Stability of Surfactant-coated Candida Rugosa Lipase in Isooctane

The stability of Candida rugosa lipase coated with glutamic acid didodecyl ester ribitol amide was investigated taking esterification of lauryl alcohol and lauric acid in isooctane as a model reaction. At 30C, the half-life of the activity of the coated lipase was ca 10 h, the enzyme activity became less changed after 12 h and the residual activity was 39% of the initial value. The coated lipase obeyed a first-order deactivation model with a deactivation energy of 29.9J.mol-1.

Surfactant-coated Candida rugosa Lipase as Catalyst for Hydrolysis of Olive Oil in Solvent-Free Two-Phase System

The surfactant-coated Candida rugosa lipase was used as catalyst for hydrolysis of olive oil in two-phase system consisting of olive oil and phosphate buffer without organic solvent. For both the coated and native lipases,the optimal buffer/oil volume ratio of 1.0, aqueous pH 6.8 and reaction temperature 30℃ were determined. The maximum activity of the coated lipase was ca 1.3 times than that of the native lipase. The half-life of the coated lipase in olive oil and the native lipase in phosphate buffer was ca 9 h and 12 h, and the final residual activity was 27% and 20% of their initial values, respectively. The final substrate conversion by the coated lipase was ca 20% higher than that of the native lipase.

Lipase and photodecarboxylase coexpression: A potential strategy for alkane-based biodiesel production from natural triglycerides

Alkane-based biodiesel is considered the next generation of biodiesel owing to its potential environmental benefits and the fact that it exhibits much higher specific caloric values than traditional biodiesel.However,the formidable obstacle impeding the commercialization of this cutting-edge fuel alternative lies in the cost associated with its production.In this study,an engineered strain Escherichia coli(E.coli)showcasing harmonized coexpression of a lipase(from Thermomyces lanuginosus lipase,TLL)and a fatty acid photodecarboxylase(from Chlorella variabilis,CvFAP)was first constructed to transform triglycerides into alkanes.The potential of E.coli BL21(DE3)/pRSFDuet-1-TLL-CvFAP for alkane synthesis was evaluated with tripalmitin as a model substrate under various process conditions.Following a comprehensive examination of the reaction parameters,the scope of the biotransformation was expanded to‘real’substrates(vegetable oils).The results showed that bioderived oils can be transformed into alkanes with high yields(0.80-10.20 mmol·L^(-1))under mild conditions(35℃,pH 8.0,and 36 h)and blue light illumination.The selected processes were performed on an increased lab scale(up to 100 ml)with up to 24.77 mmol·L^(-1) tripalmitin,leading to a yield of 18.89 mmol·L^(-1) pentadecane.With the employment of a method for efficiently producing alkanes under mild conditions and a simple procedure to isolate alkanes from the reaction system,the utilization of sustainable biomass as a fundamental feedstock emerges as the primary solution to lower the cost of alkane-based biodiesel.Thus,this study proposes a readily implementable and highly effective approach for alkane-based biodiesel production.

Solvent-free synthesis of diacylglycerols via enzymatic glycerolysis between edible oils and glycerol catalyzed by self-made immobilized lipase PS@LXTE-1000

Diglycerol(DAG)is a structural lipid with the functions to lower body fat accumulation and decrease serum triglyceride level.However,the enzymatic synthesis of DAG is limited by the high-efficient and economic lipases.In this paper,the immobilized lipase PS@LXTE-1000 was self-made by immobilizing the Pseudomomas cepacian lipase on to the hydrophobic microporous resin LXTE-1000.The results indicate that LXTE-1000 was a uniform mesoporous sphere with the mean diameter of 400μm,pore size of 14.6 nm,pore volume of 0.5 cm3/g and surface area of 126.0 m^(2)/g,showing superior structural properties for lipase immobilization.Under the optimal reaction conditions with the molar ratio of rapeseed oil to glycerol being 1:1,adding amount of immobilized lipase being 4%,reaction at 50℃,the highest DAG content of 46.7%was achieved in 3 h via enzymatic glycerolysis catalyzed by LXTE-1000.After 7 cycles of reuse,the self-made LXTE-1000 could still retain 78.3%of its initial catalytic ability.Besides,LXTE-1000 was observed to facilitate the DAG production via glycerolysis reaction between glycerol with other seven edible oils including corn oil,sesame oil,peony seed oil,rice bran oil,peanut oil,soybean oil and flaxseed oil.Specifically,the glycerolysis reaction with sesame oil,peony seed oil and rice bran oil even led to the DAG content of 52.1%,53.3%and 51.2%,respectively,Hence,this paper provide a novel strategy to produce high-efficient and economic immobilized lipases,which shows great potential in the green synthesis of functional lipids such as DAG.

Carboxyl Ester Lipase Protects Against Metabolic Dysfunction-Associated Steatohepatitis by Binding to Fatty Acid Synthase

Carboxyl ester lipase(CEL),a pivotal enzyme involved in lipid metabolism,is recurrently mutated in obese mice.Here,we aimed to elucidate the functional significance,molecular mechanism,and therapeutic potential of CEL in metabolic dysfunction-associated steatohepatitis(MASH).Hepatocyte-specific carboxyl ester lipase gene(Cel)knockout(Cel^(DHEP))and wildtype(WT)littermates were fed with cholinedeficient high-fat diet(CD-HFD)for 16 weeks,or methionine-and choline-deficient diet(MCD)for three weeks to induce MASH.Liquid chromatography–mass spectrometry and co-immunoprecipitation were employed to identify the downstream targets of CEL.CD-HFD/MCD-fed WT mice received intravenous injections of CEL-adeno-associated viral,serotype 8(AAV8)to induce specific overexpression of CEL in the liver.We observed a decrease in CEL protein levels in MASH induced by CD-HFD or MCD in mice.Cel^(DHEP) mice fed with CD-HFD or MCD exhibited pronounced hepatic steatosis,inflammation,lipid peroxidation,and liver injury compared to WT littermates,accompanied by increased hepatic nuclear factor kappa-light-chain-enhancer of activated B cell(NF-jB)activation.Consistently,Cel knockdown in mouse primary hepatocytes and AML12 cells aggravated lipid accumulation and inflammation,whereas CEL overexpression exerted the opposite effect.Mechanistically,CEL directly bound to fatty acid synthase(FASN),resulting in reduced FASN SUMOylation,which in turn promoted FASN degradation through the proteasome pathway.Furthermore,inhibition of FASN ameliorated hepatocyte lipid accumulation and inflammation induced by Cel knockdown in vivo and in vitro.Hepatocyte-specific CEL overexpression using AAV8-Cel significantly mitigated steatohepatitis in mice fed with CD-HFD or MCD.CEL protects against steatohepatitis development by directly interacting with FASN and suppressing its expression for de novo lipogenesis.CEL overexpression confers a therapeutic benefit in steatohepatitis.

Prokaryotic Expression of Pseudomonas Aeruginosa Lipase Gene

[Objective] The aim of this study was to investigate the prokaryotic expression of pseudomonas aeruginosa Lipase gene.[Method]Lipase gene was amplified by PCR from the genome DNA of pseudomonas aeruginosa,and its nucleotide sequence was determined.The prokaryotic expression vector of Lipase gene was constructed by the gene recombination technique.The protein expression was induced for 4 hours by IPTG with the final concentration of 1.0 mmol/L,and then SDS-PAGE electrophoresis was analyzed.[Result]The sequence of mature peptides in Lipase gene cloned from pseudomonas aeruginosa had a 99.36% homology with that of pseudomonas aeruginosa lipase submitted in NCBI,so the prokaryotic expression vector of Lipase gene pET32a-Lip was successfully constructed.Furthermore,the results of SDS-PAGE electrophoresis showed that the target gene was expressed highly and effectively.[Conclusion]The cloned pseudomonas aeruginosa lipase with its signal peptide could be normally expressed in E.coli and also used for further study.

Genetic Screening of the Lipoprotein Lipase Gene for Mutations in Chinese Subjects with or without Hypertriglyceridemia

Objective： To investigate the association between the mutations in lipoprotein lipase gene and hypertriglyceridemia （HTG）. Methods： The lipoprotein lipase （LPL） gene was screened for mutations in 386 Chinese subjects with （108 cases in the HTG group） or without HTG （278 cases in the control group）, by single-strand conformation polymorphism （SSCP） analysis and DNA sequencing. Results： One novel silent mutation L103L, one missense mutation P207L, three splicing mutations Int3/3＇ -ass/C（-6）→T, and the common S447X polymorphism has been identified in the whole coding region and exon-intron junctions of the LPL gene were examined. Heterozygous P207L found in the HTG group was the first case reported in Asia and subsequently another P207L heterozygote was found in the proband＇s family, all of which suggested that P207L was one of the causes of familial combined hyperlipidemia, but was not so prevalent as that in French Canadian. Int3/3＇-ass/C（-6）→T was found in both groups in the present study although it was regarded as a pathogenic variant to HTG earlier on. Moreover about the beneficial polymorphism S447X, there was also some supportive evidence that the levels of triglycerides （TG） in S447X carriers were significantly lower than noncarders in the subjects without HTG. Conclusions： The association between the LPL variants and HTG is quite complicated and versatile, genotyping of LPL in a larger-scale screening should be necessary and justifiable.

联合检测血清Lipase、CRP和IL-6在急性胰腺炎诊断和预后判断中的价值

目的 评价联合检测脂肪酶 (Lipase)、白细胞介素 6 (IL 6 )和C 反应蛋白 (CRP)是否能够快速诊断和有效预后急性胰腺炎。方法 检测 4 0例非胰腺炎急腹症病人 ,4 0例急性胰腺炎患者 (包括 2 5例轻型急性胰腺炎患者和 15例重症急性胰腺炎患者 )和 4 0例健康控制组人员的血清Lipase、IL 6、CRP水平。 结果 Lipase(判定点设在 4 5 0u/L)可以正确区分 97%的急性胰腺炎患者和其它急腹症患者 ,有 2例急性胰腺炎患者Lipase低于 4 5 0u/L而未能正确区分 ,阳性预测值为 97% ,阴性预测值为 95 %。IL 6 (判定点设在 3 7μg/L) ,可以正确区分重症胰腺炎和轻度胰腺炎 ,敏感性为 10 0 % (15 / 15 ) ,特异性为 87% (2 0 / 2 3) ,阳性预测值为 88% ,阴性预测值为 10 0 % ,可以对急性胰腺炎的病情程度进行准确分级。CRP(判定点设在 6mg/L)显示预后效率低于IL 6 ,敏感性为 87% (13/ 15 ) ,特异性为 4 8% (11/ 2 3) ,阳性预值为 5 2 % ,阴性预值为 85 %。结论 联合检测Lipase、CRP和IL 6可以快速诊断急性胰腺炎和有效预后病情 ,指导临床治疗。

偏甘油酯脂肪酶Lipase G50催化酯化法制备甘油二酯

利用偏甘油酯脂肪酶Lipase G50催化甘油和脂肪酸酯化反应合成甘油二酯。探讨了酶加量、底物摩尔比、反应温度及加水量对酯化反应的影响。结果表明最佳反应条件为:脂肪酶Lipase G50加量为350 U/g,甘油和脂肪酸的摩尔比5∶1,加水量为底物总质量的5%,反应温度30℃,反应时间24 h。在最佳反应条件下脂肪酸的酯化率为75.02%,甘油二酯的含量达到44.74%,产物中没有甘油三酯生成。

铜绿假单胞菌脂肪酶Lipase基因的原核表达

[目的]对铜绿假单胞菌脂肪酶Lipase基因进行原核表达。[方法]利用PCR方法从铜绿假单胞菌基因组DNA中扩增得到脂肪酶基因,测定其核苷酸序列,利用基因重组技术构建脂肪酶基因的原核表达载体,加IPTG至终浓度为1.0 mmol/L诱导蛋白表达4 h,并进行SDS-PAGE电泳。[结果]从铜绿假单胞菌中克隆的脂肪酶基因成熟肽的序列,与NCBI上所递交的铜绿假单胞菌脂肪酶序列同源性很高,达99.36%。成功构建了脂肪酶基因的原核表达载体pET32a-Lip,进一步SDS-PAGE电泳结果显示目的基因得到高效表达。[结论]克隆的铜绿假单胞菌脂肪酶带有自身的信号肽,也可以在大肠杆菌中正常表达,可以用于进一步的研究。

固定化脂肪酶Lipase G 50催化合成甘油二酯的研究

以D380、CAT600、AB-8三种大孔树脂为载体,采用物理吸附法,对偏甘油酯脂肪酶LipaseG50进行了固定化,并利用其催化脂肪酸和甘油酯化合成甘油二酯。结果表明,采用D380固定的脂肪酶酶活最高,用此固定化酶催化反应的最佳条件为:甘油和脂肪酸的摩尔比5∶1,固定化酶酶加量为底物总质量的7.5%,反应温度35℃,在此条件下经过96h的反应,酯化率为76.39%,甘油二酯的含量为43.89%,没有甘油三酯生成。固定化酶重复使用5个批次后酯化率可达65.76%,甘油二酯的含量达到38.45%,具有良好的重复使用稳定性。

器壁固定化脂肪酶(Pseudomonas cepacia lipase)的非水活性与稳定性

许多脂肪酶在有机体系中表现出催化作用,可用于绿色有机合成.但其催化活性和稳定性明显低于水/油(有机相)界面上的表现.为了提高脂肪酶在有机反应体系中的活性和稳定性,依据脂肪酶的界面活化机制,以水为酶蛋白构象优化剂、羧甲基纤维素为赋形剂,通过物理吸附的方式,将典型的假单胞菌脂肪酶(Pseudomonas cepacia lipase)固定在锥形瓶的内壁上,形成简易的生物反应器.为方便检测器壁固定化酶促反应动力学,选择特征吸收为640 nm的生化指示剂2,6-二氯靛酚为反应底物,乙酸乙烯酯为酰化试剂,丙酮为溶剂.光谱检测表明,催化反应0.5 h后,器壁固定化脂肪酶转化底物的能力是脂肪酶粉的6倍.在每次催化5 h共10次的循环催化中,器壁固定化脂肪酶的催化活性平均每次仅降低3.2%,而酶粉降低11.8%.结果表明,该器壁固定化脂肪酶的活性和稳定性相对于酶粉明显提高,这将为通过固定化有效提高脂肪酶的非水催化作用提供重要的参考.

中国野桑蚕抗病毒蛋白基因(Lipase)的克隆与活性鉴定

从中国野桑蚕幼虫中肠细胞克隆获得了抗家蚕核型多角体病毒BmNPV的脂肪酶基因(Lipase)cDNA(GenBank:AY945212)。该基因cDNA大小906 bp,编码301个氨基酸,蛋白质分子质量约为28.9 kD。进一步克隆了其全长基因组,结果表明该基因由2 147 bp组成,包含4个外显子和3个内含子。该基因在野桑蚕体内的表达具有组织特异性,仅限于野桑蚕中肠组织表达,且在幼虫龄中表达水平较高,而在幼虫眠期和熟蚕期几乎没有表达。通过基因体外表达获得的重组蛋白Lipase,能够有效抑制BmNPV病毒对家蚕的感染,说明该蛋白具有较强的抗BmNPV的生物学活性。

“两广二号”家蚕抗病毒基因Bmlipase-1和BmSP-2克隆与原核表达

本研究以优良杂交品种"两广二号"家蚕为试材,克隆了该杂交品种家蚕两个抗家蚕核型多角体病毒(BmNPV)基因:脂肪酶基因Bmlipase-1和丝氨酸蛋白酶基因BmSP-2,测序并分别与不同品种蚕的同源基因序列进行比较。结果显示,"两广二号"家蚕Bmlipase-1基因ORF长度为885bp,编码294个氨基酸,BmSP-2扩增长度为855bp,编码284个氨基酸;它们的核苷酸和推导氨基酸序列同源性皆达92%以上,Bmlipase-1更保守,同源性大于99%";两广二号"家蚕的Bmlipase-1基因脂肪酶活化部位和BmSP-2基因酶催化三联体位点的氨基酸残基与不同品种蚕的完全相同。以上结果说明这两个抗病毒基因在蚕的遗传进化过程中高度保守,提示其可能在机体消化或者免疫防御方面起着重要生理作用。将这两个抗病毒基因在大肠杆菌BL21中进行融合表达,获得的融合Bmlipase-1和BmSP-2蛋白分子量分别为47kD和42kD左右。

家蚕脂肪酶1(Bmlipase-1)的原核表达和抗体制备及在转基因增量表达系统中的检测

家蚕肠液中的脂肪酶1(Bmlipase-1)对家蚕核型多角体病毒(BmNPV)具有明显抑制作用,建立的增量表达Bmlipase-1的转基因家蚕品系(LI-A)对BmNPV的抵抗力得到显著增强。为了分析LI-A品系幼虫肠液中Bmlipase-1的含量变化,通过原核表达、纯化Bmlipase-1蛋白,并免疫家兔制备Bmlipase-1的多克隆抗体,对LI-A品系和正常家蚕品种大造4龄、5龄起蚕肠液中的Bmlipase-1含量进行Western blotting检测。结果显示Bmlipase-1在LI-A品系幼虫肠液中的含量明显高于正常家蚕品种大造,证明LI-A品系对BmNPV的抵抗力提高是因为肠液中Bmlipase-1的含量增加。

枯草芽孢杆菌脂肪酶基因lipaseA突变文库构建及其生物柴油转酯研究

采用易错PCR方法对枯草芽孢杆菌脂肪酶基因lipase A进行定向进化,并首次采用对硝基苯棕榈酸酯(p NPP)法进行96孔板高通量筛选。结果表明:第一轮易错PCR没有产生随机突变,第二轮易错PCR反应在Mn^(2+)浓度为0.2 mmol·L^(-1)时,产生了突变菌株。对该条件下构建的文库中124株突变菌株进行p NPP高通量筛选,突变株4B_2的吸光度值A_(405)为1.395,与未突变株PET32a-lipase A(A_(405)=0.448)差异显著。测序结果表明,突变株4B_2脂肪酶基因lipase A有5个核苷酸位点发生了突变,其中3个是同义突变,2个是错义突变,分别是82位的天冬酰胺(AAU)突变为酪氨酸(UAU),143位的赖氨酸(AAG)突变为苏氨酸(ACG)。突变株4B_2发酵上清液转化生物柴油的转酯效率较对照菌PET 32a-lipase A有明显提高,前者为79.5%,后者为49.72%。本研究为枯草芽孢杆菌脂肪酶lipase A转酯活性位点的探索奠定了基础。

基于分子动力学的脂肪酶Lipase 5的热稳定性研究

天然的低温脂肪酶往往结构热稳定性比较差,制约了其长时间有效地发挥催化作用及保存.该研究以来源于白色念珠菌(Candida albicans)的低温脂肪酶Lipase 5为对象,运用相关分子动力学方法进行研究,提出了提高其热稳定性的理论策略.首先运用同源建模方法构建目标蛋白的三维结构模型;然后通过18ns分子动力学模拟,锚定目标蛋白不稳定区域中柔性氨基酸(甘氨酸)的位置,并将这些柔性氨基酸位点突变为刚性氨基酸(脯氨酸);最后利用分子动力学模拟来验证这些突变对蛋白质热稳定性的影响.结果发现,将Lipase 5三维结构中的第279位甘氨酸突变为脯氨酸后,使得蛋白质热稳定性增强.这为类似低温脂肪酶的热稳定性改造的实验设计提供了理论支持.

家蚕脂肪酶基因Bmlipase-1在不同BmNPV抗性水平家蚕品种间的表达差异

家蚕脂肪酶Bmlipase-1在家蚕中肠组织特异性表达,具有抵抗家蚕核型多角体病毒(BmNPV)感染的活性。以对BmNPV具有不同抗性水平的6个家蚕品种为材料,利用荧光定量PCR(qRT-PCR)技术,检测Bmlipase-1基因在不同家蚕品种5龄期健康幼虫中肠组织的表达水平及感染BmNPV后的5龄期幼虫中肠组织中该基因的表达水平变化,探究该基因表达水平与家蚕对BmNPV的抗性水平的关系。结果表明:不同家蚕品种间Bmlipase-1的表达水平差异显著,抗性较强的品种,其表达水平较高,6个供试品种5龄幼虫中肠组织中的Bmlipase-1表达水平依次为NIL.LVR>P50>CVDAR18>nsd.NIL>892>306,抗性较强品种NIL.LVR 5龄期的平均表达量约为抗性较弱品种306的8.2倍;BmNPV能够诱导Bmlipase-1的表达,但不同品种间该基因的诱导表达差异显著,仍表现为抗性较强的品种该基因的诱导表达水平较高,NIL.LVR经BmNPV感染诱导后Bmlipase-1在5龄期的平均表达量约为抗性较弱品种306平均诱导表达水平的12.4倍。推测Bmlipase-1的表达水平与蚕体自身对BmNPV的抗性水平有一定的关联性。

Study on Immobilized Lipase Catalyzed Transesterification Reaction of Tung Oil

The transesterification reaction conditions of tung oil with methanol have been studied in this article, with immobilized lipase NOVO435 as catalyst. The response surface methodology was used to optimize the transesterification reaction of tung oil in a nonsolvent system. The optimal conditions were rotation rate 200 r/min, molar ratio of methanol to oil 2.2： l, reaction temperature 43℃, and the catalyst amount 14% （based on the weight of oil）. After reacting for 18 h, 67.5% of the oil was converted to its corresponding methyl esters （the theoretical ester conversion was 73.3%）. The lipase was washed by organic solvents after each reaction and was reused again. The esters conversion of tung oil was decreased by 6% after the lipase was reused for 120 h. The theoretical amount of methanol was added in two steps, 85% ester conversion was obtained after 36 h of reaction （theoretical ester conversion was 100%）. The molar ratio of methanol to oil, the catalyst amount, the reaction temperature, and reaction time were all highly significant factors, and there was a relative significant interaction between every two factors.

Impact of serum levels of lipoprotein lipase, hepatic lipase, and endothelial lipase on the progression of coronary artery disease

Purpose: The purpose of this study was to investigate the relationship between serum levels of lipoprotein lipase(LPL), hepatic lipase(HL), and endothelial lipase(EL) and the progression of coronary artery disease(CAD).Materials and methods: According to the inclusion criteria, exclusion criteria, diagnostic criteria, angiography results, and the random matching scheme, the enrolled patients were divided into the following two groups: the progression-free group(n ? 47) and the progression group(n ? 15). The baseline characteristics and various biochemical parameters were obtained from the medical records and medical history. Serum LPL, HL, and EL levels were detected by ELISA. The correlation between serum LPL, HL, and EL levels and coronary lesions was statistically analyzed with SPSS software.Results: Significant differences were observed in serum levels of HL and EL between the progression-free group and the progression group(HL, 75.5 ? 39.2 ng/mL vs. 125.1 ? 42.1 ng/mL, P < 0.05;EL, 139.2 ? 59.6 pg/mL vs.175.1 ? 40.1 pg/mL, P < 0.05), while the difference in the LPL level was not significant(P > 0.05). Receiver operating characteristic curve(ROC) analysis showed that the area under the curve(AUC) values of LPL, HL, and EL were 0.506(95% CI: 0.369–0.642, P ? 0.9470), 0.792(95% CI: 0.664–0.888, P < 0.0001), and 0.693(95% CI:0.553–0.811, P ? 0.0095), respectively. Additionally, logistic regression analysis showed that the serum level of HL was an independent risk factor for coronary artery lesion progression.Conclusion: Serum levels of EL and HL, but not the serum level of LPL, were positively correlated with the progression of CAD. The serum level of HL was an independent risk factor for the progression of CAD, while the serum level of EL or LPL was not an independent risk factor for the progression of CAD. For the diagnosis of CAD progression, the serum level of HL was better than the serum level of EL or LPL.