二氧化硅纳米材料固定中性脂肪酶的条件优化及其特性

以二氧化硅纳米材料为载体,采用吸附法对脂肪酶进行固定化,研究了不同条件对固定化脂肪酶的催化活性的影响,得到最佳的固定化条件:给酶量为28300U/g,固定化温度为45oC,pH值为7.5,时间为10h,此时固定化酶的活力约为3867U/g载体。固定化酶的最适反应温度为45oC,比游离酶的反应温度高5oC,最适pH下降到5.5,低于游离酶的反应pH(pH7)。固定化酶的热稳定性和pH稳定性较游离酶有了很大的提高,其在70oC以下能保持70%以上的酶活力,而游离酶在50oC下残余酶活力仅为30%。在pH5～8的范围内,固定化酶的酶活力能保持50%以上,而游离酶只能保持20%左右。用固定化的中性脂肪酶催化不同的油品,即大豆油、菜籽油及泔水油生产生物柴油,菜籽油的酯化率最高。     

介孔分子筛MCM-41固定中性脂肪酶条件的研究

以介孔分子筛MCM-41材料为载体,采用物理吸附法对中性脂肪酶进行了固定化处理,并研究不同条件对固定化脂肪酶催化活性的影响,从而得到该种材料对脂肪酶的最佳固定化条件。给酶量为45960 U/g,固定化温度为45℃,pH值为7.5,时间为3 h,此时固定化酶的活力约为4666 U/g。固定化酶和游离酶的最适反应温度都为40℃,最适pH值为7.5,比游离酶低。固定化酶温度稳定性和pH稳定性较游离酶有所提高。     

固定化脂肪酶催化毛棉籽油制备生物柴油

研究了固定化脂肪酶Lipozyme TL IM和Novozym435催化毛棉籽油和乙酸甲酯制备生物柴油的过程。通过向反应体系中添加甲醇,可减少乙酸的抑制,明显提高生物柴油得率,确定最佳反应条件为:正己烷作溶剂,乙酸甲酯与油摩尔比9:1,添加油重3%的甲醇、油重10%的LipozymeTLIM和5%的Novozym435复合使用,温度55°C,反应8h,生物柴油得率达到91.83%。最后探索了酶催化毛棉籽油合成生物柴油的动力学,得到动力学方程。     

纳米载体固定化脂肪酶及其在生物柴油转化中的应用进展

随着全球能源需求量的不断上升和日益加剧的环境压力,固定化脂肪酶在可持续生物柴油合成中的应用受到广泛关注。纳米材料,包括纳米粒子(磁性和非磁性)、碳纳米管和纳米静电纺丝,具有比表面积大、结构稳定、易于功能化修饰等优势,是固定化脂肪酶领域的重要载体之一。综述了纳米材料作为载体在脂肪酶固定化中的应用,重点介绍这类生物催化剂在生物柴油合成中的最新进展,并对纳米材料固定化脂肪酶发展前景进行展望,旨在为固定化脂肪酶的研究和工业化应用奠定基础。     

脂肪酶的固定化及其性质研究

采用吸附与交联相结合的方法国定化脂肪酶,研究了脂肪酶固定化的工艺条件,并考察了固定化脂肪酶的催化性能和稳定性。试验结果表明,WA20树脂固定化脂肪酶的最适条件是：酶液pH7．0、给酶量300IU／g树脂、固定时间8h,所得固定化脂肪酶的活力约为165IU／g树脂;固定化酶稳定性较高,在冰箱内贮存6个月活力没有下降,操作半衰期约为750h,而未用戌二醛文联的固定化脂肪酶操作半衰期仅约290h;固定化脂肪酶催化橄榄油水解的最适条件是：PH8．0、温度55℃、底物浓度60％（V／V）、搅拌转速500r／m。     

固定化脂肪酶性质及其应用研究

利用以四甲氧基硅烷(TMOS)和甲基三甲氧基硅烷(MTMS)为前驱体的溶胶-凝胶法(sol-gel)固定洋葱假单胞菌属脂肪酶,考查了固定化酶和游离酶的酶学性质及催化不同油脂酯交换合成生物柴油的情况。结果表明,80℃以下固定化酶能保持80%以上的酶活,而游离酶在50℃以后活力急剧下降,到80℃残余酶活约为10%;固定化酶在体积分数50%的甲醇中处理48 h能保持85%的酶活,在体积分数90%的乙醇中处理48h能保持31%的酶活,而游离酶残余酶活只有69%和0;在酯交换反应中固定化酶的催化效率比游离酶高10%~20%,且固定化酶重复使用11次后仍能保持60%的酶活。结果显示,酶经过固定化后稳定性和催化活性显著提高。     

固定化脂肪酶催化毛油合成生物柴油

本研究开发了一种用石油醚提取毛油的工艺,研究了以提取的毛油和甲醇为原料,用固定化Candida sp.99-125脂肪酶催化合成脂肪酸甲酯(FAMEs)的可行性。同时考察了磷脂对固定化酶活性、反应起始速率、固定化酶使用批次的影响以及毛油和精炼油对固定化酶使用批次等的影响。研究结果表明,用磷脂质量分数为1%的石油醚悬液浸泡过的脂肪酶比仅用石油醚浸泡过的脂肪酶初始转酯化速率显著下降。当大豆油中无磷脂时,15min时FAMEs的产率为26.2%;磷脂质量分数为5%时,FAMEs降为12.4%。当大豆油中磷脂质量分数小于1%时,固定化酶使用10个批次,FAMEs产率无明显变化。固定化脂肪酶催化石油醚浸提得到的大豆和小桐子毛油,经过10个批次反应FAMEs产率都保持在70%以上,该固定化酶直接催化毛油生产生物柴油具有良好的工业化前景。     

固定化脂肪酶催化花椒籽皮油转酯化反应研究

采用固定化脂肪酶催化花椒籽皮油制备生物柴油,研究了该转酯化反应的工艺条件.结果表明:在脂肪酶用量25%(质量分数).含水量10%(质量分数),正己烷用量15%(质量分数).醇油比3:1.分三次添加甲醇,于反应温度45℃下反应时间24 h,固定化脂肪酶使花椒籽皮油的棕榈酸甲酯的转化率达到82.5%.     

脂肪酶催化制备生物柴油的研究进展

生物柴油作为一种可再生的清洁能源,以其良好的环境效应受到越来越多的关注。酶法生产生物柴油具有化学催化法不可比拟的优越性,是工业化生产的发展方向。本文综述了利用固定化脂肪酶、游离酶、全细胞生物催化剂制备生物柴油的研究与应用进展,并探讨了我国生物柴油产业化发展的困境和对策。     

大孔树脂固定化脂肪酶及在微水相中催化合成生物柴油的研究

以不同大孔树脂吸附法固定化假丝酵母99_125脂肪酶,在微水有机相中的应用表明非极性树脂NKA是最佳的固定化载体。分别以正庚烷及磷酸盐缓冲液作为固定化介质,发现在正庚烷介质中树脂NKA的固定化效率能够达到98.98%,与采用磷酸盐缓冲液作为介质相比,固定化酶的水解活力和表观酶活回收率分别提高了4.07和3.43倍。考察了在微水相中固定化酶催化合成生物柴油的催化性能,结果表明,在给酶量为1.92∶1(初始酶粉与树脂的质量比),pH值为7.4,体系水含量为15%(水与油的质量比),反应温度为40℃条件下,固定化酶具有最佳的催化能力;以正庚烷为介质固定化脂肪酶催化合成生物柴油,采用三次流加甲醇的方式,单批转化率最高达到97.3%,连续反应19批以后转化率仍保持为70.2%。     

Study of support materials for sol-gel immobilized lipase

Abstract

A variety of support materials for sol-gel immobilized lipase were considered based on their ability to provide superior sol-gel adhesion, load protein, and synthesize methyl oleate. A standard approach was developed to formulate the supported lipase sol-gels and to allow comparison of the resulting hybrid materials. These supported sol-gels are proposed as an alternative immobilization regime to overcome some challenges associated with enzymatic biodiesel production such as enzyme stability and cost. The support materials considered were 6–12 mesh silica gel, Celite^® R633, Celite^® R632, Celite^® R647, anion-exchange resin AG3-X4, and Quartzel^® felt. Each support material exhibited unique properties that would be beneficial for this application including: Quartzel^® felt had the highest initial sol-gel capacity (62.5 mL/g) and sol-gel adhesion (1100 mg sol-gel/g material); silica gel had the most uniform coating of deposited sol-gel; the anion-exchange resin AG3-X4 supported sol-gel had the highest protein loading (1060 μg lipase/g) and reaction rate [1.25 mM/(min g-material)]; the Celite^® support series were the most thermally stable and had the lowest water content; and the Celite^® R632 supported lipase sol-gels had the highest 6 h biodiesel conversion per gram of supported material (68%) and enzymatic activity [9.4 mmol/(min g-lipase)]. The supported sol-gels with the highest enzymatic properties (conversion, activity, and reaction rate) were those supported on Celite^® R632, anion-exchange resin AG3-X4, and Quartzel^®. These supported sol-gels had superior performance in comparison with the unsupported sol-gels. Based on this study, the lipase sol-gel support material with the most potential for biodiesel production is Celite^® R632.     

海泡石吸附固定化猪胰脂肪酶

以海泡石作为猪胰脂肪酶(PPL)的固定化载体,考察采用物理吸附的方法制备固定化脂肪酶的条件。结果表明:在固载时间4 h、反应磷酸盐(PBS)溶液pH 6.0、反应温度25℃时,可达最大比酶活309 U/g,固定化酶的化学稳定性和热稳定性均较高。同时利用红外谱仪(FT-IR)和扫描电子显微镜(SEM)的分析手段对固定化猪胰脂肪酶试样进行分析,进一步确定了海泡石材料在固定化酶中的作用。     

Enzymic interesterification of fats: Factors influencing the choice of support for immobilized lipase

Three grades of diatomaceous earth (Celite 560, Filtercel and Hyflo Supercel) and a controlled-pore silica have been examined for their suitability as support materials for lipase (triacyglycerol acylhydrolase, EC 3.1.1.3) catalysing the interesterification of fats. The controlled-pore silica gave a preparation with a low activity. Although all three Celites gave preparations with similar lipolytic activities, Hyflo Supercel gave the highest interesterification activity. The distribution of enzyme protein in Hyflo Supercel was examined by transmission electron microscopy.     

Continuous hydrolysis of olive oil by immobilized lipase in organic solvent

Lipase (EC 3.1.1.3) from Candida rugosa was immobilized with DEAE-Sephadex A50, Sephadex G50, Sephadex LH-20, Amberlite IRA94, and Amberlite XAD-7. The enzye immobilized with DEAE-Sephadex A50 was found to be most effective for continuous hydrolysis of olive oil in isooctane. For the continuous reaction, 0.2 g of dry immobilized enzyme was swollen with predetermined amount of water, and packed in a glass column reactor. When the organic solvent (Isooctane) containing olive oil substrate was cocurrently fed with aqueous buffer, the two phases were evenly distributed throughout the packed bed without surfactant supplement or prior mixing of the two phases. A small amount of the surfactant (AOT) was used only in packing procedure, and no additional surfactant was necessary thereafter. Effects of initial water content of the swollen gel, buffer types, and strength were examined in the continuous reaction. Our results suggest that the operational half-life was affected by desorption of the bound enzyme. Under the conditions of 20% olive oil in isooctane and 25 mM triethanolamine buffer (pH 7.0), operational half life was 220 h at 30 degrees C. The reactor was also operable with n-hexane, but the operational stability of the immobilized enzyme in n-hexane was only half of that in isooctane. Our results indicate that various enzyme carrier having hydrophilic or amphiphilic properties could be used for two-phase continuous reaction in packed-bed column, reactor without any surfactant supply or prior dispersion of the two immiscible phases. (c) 1992 John Wiley & Sons, Inc.     

间歇及连续式固定化酶反应生产生物柴油

探讨了利用本实验室自制的Candida sp99．125脂肪酶转酯化合成生物柴油的过程。在利用间歇式反应得到最佳反应条件的情况下利用固定床反应器生产生物柴油,经过初步优化的试验结果表明,在采用分级流加甲醇下,生物柴油的转化率可以达到93％左右,并且固定化酶的使用寿命超过480h。     

Utilization of discard bovine bone as a support for immobilization of recombinant Rhizopus oryzae lipase expressed in Pichia pastoris

In this study the possibility of using discard bovine bone as support for immobilization of Rhizopus oryzae lipase expressed in Pichia pastoris was analyzed. Discard bovine bone were milled and then subjected to a chemical treatment with acetone in order to remove lipids and blood traces. Two types of supports were evaluated: bovine bone and calcined bovine bone for 2 h at 600°C. Supports were characterized by: ICP, SEM, XRD, FTIR, XPS, and N₂ adsorption isotherms. Calcined bovine bone presented appropriate characteristics for the lipase immobilization due to the removal of collagen: high porosity, large surface area and suitable porous structure. Biocatalysts were prepared with different initial enzyme load. For the equilibrium adsorption studies, the Langmuir isotherm was used to fit the data results. The immobilization occurs in monolayer to a value of 35 UA mg^?1. The activities of biocatalysts were tested in transesterification reaction of olive oil. For the enzyme load used in the test, a final yield percentage of 49.6 was achieved after six methanol additions and 180 min of reaction, similar values were obtained using Relizyme as support. Therefore, the bovine bone discard is an economical and appropriate choice for use support immobilization of enzymes. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:1246–1253, 2016