桂醇浓度等)对脂肪酶Novozyme435合成乙酸肉桂酯反应的影响,确定了反应体系最优工艺条件:在10 mL甲基叔丁基醚中,肉桂醇200 mmol/L,n(肉桂醇)∶n(乙酸乙烯酯)=1∶1.5,初始水活度αw=0.84,温度35℃,酶加量0.02 g,反应3 h后肉桂醇转化率可达到99%,产物经质谱(MS)鉴定。固定化酶经过10个批次反应,反应转化率都保持在90%以上。 相似文献
167.
Lipases from six different sources were immobilized on Celite and five types of salt. The transesterification activities in hexane for lipases immobilized on EDTA-Na2 increased by 463% for the lipase from Candida rugosa (CRL), 2700% for the lipase from Candida sp. (CSL) and 1215% for the lipase from Pseudomonas sp. (PSL), compared to the salt-free enzyme. With 0.5% sucrose for CRL or 1% sorbitol for PSL as the lyoprotectant during lyophilization process, transesterification activity increased by 100% and 13%, respectively, compared to the immobilized enzyme on EDTA-Na2 without lyoprotectant. 相似文献
168.
Xiao Wang Xiaohong Wang Yanling Xu Jie Kang Ying Zhang 《Biocatalysis and Biotransformation》2018,36(4):332-339
Cinnamyl acetate as an important fragrance ingredient could be synthesized by lipase-catalysed transesterification in organic systems, but enzyme proteins tended to denature and inactivate for no water lubrication. To improve the non-aqueous stability of lipases, absorbent cotton was taken as an alternative “water” phase to stabilize enzyme proteins. In a mass ratio of 1:1, Pseudomonas fluorescens lipase was immobilized on cotton fibres by physical absorption in a column glass bottle, forming a facile cotton-lipase bioreactor in which the transesterification between cinnamyl alcohol and vinyl acetate processed efficiently. From the molar conversions after reaction for 2?h at 37?°C and 160?rpm, the ability of cotton-lipase to transform substrate was more than 5-folds of native lipase. And even in static state and at 4?°C, the conversion of reaction catalysed by cotton-PFL had 11-fold increase relative to native lipase after 8?h. Recycles showed that the cotton-lipase had an extra-long half-life of activity (t1/2?=?693?h) and a negligible decay rate in the ability to transform substrate (Dr?=?0.08% h?1). All these showed that this lipase had been effectively activated and stabilized by cotton fibres for the numerous hydroxyl groups and fluffy structure. 相似文献
169.
M. Bakker A. S. Spruijt F. van de Velde F. van Rantwijk R. A. Sheldon 《Journal of Molecular Catalysis .B, Enzymatic》2001,11(4-6):373-376
The aminoacylases (N-acyl-
-aminoacid amidohydrolase; E.C. 3.5.1.14) from Aspergillus melleus and Aspergillus oryzae catalyze the enantioselective transesterification of 1-phenylethanol with absolute stereospecificity. Increased catalytic efficiencies were obtained by using solubilized surfactant-coated aminoacylase complexes, which makes them more attractive for industrial application. 相似文献
170.
Hyun Gyu Park Ho Nam Chang Jonathan S. Dordick 《Biocatalysis and Biotransformation》1994,11(4):263-271
Lipases and proteases from various sources were tested in aromatic polyester synthesis in organic solvents. A commercial protease from Bacillus licheniformis efficiently catalyzed the transesterifica-tion of a diester of terephthalic acid and 1,4-butanediol in anhydrous tetrahydrofuran (THF). This protease was used as a catalyst in the synthesis of aromatic polyesters in THF. Oligomers with average molecular weights from 400 to 1000 daltons were obtained using various diols and aromatic diesters. 相似文献