Cloning, overexpression, and properties of a new thermophilic and thermostable esterase with sequence similarity to hormone-sensitive lipase subfamily from the archaeon Archaeoglobus fulgidus

A new esterase gene from the hyperthermophilic archaeon Archaeoglobus fulgidus, reported to show homology with the mammalian hormone-sensitive lipase (HSL)-like group of the esterase/lipase family, was cloned by means of the polymerase chain reaction from the A. fulgidus genome. In order to compare the biochemical properties of this putative hyperthermophilic enzyme with those of the homologous, thermophilic member of HSL group, namely Alicyclobacillus (formerly Bacillus) acidocaldarius esterase 2 (EST2), an overexpression system in Escherichia coli was established. The recombinant protein, expressed in soluble and active form at 20 mg/liter of E. coli culture, was purified to homogeneity and characterized. The enzyme, a 35.5-kDa monomeric protein, was demonstrated to be a B"-type carboxylesterase (EC 3.1.1.1) on the basis of substrate specificity and the action of inhibitors. Among the p-nitrophenyl (PNP) esters tested the best substrate was PNP-hexanoate with K(m) and k(cat) values of 11 +/- 3 microM (mean +/- SD, n = 3) and 1014 +/- 38 s(-1) (mean +/- SD, n = 3), respectively, at 70 degrees C and pH 7.1. Inactivation by diethylpyrocarbonate, phenylmethylsulfonylfluoride, diisopropylfosfofluoridate (DFP), and physostigmine, as well as labeling with [(3)H]DFP, supported our previous suggestion of a catalytic triad made up of Ser(160)-His(285)-Asp(255). The sequence identity with the thermostable A. acidocaldarius EST2 was 42.5%. The enzyme proved to be much more stable than its Alicyclobacillus counterpart. The conformational dynamics of the two proteins were investigated by frequency-domain fluorometry and anisotropy decay and the activity/stability/temperature relationship was discussed.     

Characterization of a new and thermostable esterase from a metagenomic library

A new gene encoding an esterase (designated as EstEP16) was identified from a metagenomic library prepared from a sediment sample collected from a deep-sea hydrothermal field in east Pacific. The open reading frame of this gene encoded 249 amino acid residues. It was cloned, overexpressed in Escherichia coli, and the recombinant protein was purified to homogeneity. The monomeric EstEP16 presented a molecular mass of 51.7 kDa. Enzyme assays using p-nitrophenyl esters with different acyl chain lengths as the substrates confirmed its esterase activity, yielding highest specific activity with p-nitrophenyl acetate. When p-nitrophenyl butyrate was used as a substrate, recombinant EstEP16 exhibited highest activity at pH 8.0 and 60 °C. The recombinant enzyme retained about 80% residual activity after incubation at 90 °C for 6 h, which indicated that EstEP16 was thermostable. Homology modeling of EstEP16 was developed with the monoacylglycerol lipase from Bacillus sp. H-257 as a template. The structure showed an α/β-hydrolase fold and indicated the presence of a typical catalytic triad. The activity of EstEP16 was inhibited by addition of phenylmethylsulfonyl fluoride, indicating that it contains serine residue, which plays a key role in the catalytic mechanism.     

Isolation and characterization of a thermostable esterase from a metagenomic library

A novel esterase gene was isolated by functional screening of a metagenomic library prepared from an activated sludge sample. The gene (est-XG2) consists of 1,506 bp with GC content of 74.8 %, and encodes a protein of 501 amino acids with a molecular mass of 53 kDa. Sequence alignment revealed that Est-XG2 shows a maximum amino acid identity (47 %) with the carboxylesterase from Thermaerobacter marianensis DSM 12885 (YP_004101478). The catalytic triad of Est-XG2 was predicted to be Ser₁₉₂-Glu₃₁₃-His₄₁₂ with Ser₁₉₂ in a conserved pentapeptide (GXSXG), and further confirmed by site-directed mutagenesis. Phylogenetic analysis suggested Est-XG2 belongs to the bacterial lipase/esterase family VII. The recombinant Est-XG2, expressed and purified from Escherichia coli, preferred to hydrolyze short and medium length p-nitrophenyl esters with the best substrate being p-nitrophenyl acetate (K _m and k _cat of 0.33 mM and 36.21 s^?1, respectively). The purified enzyme also had the ability to cleave sterically hindered esters of tertiary alcohols. Biochemical characterization of Est-XG2 revealed that it is a thermophilic esterase that exhibits optimum activity at pH 8.5 and 70 °C. Est-XG2 had moderate tolerance to organic solvents and surfactants. The unique properties of Est-XG2, high thermostability and stability in the presence of organic solvents, may render it a potential candidate for industrial applications.     

A new esterase, belonging to hormone-sensitive lipase family, cloned from Rheinheimera sp. isolated from industrial effluent

The gene for esterase (rEst1) was isolated from a new species of genus Rheinheimera by functional screening of E. coli cells transformed with the pSMART/HaeIII genomic library. E. coli cells harboring the esterase gene insert could grow and produce clear halo zones on tributyrin agar. The rEst1 ORF consisted of 1,029 bp, corresponding to 342 amino acid residues with a molecular mass of 37 kDa. The signal P program 3.0 revealed the presence of a signal peptide of 25 amino acids. Esterase activity, however, was associated with a homotrimeric form of molecular mass 95 kDa and not with the monomeric form. The deduced amino acid sequence showed only 54% sequence identity with the closest lipase from Cellvibrio japonicus strain Ueda 107. Conserved domain search and multiple sequence alignment revealed the presence of an esterase/ lipase conserved domain consisting of a GXSXG motif, HGGG motif (oxyanion hole) and HGF motif, typical of the class IV hormone sensitive lipase family. On the basis of the sequence comparison with known esterases/ lipases, REst1 represents a new esterase belonging to class IV family. The purified enzyme worked optimally at 50 degrees C and pH 8, utilized pNP esters of short chain lengths, and showed best catalytic activity with p-nitrophenyl butyrate (C?), indicating that it was an esterase. The enzyme was completely inhibited by PMSF and DEPC and showed moderate organotolerance.     

Novel thermophilic and thermostable lipolytic enzymes from a Thailand hot spring metagenomic library

Functional screening for lipolytic enzymes from a metagenomic library (origin: Jae Sawn hot spring, Thailand) resulted in isolation of a novel patatin-like phospholipase (PLP) and an esterase (Est1). PLP contained four conserved domains similar to other patatin-like proteins with lipid acyl hydrolase activity. Likewise, sequence alignment analysis revealed that Est1 can be classified as a family V bacterial lipolytic enzyme. Both PLP and Est1 were expressed heterologously as soluble proteins in E. coli and exhibited more than 50% of their maximal activities at alkaline pH, of 7-9 and 8-10, respectively. In addition, both enzymes retained more than 50% of maximal activity in the temperature range of 50-75 degrees C, with optimal activity at 70 degrees C and were stable at 70 degrees C for at least 120 min. Both PLP and Est1 exhibited high V(max) toward p-nitrophenyl butyrate. The enzymes had activity toward both short-chain (C(4) and C(5)) and long chain (C(14) and C(16)) fatty acid esters. The isolated enzymes, are therefore, different from other known patatin-like phospholipases and esterases, which usually show no activity for substrates longer than C(10). We suggest that PLP and EstA enzymes are novel and have a; b potential use in industrial applications.     

Isolation and characterization of a new alkali-thermostable lipase cloned from a metagenomic library

The construction of a cosmid library from the biomass produced in an enriched Sequencing Fed-Batch Reactor allowed the isolation of a new lipase by functional screening. The open reading frame of 928 bp encoded a polypeptide of 308 amino acids with a molecular mass of 32.6 kDa. The amino acid sequence analysis revealed the presence of the conserved pentapeptide GXSXG essential for lipase activity. Alignment with known sequences of proteins showed no more than 52% identity with different lipases, confirming the discovery of a novel gene sequence. The lipase was cloned and expressed in Streptomyces lividans and further purified by a combination of hydrophobic interaction and size-exclusion chromatography. Spectrophotometric assays with different p-nitrophenyl esters demonstrated a preference for long-length acyl chains, especially p-nitrophenylmyristate (C14). Moreover, the enzyme presented an optimal activity at 60°C and at alkaline pH of 10.5.     

Isolation and characterization of a family VII esterase derived from alluvial soil metagenomic library

A novel esterase gene, estDL30, was isolated from an alluvial metagenomic library using function-driven screening. estDL30 consisted of 1,524 nucleotides and encoded a 507-amino acid protein. Sequence analysis revealed that EstDL30 is similar to many type B carboxylesterases, containing a G-E-S-A-G pentapeptide with a catalytic Ser residue. Phylogenetic analysis suggested that EstDL30 belongs to the family VII lipases, together with esterases from Bacillus subtilis (P37967), Streptomyces coelicolor A3(2) (CAA22794), and Arthrobacter oxydans (Q01470). Purified EstDL30 showed its highest catalytic efficiency toward p-nitrophenyl butyrate, with a k _cat of 2293 s⁻¹ and k _cat/K _m of 176.4 s⁻¹mM⁻¹; however, little activity was detected when the acyl chain length exceeded C₈. Biochemical characterization of EstDL30 revealed that it is an alkaline esterase that possesses maximal activity at pH 8 and 40° C. The effects of denaturants and divalent cations were also investigated. EstDL30 tolerated well the presence of methanol and Tween 20. Its activity was strongly inhibited by 1 mM Cu²⁺ and Zn²⁺, but stimulated by Fe²⁺. The unique properties of EstDL30, its high activity under alkaline conditions and stability in the presence of organic solvents, may render it applicable to organic synthesis.     

Molecular cloning and characterization of a novel family VIII alkaline esterase from a compost metagenomic library

A metagenomic library was constructed from completely fermented compost using a fosmid vector. From a total of 23,400 clones, 19 esterase-positive clones were selected on LB plates containing 1% glyceryl tributyrate as the substrate. The esterase gene of an esterase-positive clone, est2K, was on an ORF of 1299 bp and encoded a protein of 432 amino acids. Est2K had a SMTK motif and was a family VIII esterase. Unlike most family VIII esterases, Est2K had a signal peptide of 27 amino acids. The molecular mass and pI of the mature Est2K was calculated to be 44,668 Da and 4.48, respectively. The amino acid sequence of Est2K showed 72% identity with that of EstC, an esterase of an uncultured bacterium from leachate. The purified Est2K was optimally active at pH 10.0 and 50 °C. Est2K was stable in the presence of 30% methanol and exhibited a 2.4-fold higher activity in the presence of 5% methanol than in the presence of 1% isopropanol. Est2K preferred short to medium length p-nitrophenyl esters, especially p-nitrophenyl butyrate, as the substrate. Est2K did not hydrolyze β-lactam antibiotics ampicillin and nitrocefin, even though Est2K showed the highest similarity to EstC.     

Screening and characterization of a novel esterase from a metagenomic library

Metagenomes from various environmental soils were screened using alpha-naphthyl acetate and Fast Blue RR for a novel ester-hydrolyzing enzyme on Escherichia coli. Stepwise fragmentations and subcloning of the initial insert DNA (30-40 kb) using restriction enzymes selected to exclude already known esterases with subsequent screenings resulted in a positive clone with a 2.5-kb DNA fragment. The cloned sequence included an open reading frame consisting of 1089 bp, designated as est25, encoding a protein of 363 amino acids with a molecular mass of about 38.3 kDa. Amino acid sequence analysis revealed only moderate identity (< or = 48%) to the known esterases/lipases in the databases containing the conserved sequence motifs of esterases/lipases, such as HGGG (residues 124-127), GxSxG (residues 199-203), and the putative catalytic triad composed of Ser201, Asp303, and His333. Est25 was functionally overexpressed in a soluble form in E. coli with optimal activity at pH 7.0 and 25 degrees C. The purified Est25 exhibited hydrolyzing activity toward p-nitrophenyl (NP)-fatty acyl esters with short-length acyl chains (< or = C6) with the highest activity toward p-NP-acetate (Km=1.0 mM and Vmax = 63.7 U/mg), but not with chain lengths > or = C8, demonstrating that Est25 is an esterase originated most likely from a mesophilic microorganism in soils. Est25 efficiently hydrolyzed (R,S)-ketoprofen ethyl ester with Km of 16.4 mM and Vmax of 59.1 U/mg with slight enantioselectivity toward (R)-ketoprofen ethyl ester. This study demonstrates that functional screening combined with the sequential uses of restriction enzymes to exclude already known enzymes is a useful approach for isolating novel enzymes from a metagenome.     

A snapshot of a transition state analogue of a novel thermophilic esterase belonging to the subfamily of mammalian hormone-sensitive lipase

EST2 is a novel thermophilic carboxylesterase, isolated and cloned from Alicyclobacillus (formerly Bacillus) acidocaldarius, which optimally hydrolyses esters with acyl chain lengths of six to eight carbon atoms at 70 degrees C. On the basis of the amino acid sequence homology, it has been classified as a member of the mammalian hormone-sensitive lipase (HSL) subfamily.The crystal structure of EST2, complexed with a sulphonyl derivative, has been determined at 2.6 A resolution by a multiple wavelength anomalous diffraction experiment on a seleno-methionine derivative. EST2 presents a canonical alpha/beta hydrolase core, shielded at the C-terminal side by a cap region built up of five helices. It contains the lipase-like catalytic triad, Ser155, His282 and Asp252, whereby the nucleophile is covalently modified. This allows an unambiguous view of the putative active site of EST2, detecting the oxyanion hole, in whose formation the amino acid sequence motif His81-Gly82-Gly83-Gly84 is involved, and the hydrophobic binding pocket for the acyl chain. The structural model here reported provides the first example of a transition state analogue of an esterase/lipase belonging to the HSL group, thus affording useful information for the design of medical inhibitors. Moreover, as the first X-ray structure of a thermophilic carboxylesterase, the comparison with its mesophilic homologue, the Brefeldin A esterase (BFAE) from Bacillus subtilis, allows the identification of putative determinants of thermal stability.     

土壤宏基因组文库来源酯酶的鉴定与表征

【目的】利用宏基因组学技术挖掘土壤微生物来源的新型酯酶。【方法】构建土壤微生物宏基因组文库,利用三丁酸甘油酯平板法对所构建的文库进行筛选,并对阳性克隆中鉴定出的酯酶基因进行异源表达和生物化学特性分析。【结果】通过筛选文库中的12万个克隆,获得了一个阳性克隆,对克隆中的DNA片段进行序列分析,发现了一个可能的酯酶基因,通过研究其表达产物,确定其最适pH为9.0,最适反应温度为56°C,在90°C下仍可保持20%的酶活性;能专一性水解短链脂类,对长链脂类无水解作用;对一定浓度范围内的有机试剂如二甲基亚砜、甲醇、乙醇有较好的耐受性,尤其当二甲基亚砜含量为10%(体积比)时,相对酶活可提高44%。【结论】不依赖于微生物可培养性的宏基因组学技术可以发现新的活性酶,本研究获得的对高温、有机试剂有较好耐受性的酯酶ESTYN1具有在工业生产中应用的潜力。     

Screening and identification of a novel esterase EstPE from a metagenomic DNA library

Esterases represent a large family of hydrolases with broad substrate specificity and functional sequence space. Although many attempts to screen new esterases have been conducted, there have been few reports conducted to discriminate unique enzymes from typical ones based on novel structure and function. In this study, we discovered an esterase and a novel family through a successive assay of whole cells and crude lysates (oxidative open condition). The screened putative esterases from the metagenomic DNA of salted shrimp consisted of 753 bp encoding 27 kDa of polypeptide, namely PE esterase. Sequence analyses revealed that an identical gene was reported from whole genome sequencing of Stenotrophomonas maltophilia K279a. However, its biochemical and phylogenetic characteristics have not yet been evaluated. PE esterase was overexpressed only by the MBP fusion state in E. coli and was easily purified using an affinity column. This enzyme showed a typical spectrum of substrate specificity and possessed the consensus motifs, Ser-Asp-His and GXSXG, which are essential for most esterase/lipase superfamilies. Interestingly, the entire organization of the ORF and consensus sequence around the active site were distinct from the related enzymes, and its structure could be affected by a reducing agent, DTT.     

深海沉积物微生物元基因组文库来源的新的酯酶基因的克隆、表达及酶学性质

【目的】从深海沉积物微生物元基因组文库中克隆新的酯酶基因,并进行酶学性质研究。【方法】利用含有三丁酸甘油酯的酯酶选择性筛选培养基,从深海沉积物微生物元基因组文库中筛选得到酯酶阳性Fosmid克隆。对筛选得到的fosmid FL10进行部分酶切构建亚克隆文库,筛选得到酯酶阳性亚克隆pFLS10。PCR扩增目的片段后与pET28a连接构建酯酶基因原核表达质粒,转化大肠杆菌(Escherichia coli)BL21。纯化表达产物并对其进行活性测定及酶学性质研究。【结果】序列分析显示该pFLS10亚克隆质粒含有一段924bp的ORF(Open Reading Frame),与一海洋元基因组文库中筛选出的酯酶ADA70030序列一致性为71%。该酶为一新的低温酯酶,对C4底物(对硝基苯丁酸酯)水解能力最强。该酶最适作用温度为20℃,最适作用pH为7.5,20℃时较为稳定,pH8-10的范围内有良好的pH稳定性,K+、Mg2+对该酶具有一定的激活作用,Mn2+等对其具有不同程度的抑制作用。【结论】应用元基因组技术筛选到了新的酯酶基因fls10并进行了克隆表达,该酶在低温及碱性条件下较为稳定且活力较高,对于工业化生产具有一定的应用潜力。关键词:深海沉积物;元基因组文库;低温酯酶;酶学特征     

Molecular cloning, overexpression and characterization of a novel feruloyl esterase from a soil metagenomic library

The gene estF27, encoding a protein with feruloyl esterase activity, was cloned through functional screening from a soil metagenomic library and expressed in Escherichiacoli BL21 (DE3) with high solubility. Sequence analysis showed that estF27 encoded a protein of 291 amino acids with a predicted molecular mass of 31.16 kDa. According to the substrate specificity, EstF27 was classified as a type A feruloyl esterase. EstF27 displayed optimal activity at 40°C and pH 6.8. This enzyme was stable in a broad pH range of 5.0-10.0 over 24 h, and retained more than 50% of its activity after 96 or 120 h incubation in the presence of 3 M KCl or 5 M NaCl. The enzyme activity was slightly enhanced by the addition of Mg(2+) and Fe(3+) at a low concentration, and completely inhibited by Cu(2+). In the enzymatic hydrolysis of destarched wheat bran, EstF27 could release ferulic acid from it in the presence of xylanase from Thermomyces lanuginosus. Given its alkalitolerance, halotolerance and highly soluble expression, EstF27 is a promising candidate for industrial applications.     

Molecular cloning and characterization of a new cold-active esterase from a deep-sea metagenomic library

A clone which conferred lipolytic activity at low temperature was identified from a fosmid library constructed from a South China Sea marine sediment sample. The gene responsible, estF, consisted of 1,080 bp that encoded 359 amino acid residues, with a typical N-terminal signal peptide of 28 amino acid residues. A phylogenetic analysis of amino acid sequence with other lipolytic enzymes revealed that EstF and seven closely related putative lipolytic enzymes comprised a unique clade in the phylogenetic tree. Moreover, these hypothetic esterases showed unique conservative sites in the amino acid sequence. The recombinant EstF was overexpressed and purified, and its biochemical properties were partially characterized. The optimal substrate for EstF to hydrolyze among a panel of p-nitrophenyl esters (C2 to C16) was p-nitrophenyl butyrate (C4), with a K _m of 0.46 mM. Activity quickly decreased with substrates containing an acyl chain length longer than 10 carbons. We found that EstF was active in the temperature range of 0–60°C, showed the best activity at 50°C, but was unstable at 60°C. It exhibited a high level of activity in the pH range of 7.0–10.0 showing the highest activity at pH 9.0.     

Expression and characterization of a thermostable penicillin G acylase from an environmental metagenomic library

One clone (ACPGA001) exhibiting penicillin G acylase (PGA) activity was screened from a metagenomic library by using a medium containing penicillin G. A novel PGA gene from the inserted fragment of ACPGA001 was obtained by sequencing. The amino acid sequence of ACPGA001 PGA exhibited <33 % similarity to PGAs retrieved from GenBank. This gene was expressed in Escherichia coli M15 and the recombinant protein was purified and characterized. The ACPGA001 PGA exhibited a maximum activity at 60 °C and showed high activity at pH 4–10 with an optimum pH of 8.0. This enzyme was stable at 40 °C for 70 min with a half-life of 60 min at 55 °C. These beneficial characteristics of ACPGA001 PGA provide some advantages for the potential application of ACPGA001 PGA in industry.     

Identification and characterization of a novel cold-adapted esterase from a metagenomic library of mountain soil

A novel lipolytic enzyme was isolated from a metagenomic library after demonstration of lipolytic activity on an LB agar plate containing 1% (w/v) tributyrin. A novel esterase gene (estIM1), encoding a lipolytic enzyme (EstIM1), was cloned using a shotgun method from a pFosEstIM1 clone of the metagenomic library, and the enzyme was characterized. The estIM1 gene had an open reading frame (ORF) of 936 base pairs and encoded a protein of 311 amino acids with a molecular mass 34 kDa and a pI value of 4.32. The deduced amino acid sequence was 62% identical to that of an esterase from an uncultured bacterium (ABQ11271). The amino acid sequence indicated that EstIM1 was a member of the family IV of lipolytic enzymes, all of which contain a GDSAG motif shared with similar enzymes of lactic acid microorganisms. EstIM1 was active over a temperature range of 1–50°C, at alkaline pH. The activation energy for hydrolysis of p-nitrophenyl propionate was 1.04 kcal/mol, within a temperature range of 1–40°C. The activity of EstIM1 was about 60% of maximal even at 1°C, suggesting that EstIM1 is efficiently cold-adapted. Further characterization of this cold-adapted enzyme indicated that the esterase may be very valuable in industrial applications.     

Crystal structure of brefeldin A esterase, a bacterial homolog of the mammalian hormone-sensitive lipase

Brefeldin A esterase (BFAE), a detoxifying enzyme isolated from Bacillus subtilis, hydrolyzes and inactivates BFA, a potent fungal inhibitor of intracellular vesicle-dependent secretory transport and poliovirus RNA replication. We have solved the crystal structure of BFAE and we discovered that the previously reported amino acid sequence was in serious error due to frame shifts in the cDNA sequence. The correct sequence, inferred from the experimentally phased electron density map, revealed that BFAE is a homolog of the mammalian hormone sensitive lipase (HSL). It is a canonical alpha/beta hydrolase with two insertions forming the substrate binding pocket. The enzyme contains a lipase-like catalytic triad, Ser 202, Asp 308 and His 338, consistent with mutational studies that implicate the homologous Ser 424, Asp 693 and His 723 in the catalytic triad in human HSL.     

Isolation and characterization of a novel organic solvent-tolerant and halotolerant esterase from a soil metagenomic library

Soil metagenome conceals a great variety of unexploited genes for industrially important enzymes. To identify novel genes conferring lipolytic activity, one metagenomic library comprising of 200,000 transformants were constructed. Among the 48,000 clones screened, 19 clones which exhibited lipolytic activity were obtained. After sequence analysis, 19 different lipolytic genes were identified. One of these genes, designated as estWSD, consisted of 1152 nucleotides, encoding a 383-amino-acid protein. Multiple sequence alignment and phylogenetic analysis indicated that EstWSD and its closest homologues may constitute a new family of bacterial lipolytic enzymes. The best substrate for the purified EstWSD among the ρ-nitrophenol esters examined was ρ-nitrophenol butyrate. Recombinant EstWSD displayed a pH optimum of 7.0 and a temperature optimum of 50 °С. This enzyme retained 52% of maximal activity after incubation at 50 °C for 3 h. Furthermore, EstWSD also exhibited salt tolerance with over 51% of its initial activity in the presence of up to 4.5 M NaCl for 1 h. In particular, this enzyme showed remarkable stability in 15% and 30% dimethylsulfoxide, ρ-xylene, hexane, heptane, and octane even after incubation for 72 h. To our knowledge, it is the first report to find a novel esterase belonging to a new lipolytic family and possessing such variety of excellent features. All these characteristics suggest that EstWSD may be a potential candidate for application in industrial processes.