Gene cloning, overexpression and characterization of a novel organic solvent tolerant and thermostable lipase from Galactomyces geotrichum Y05

Although the lipase of Geotrichum candidum has been extensively reported, little attention has been focused on molecular genetic and biochemical characterizations of Galactomyces geotrichum lipases. A lipase gene from G. geotrichum Y05 was cloned from both genomic DNA and cDNA sources. Nucleotide sequencing revealed that the ggl gene has an ORF of 1692 bp without any introns, encoding a protein of 563 amino acid residues, including a potential signal sequence of 19 amino acid residues. The amino acid sequence of this lipase showed 86% identity to lipase of Trichosporon fermentans WU-C12. The mature lipase gene was subcloned into pPIC9K vector, and overexpressed in methylotrophic Pichia pastoris GS115. Active lipase was accumulated to the level of 100.0 U/ml (0.4 mg/ml) in the shake-flask culture, 10.4-fold higher than the activity of the original strain (9.6 U/ml). This yield dramatically exceeds that previously reported with 23–50 U/ml, 0.06 mg/ml and 0.2 mg/ml. The purified lipase exhibited several properties of significant industrial importance, such as pH and temperature stability, wide organic solvent tolerance and broad hydrolysis on vegetable oils. Such a combination of properties makes it a promising candidate for its application in non-aqueous biocatalysis, such as biodiesel production, selective hydrolysis or esterification for enrichment of PUFAs and oil-contaminated biodegradation, which have been drawn considerable attention currently.     

Cloning and sequencing of the triacylglycerol lipase gene of Aspergillus oryzae and its expression in Escherichia coli

Aspergillus oryzae produces at least three extracellular lipolytic enzymes, L1, L2 and L3 (cutinase, mono- and diacylglycerol lipase, and triacylglycerol lipase, respectively). We cloned the triacylglycerol lipase gene (provisionally designated tglA) by screening a genomic library using a PCR product obtained with two degenerate oligonucleotide primers corresponding to amino acid sequences of L3 as probes. Nucleotide sequencing of the genomic DNA and cDNA revealed that the L3 gene (tglA) has an open reading frame comprising 954 nucleotides, which contains three introns of 47, 83 and 62 bp. The deduced amino acid sequence of the tglA gene corresponds to 254 amino acid residues including a signal sequence of 30 amino acids and, in spite of the difference in substrate specificity, it is homologous to those of cutinases from fungi. Three residues presumed to form the catalytic triad, Ser, Asp and His, are conserved. The cloned cDNA of the tglA gene was expressed in Escherichia coli, and enzyme assaying and zymography revealed that the cloned cDNA encodes a functional triacylglycerol lipase.     

Combined strategies for improving the heterologous expression of an alkaline lipase from Acinetobacter radioresistens CMC-1 in Pichia pastoris

In this study, a series of strategies was developed to enhance the expression of an alkaline lipase from Acinetobacter radioresistens (ARL) in Pichia pastoris. Activity of the lipase from recombinant strain carrying a single copy of codon-optimized ARL gene was 65 U/mL in shake flask culture with p-nitrophenyl caprylate as the substrate. The lipase yield was increased to 104 U/mL by introducing a short N-extension spacer peptide coding for the 10 amino acids (EEAEAEAEPK) between α-factor signal peptide and ARL. The N-terminal extension spacer did not affect the pH or temperature properties of the recombinant ARL. After the multi-copy constructs were identified by Q-PCR assay, a higher lipase activity of 180 U/mL was obtained. Further introduction of the spliced HAC1 gene into multi-copy integrants (>6 copies) extensively enhanced the ARL yield by 30–40%. As a result, the ARL yield reached 1.06 × 10⁴ U/mL in a 10-L scaled-up fed-batch fermenter as well as the lipase showed some better properties compared to that wild one from A. radioresistens.     

Over-expression and properties of a purified recombinant Bacillus licheniformis lipase: a comparative report on Bacillus lipases

The gene coding for an extracellular lipase of Bacillus licheniformis was cloned using PCR techniques. The sequence corresponding to the mature lipase was subcloned into the pET 20b(+) expression vector to construct a recombinant lipase protein containing 6 histidine residues at the C-terminal. High-level expression of the lipase by Escherichia coli cells harbouring the lipase gene-containing expression vector was observed upon induction with IPTG at 30 degrees C. A one step purification of the recombinant lipase was achieved with Ni-NTA resin. The specific activity of the purified enzyme was 130 units/mg with p-nitrophenyl-palmitate as substrate. The enzyme showed maximum activity at pH 10-11.5 and was remarkably stable at alkaline pH values up to 12. The enzyme was active toward p-nitrophenyl esters of short to long chains fatty acids but with a marked preference for esters with C(6) and C(8) acyl groups. The amino acid sequence of the lipase shows striking similarities to lipases from Bacillus subtilis and Bacillus pumilus. Based on the amino acid identity and biochemical characteristics, we propose that Bacillus lipases be classified into two distinct subfamilies of their own.     

Characterization of 1,3-regiospecific lipases from new Pseudomonas and Bacillus isolates

Lipase producing ability of 120 bacterial isolates was examined qualitatively, resulting in 32 lipase producers, which were further screened for 1,3-regiospecificity. Three Bacillus (GK-8, GK-31 and GK-42) and one Pseudomonas (GK-80) were found to produce 1,3-regiospecific lipases. These lipases were alkaline in nature as they showed pH optima of 9.0 and high stability in the alkaline pH range of 8.0–11.0. The lipases from three Bacillus isolates, viz. GK-8, GK-31 and GK-42 showed temperature optima of 37 °C, whereas the Pseudomonas (GK-80) lipase showed optimum activity at 50 °C. The lipase of GK-8 was highly stable and showed enhanced activity in different organic solvents like petroleum ether (172%), diethyl ether (143%) and acetone (135%).     

A novel thermostable lipase from a thermophilic Bacillus sp.: characterization and esterification studies

An extracellular, thermostable, alkaline lipase was partially purified from a thermophilic Bacillus strain J 33. It was optimally active at pH 8.0 at 60°C, retaining 50% activity at 70°C for 30 min. It had native molecular mass of 45 kDa. The lipase was stable in 90% (v/v) hexane or benzene mixtures in water. It converted 66% oleic acid at 0.25 M with 0.4 M methanol in hexane to methyl oleate at 60°C in 16 h. Activity was stimulated by Mg2 (10 mM) but inhibited by EDTA (10 mM) and PMSF (10 mM). It was stable in Triton X-100, Tween 20 and Tween 80 (0.1% v/v). © Rapid Science Ltd. 1998     

黑曲霉脂肪酶：基因克隆、表达及体外复性

根据黑曲霉F044脂肪酶N-端氨基酸序列,运用生物信息学方法,找到与黑曲霉脂肪酶基因同源的候选基因A84689。根据该基因序列,设计引物直接PCR扩增得到黑曲霉脂肪酶全长基因anl。anl全长1044bp,含3个内含子,编码297个氨基酸(含信号肽27个氨基酸),与其它脂肪酶基因没有明显同源性。将编码成熟脂肪酶的anl连接到pET28a载体上得到重组表达质粒,转化大肠杆菌BL21(De3),诱导表达并纯化出目的蛋白。通过大量稀释和DEAESepharoseFastFlow层析相结合的方法,变性后的纯化蛋白在体外实现再折叠复性。     

白地霉Y162脂肪酶基因克隆及其在毕赤酵母中的高效表达

借助生物信息学,对已克隆的地霉属脂肪酶全长基因序列进行同源比对,根据保守序列设计引物,在基因组DNA和cDNA水平上,于国内首次克隆了Geotrichum candidum Y162脂肪酶基因.Gcandidum Y162脂肪酶基因全长1692bp,不含内含子,编码包括19个氨基酸信号肽在内的563个氨基酸.与NCBI GenBank中已报道的地霉属脂肪酶氨基酸序列有86%的一致性.将该基因克隆到pPIC9K表达载体上,转化毕赤酵母GS115,摇瓶发酵96h后毕赤酵母分泌表达55 U/mL重组脂肪酶,实现了脂肪酶的高效表达.酶学性质研究表明,该重组脂肪酶对C9位顺式双键的甘油酯具有明显的底物特异性;对甲醇、甘油等有机溶剂呈现耐受性;最适温度和最适pH分别为50℃和8.0,在pH6.0～10.0及60℃以下能保持60%以上的酶活力.底物特异性、有机溶剂、温度及pH耐受性赋予该重组酶良好工业应用潜力.     

橡胶树内生沙雷氏菌脂肪酶基因SmLipase1的克隆和表达分析

脂肪酶在洗涤剂、食品、纸浆以及生物柴油等多个工业领域被广泛应用。不同的应用领域对脂肪酶的酶学特性有不同的要求,因此挖掘脂肪酶基因资源具有重要意义。本研究报道从橡胶树内生菌Serratiamarcescens ITBB5-1中克隆得到一个脂肪酶基因,命名为Sm Lipase1,编码662个氨基酸,pI 4.82,能分泌脂肪酶到培养基中。构建重组表达载体pET22b-Sm Lipase-1,转化大肠杆菌菌株BL21(DE3)。本研究表明该转基因菌株能高效表达脂肪酶,并在平板培养基上形成较大的透明圈,转基因菌株发酵培养所获得的培养液酶活性达到26 U/mL。此外,该酶还具有催化油脂与甲醇反应生产脂肪酸甲酯的活性,在生物柴油领域具有一定的开发价值。     

Cloning,expression and characterization of a lipase gene (<Emphasis Type="Italic">lip3</Emphasis>) from<Emphasis Type="Italic"> Pseudomonas aeruginosa</Emphasis> LST-03

A lipase gene (lip3) was cloned from the Pseudomonas aeruginosa strain LST-03 (which tolerates organic solvents) and expressed in Escherichia coli. The cloned sequence includes an ORF consisting of 945 nucleotides, encoding a protein of 315 amino acids (Lip3 lipase, 34.8 kDa). The predicted Lip3 lipase belongs to the class of serine hydrolases; the catalytic triad consists of the residues Ser-137, Asp-258, and His-286. The gene cloned in the present study does not encode the LST-03 lipase, a previously isolated solvent-stable lipase secreted by P. aeruginosa LST-03, because the N-terminal amino acid sequence of the Lip3 lipase differs from that of the LST-03 lipase. Although the effects of pH on the activity and stability of the Lip3 lipase, and the temperature optimum of the enzyme, were similar to those of the LST-03 lipase, the relative activity of the Lip3 lipase at lower temperatures (0–35°C) was higher than that of the LST-03 lipase. In the absence of organic solvents, the half-life of the Lip3 lipase was similar to that of the LST-03 lipase. However, in the presence of most of the organic solvents tested in this study (the exceptions were ethylene glycol and glycerol), the stability of the Lip3 lipase was lower than that of the LST-03 lipase.Communicated by H. Ikeda     

南极耐冷 Pseudomonas sp. 7323低温脂肪酶的性质及基因克隆

 南极微生物是筛选低温酶的良好来源,但尚未得到充分的研究与开发.低温脂肪酶具有广阔的应用前景,其基因结构特征也具有重要的研究意义. 本文对南极微生物开展了低温脂肪酶产生菌的筛选、基因克隆及特征分析.采用功能筛选的方法,从南极普里兹湾深海沉积物中获得一株产低温脂肪酶的菌株7323,其最适温度和最高生长温度分别为20℃和30℃,属于耐冷菌.16S rDNA序列分析表明,该菌属于假单胞菌属（Pseudomonas）.通过设计引物扩增出的脂肪酶基因全长为1854　bp,该基因编码一个由617氨基酸、分子量预计为64466的蛋白质.氨基酸序列分析表明,该酶与Pseudomonas sp. UB48 的脂肪酶有89%的相似性,在催化区和C末端信号肽中存在高度保守的序列.纯化后的酶学性质研究表明,该脂肪酶的最适温度为35℃,最适pH值为9.0,为碱性低温酶.     

Cloning, expression and characterization of a novel thermal stable and short-chain alcohol tolerant lipase from Burkholderia cepacia strain G63

A lipase gene lipA and its chaperone gene lipB were cloned from Burkholderia cepacia strain G63. The lipA was composed of 1092 bp, encoding 363 amino acid residues, and the lipB composed of 1035 bp, corresponding to 344 amino acid residues. The significant amino acid similarity with Pseudomonas cepacia lipase revealed that this enzyme could be classified into the lipolytic subfamily I.2. The lipA and lipB genes were cloned into pBBR1Tp vector and conjugated into B. cepacia strains G63 with the help of pRK2013. The recombinant strain was fermented in 10 l bioreactor and the lipase was purified by a combination of ammonium sulfate fractionation, DEAE ion-exchange chromatography and gel filtration. The purified lipase kept stable at a temperature range of 40–70 °C. After incubated at 70 °C, the optimal temperature of this enzyme, for 10 h it remained 86.1% of its activity. The enzyme was also highly tolerant to a series of organic solution. Incubated in 50% methanol solution up to 48 h, the enzyme still kept 98.3% of its activity. The transesterification activity of soybean oil to fatty acid methyl esters (FAMEs) reached 87.8% after 72 h, indicating that it is a potential biocatalyzer for biodiesel production.     

A new alkaline lipase obtained from the metagenome of marine sponge <Emphasis Type="Italic">Ircinia</Emphasis> sp.

Microorganisms associated with marine sponges are potential resources for marine enzymes. In this study, culture-independent metagenomic approach was used to isolate lipases from the complex microbiome of the sponge Ircinia sp. obtained from the South China Sea. A metagenomic library was constructed, containing 6568 clones, and functional screening on 1 % tributyrin agar resulted in the identification of a positive lipase clone (35F4). Following sequence analysis 35F4 clone was found to contain a putative lipase gene lipA. Sequence analysis of the predicted amino acid sequence of LipA revealed that it is a member of subfamily I.1 of lipases, with 63 % amino acid similarity to the lactonizing lipase from Aeromonas veronii (WP_021231793). Based on the predicted secondary structure, LipA was predicted to be an alkaline enzyme by sequence/structure analysis. Heterologous expression of lipA in E. coli BL21 (DE3) was performed and the characterization of the recombinant enzyme LipA showed that it is an alkaline enzyme with high tolerance to organic solvents. The isolated lipase LipA was active in the broad alkaline range, with the highest activity at pH 9.0, and had a high level of stability over a pH range of 7.0–12.0. The activity of LipA was increased in the presence of 5 mM Ca²⁺ and some organic solvents, e.g. methanol, acetone and isopropanol. The optimum temperature for the activity of LipA is 40 °C and the molecular weight of LipA was determined to be ~30 kDa by SDS-PAGE. LipA is an alkaline lipase and shows good tolerance to some organic solvents, which make it of potential utility in the detergent industry and enzyme mediated organic synthesis. The result of this study has broadened the diversity of known lipolytic genes and demonstrated that marine sponges are an important source for new enzymes.     

Expression and characterization of recombinant thermostable alkaline phosphatase from a novel thermophilic bacterium Thermus thermophilus XM

A gene （tap） encoding a thermostable alkaline phosphatase from the thermophilic bacterium Thermus thermophilus XM was cloned and sequenced. It is 1506 bp long and encodes a protein of 501 amino acid residues with a calculated molecular mass of 54.7 kDa. Comparison of the deduced amino acid sequence with other alkaline phosphatases showed that the regions in the vicinity of the phosphorylation site and metal binding sites are highly conserved. The recombinant thermostable alkaline phosphatase was expressed as a His6-tagged fusion protein in Escherichia coli and its enzymatic properties were characterized after purification. The pH and temperature optima for the recombinant thermostable alkaline phosphatases activity were pH 12 and 75 ℃. As expected, the enzyme displayed high thermostability, retaining more than 50% activity after incubating for 6 h at 80 ℃. Its catalytic function was accelerated in the presence of 0.1 mM Co^2＋, Fe^2＋, Mg^2＋, or Mn^2＋ but was strongly inhibited by 2.0 mM Fe^2＋. Under optimal conditions, the Michaelis constant （Kin） for cleavage of p-nitrophenyl-phosphate was 0.034 mM. Although it has much in common with other alkaline phosphatases, the recombinant thermostable alkaline phosphatase possesses some unique features, such as high optimal pH and good thermostability.     

扩展青霉脂肪酶基因克隆、密码子优化及表达

【目的】克隆扩展青霉脂肪酶基因,实现具强催化活性的脂肪酶的异源高效表达。【方法】利用RT-PCR扩增扩展青霉CICC 40356脂肪酶(PEL)cDNA序列,利用重叠延伸PCR(Over-lap extension PCR)技术对PEL的10个稀有氨基酸密码子和表达载体pPIC9Kα信号肽的9个氨基酸密码子进行了优化,获得了改造过的脂肪酶基因PELM和表达载体pPIC9KM。并构建了带有脂肪酶自身信号肽的pPIC9K-PEL1、pPIC9KM-PELM1、pPIC3.5K-PEL1、pPIC3.5K-PELM1和不带有脂肪酶自身信号肽的pPIC9K-PEL2、pPIC9KM-PELM2六个重组质粒。利用对硝基苯酚棕榈酸酯(pNPP)为底物检测工程菌脂肪酶的酶活。在此基础上,对工程菌的酶学性质进行了研究。【结果】扩展青霉脂肪酶基因cDNA序列分析结果表明该序列与已报道PEL cDNA序列仅相差3个碱基,同源性高达99%。6个重组工程菌在甲醇诱导下,均表现出pNPP水解活性,28℃诱导100h时酶活达到最高,发酵上清的酶活分别为3.65 U/mL、30.49 U/mL、90.85 U/mL、212.05 U/mL、15.29 U/mL、76.32 U/mL。SDS-PAGE结果表明重组脂肪酶分子量均约28 kDa。酶学性质研究表明,重组脂肪酶PELM最适温度为35℃,最适pH为9.5,在pH7.0-10.0范围内该脂肪酶均较稳定,Ca2+和Mg2+对其有激活作用,Fe2+、Zn2+、Cu2+则有抑制作用,EDTA能使之快速失活。以不同碳链长度的对硝基苯酚酯为底物检测其底物特异性,结果显示其对中链酯(C8-C12)有较强的水解能力,最适底物为为C8的pNP酯。【结论】密码子优化后的扩展青霉脂肪酶基因在毕赤酵母中获得理想的表达,其酶活力比未优化的野生脂肪酶的提高了2.3-2.5倍,表明定点突变对其基因本身更改特有稀有密码子是实现PEL功能蛋白的异源高效表达的有效策略之一。     

Analysis of Bacillus megaterium lipolytic system and cloning of LipA,a novel subfamily I.4 bacterial lipase

The lipolytic system of Bacillus megaterium 370 was investigated, showing the existence of at least two secreted lipases and a cell-bound esterase. A gene coding for an extracellular lipase was isolated and cloned in Escherichia coli. The cloned enzyme displayed high activity on short to medium chain length (C(4)-C(8)) substrates, and poor activity on C(18) substrates. On the basis of amino acid sequence homology, the cloned lipase was classified into subfamily I.4 of bacterial lipases.     

Cloning and expression of the polyhydroxyalkanote depolymerase gene from Pseudomonas putida, and characterization of the gene product

A polyhydroxyalkanote (PHA) depolymerase gene ( pha Z) was cloned by PCR from Pseudomonas putida and over-expressed in Escherichia coli as inclusion bodies. Nucleotide sequence analysis predicted an 852 bp open reading frame encoding a protein of 283 amino acids with a predicted molecular weight of 31283 Da. The deduced amino acid sequence had at least 80% homology to the PHA depolymerase from other Pseudomonas strains and consisted a conserved lipase box-like sequence (G-X-S(102)-X-G). The inclusion bodies were refolded and biochemically characterized. The depolymerase activity was optimal at 40 degrees C and pH 8.     

<Emphasis Type="Italic">Aspergillus niger</Emphasis> lipase: gene cloning,over-expression in <Emphasis Type="Italic">Escherichia coli</Emphasis> and in vitro refolding

From the N-terminal amino acid sequence of the lipase from Aspergillus niger F044, a potential homologous gene A84689 to the lipanl (the gene encoding the lipase from Aspergillus niger F044) was identified. A pair of primers were designed according to the nucleotide sequence of A84689, and the lipanl was cloned by PCR. Nucleotide sequencing revealed that the lipanl has an ORF of 1,044 bp, containing three introns. The deduced amino acid sequence corresponds to 297 amino acid residues. The cloned cDNA fragment encoding the mature lipase from Aspergillus niger F044 was over-expressed in Escherichia coli BL21(De3) and the recombinant protein was refolded in vitro by dilution followed by DEAE Sepharose Fast Flow chromatography.     

Cloning,characterization and expression of the extracellular lipase gene from <Emphasis Type="Italic">Aureobasidium </Emphasis><Emphasis Type="Italic">pullulans</Emphasis> HN2-3 isolated from sea saltern

The extracellular lipase structural gene was isolated from cDNA of Aureobasidium pullulans HN2-3 by using SMART^TM RACE cDNA amplification kit. The gene had an open reading frame of 1245 bp long encoding a lipase. The coding region of the gene was interrupted by only one intron (55 bp). It encodes 414 amino acid residues of a protein with a putative signal peptide of 26 amino acids. The protein sequence deduced from the extracellular lipase structural gene contained the lipase consensus sequence (G-X-S-X-G) and three conserved putative N-glycosylation sites. According to the phylogenetic tree of the lipases, the lipase from A. pullulans was closely related to that from Aspergillus fumigatus (XP_750543) and Neosartorya fischeri (XP_001257768) and the identities were 50% and 52%, respectively. The mature peptide encoding cDNA was subcloned into pET-24a (+) expression vector. The recombinant plasmid was expressed in Escherichia coli BL21(DE3). The expressed fusion protein was analyzed by SDS-PAGE and western blotting and a specific band with molecular mass of about 47 kDa was found. Enzyme activity assay verified the recombinant protein as a lipase. A maximum activity of 0.96 U/mg was obtained from cellular extract of E. coli BL21(DE3) harboring pET-24a(+)LIP1. Optimal pH and temperature of the crude recombinant lipase were 8.0 and 35 °C, respectively and the crude recombinant lipase had the highest hydrolytic activity towards peanut oil.     

Subcellular localization and properties of lipase activities in human polymorphonuclear leukocytes

A fluorimetric assay for lipase activity has been optimized for measurement of the enzyme in human neutrophils. Activity was maximal at acid (4.5) and alkaline (9.5) pH, although there was also a neutral peak of activity at pH 6.5. Neutrophils were homogenised in isotonic sucrose and subjected to analytical subcellular fractionation by sucrose density gradient centrifugation. The gradient fractions were assayed for acid, neutral and alkaline lipase activity and for the principal organelle marker enzymes. Neutral lipase showed a unimodal distribution with an equilibrium density of 1.19 g . cm-3, corresponding to the distribution of particulate leucine aminopeptidase. Acid and alkaline lipase activities showed very similar distribution profiles to each other with both soluble components and a broad peak of particulate activity. The broad modal density of 1.19-1.22 g . cm-3 suggests that acid and alkaline lipase activities could be localised to more than one population of cytoplasmic granule. Fractionation experiments with neutrophils homogenised in sucrose medium containing digitonin confirmed the localisation of neutral lipase and leucine aminopeptidase to the same cytoplasmic granule, and suggested that at least part of the acid lipase activity was localised to the specific granule. No lipase activity could be attributed to the alkaline phosphatase-containing granule. Neutrophils were isolated from control subjects, patients with chronic granulocytic leukaemia and women in the third trimester of pregnancy. The specific activity of acid, neutral and alkaline lipase, and leucine aminopeptidase, in contrast to that of alkaline phosphatase, were similar in the three patient groups.