A new esterase showing similarity to putative dienelactone hydrolase from a strict marine bacterium, <Emphasis Type="Italic">Vibrio</Emphasis> sp. GMD509

Vibrio sp. GMD509, a marine bacterium isolated from eggs of the sea hare, exhibited lipolytic activity on tributyrin (TBN) plate, and the gene representing lipolytic activity was cloned. As a result, an open reading frame (ORF) consisting of 1,017 bp (338 aa) was found, and the deduced amino acid sequence of the ORF showed low similarity (<20%) to α/β hydrolases such as dienelactone hydrolases and esterase/lipase with G–X₁–S–X₂–G sequence conserved. Phylogenetic analysis suggested that the protein belonged to a new family of esterase/lipase together with various hypothetical proteins. The enzyme was overexpressed in Escherichia coli and purified to homogeneity. The purified enzyme (Vlip509) showed the best hydrolyzing activity toward p-nitrophenyl butyrate (C₄) among various p-nitrophenyl esters (C₂ to C₁₈), and optimal activity of Vlip509 occurred at 30°C and pH 8.5, respectively. Kinetic parameters toward p-nitrophenyl butyrate were determined as K _m (307 μM), k _cat (5.72 s⁻¹), and k _cat/K _m (18.61 s⁻¹ mM⁻¹). Furthermore, Vlip509 preferentially hydrolyzed the S-enantiomer of racemic ofloxacin ester. Despite its sequence homology to dienelactone hydrolase, Vlip509 showed no dienelactone hydrolase activity. This study represents the identification of a novel lipolytic enzyme from marine environment.     

A novel β-glucosidase with lipolytic activity from a soil metagenome

Moonlighting proteins have two different functions within a single polypeptide chain. Exploring moonlighting enzymes from the environment using the metagenomic approach is interesting. In the present study, a novel β-glucosidase gene, designated as bgl1D, with lipolytic activity (renamed Lip1C) was cloned through function-based screening of a metagenomic library from uncultured soil microorganisms. The deduced amino acid sequence comparison and phylogenetic analysis also indicated that Lip1C and other putative lipases are closely related. Biochemical characterization demonstrated that the maximum activity of the recombinant Lip1C protein occurs at pH 8.0 and 30°C using 4-nitrophenyl butyrate as substrate. The putative lipase had an apparent K _m value of 0.88 mmol/L, a k _cat value of 212/min, and a k _cat/K _m value of 241 L/mmol/min. Lip1C exhibited habitat-specific characteristics with 5 mmol/L AlCl₃, CuCl₂, and LiCl. The characterization of the biochemical properties of Lip1C enhances our understanding of this novel moonlighting enzyme isolated from a soil metagenome.     

Identification and characterization of novel esterases from a deep-sea sediment metagenome

A deep-sea sediment metagenomic library was constructed and screened for lipolytic enzymes by activity-based approach. Nine novel lipolytic enzymes were identified, and the amino acid sequences shared 56% to 84% identity to other lipolytic enzymes in the database. Phylogenetic analysis showed that these enzymes belonged to family IV lipolytic enzymes. One of the lipolytic enzymes, Est6, was successfully cloned and expressed in Escherichia coli Rosetta in a soluble form. The recombinant protein was purified by Ni-nitrilotriacetic affinity chromatography column and characterized using p-nitrophenyl esters with various chain lengths. The est6 gene consisted of 909 bp that encoded 302 amino acid residues. Est6 was most similar to a lipolytic enzyme from uncultured bacterium (ACL67845, 61% identity) isolated from the South China Sea marine sediment metagenome. The characterization of Est6 revealed that it was a cold-active esterase and exhibited the highest activity toward p-nitrophenyl butyrate (C4) at 20°C and pH 7.5.     

A novel, extremely alkaliphilic and cold-active esterase from Antarctic desert soil

A novel, cold-active and highly alkaliphilic esterase was isolated from an Antarctic desert soil metagenomic library by functional screening. The 1,044 bp gene sequence contained several conserved regions common to lipases/esterases, but lacked clear classification based on sequence analysis alone. Moderate (<40%) amino acid sequence similarity to known esterases was apparent (the closest neighbour being a hypothetical protein from Chitinophaga pinensis), despite phylogenetic distance to many of the lipolytic “families”. The enzyme functionally demonstrated activity towards shorter chain p-nitrophenyl esters with the optimal activity recorded towards p-nitrophenyl propionate (C3). The enzyme possessed an apparent T_opt at 20°C and a pH optimum at pH 11. Esterases possessing such extreme alkaliphily are rare and so this enzyme represents an intriguing novel locus in protein sequence space. A metagenomic approach has been shown, in this case, to yield an enzyme with quite different sequential/structural properties to known lipases. It serves as an excellent candidate for analysis of the molecular mechanisms responsible for both cold and alkaline activity and novel structure–function relationships of esterase activity.     

A novel,versatile family IV carboxylesterase exhibits high stability and activity in a broad pH spectrum

Objectives

To investigate the properties of a novel metagenome-derived member of the hormone-sensitive lipase family of lipolytic enzymes.

Results

A forest soil metagenome-derived gene encoding an esterase (Est06) belonging to the hormone-sensitive lipase family of lipolytic enzymes was subcloned, heterologously expressed and characterized. Est06 is a polypeptide of 295 amino acids with a molecular mass of 31 kDa. The deduced protein sequence shares 61% similarity with a hypothetical protein from the marine symbiont Candidatus Entotheonella sp. TSY1. Purified Est06 exhibited high affinity for acyl esters with short-chain fatty acids, and showed optimum activity with p-nitrophenyl valerate (C5). Maximum enzymatic activity was at 50 °C and pH 7. Est06 exhibited high stability at moderate temperatures by retaining all of its catalytic activity below 30 °C over 13 days. Additionally, Est06 displayed high stability between pH 5 and 9. Esterase activity was not inhibited by metal ions or detergents, although organic solvents decreased activity.

Conclusions

The combination of Est06 properties place it among novel biocatalysts that have potential for industrial use including low temperature applications.

     

Cloning,expression and characterization of a halotolerant esterase from a marine bacterium <Emphasis Type="Italic">Pelagibacterium halotolerans</Emphasis> B2<Superscript>T</Superscript>

An esterase PE10 (279 aa) from Pelagibacterium halotolerans B2^T was cloned and overexpressed in Escherichia coli Rosetta in a soluble form. The deduced protein was 29.91 kDa and the phylogenetic analysis of the deduced amino acids sequence showed it represented a new family of lipolytic enzymes. The recombinant protein was purified by Ni–NTA affinity chromatography column and the characterization showed its optimal temperature and pH were 45 °C and pH 7.5, respectively. Substrate specificity study showed PE10 preferred short chain p-nitrophenyl esters and exhibited maximum activity toward p-nitrophenyl acetate. In addition, PE10 was a halotolerant esterase as it was still active under 4 M NaCl. Three-dimensional modeling of PE10 suggested that the high negative electrostatic potential on the surface may relevant to its tolerance to high salt environment. With this halotolerance property, PE10 could be a candidate for industrial use.     

Identification and Characterization of Lipolytic Enzymes from a Peat-Swamp Forest Soil Metagenome

In this work, a metagenomic library was generated from peat-swamp forest soil obtained from Narathiwat Province, Thailand. From a fosmid library of approximately 15,000 clones, six independent clones were found to possess lipolytic activity at acidic pH. Analysis of pyrosequencing data revealed six ORFs, which exhibited 34–71% protein similarity to known lipases/esterases. A fosmid clone, designated LP8, which demonstrated the highest level of lipolytic activity under acidic conditions and demonstrated extracellular activity, was subsequently subcloned and sequenced. The full-length lipase/esterase gene, estPS2, was identified. Its deduced amino acid was closely related to a lipolytic enzyme of an uncultured bacterium, and contained the highly conserved motif of a hormone-sensitive family IV lipase. The EstPS2 enzyme exhibited highest activity toward p-nitrophenyl butyrate (C₄) at 37 °C at pH 5, indicating that it was an esterase with activity and secretion characteristics suitable for commercial development.     

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.     

Cloning, production, purification and preliminary crystallographic analysis of a glycosidase from the food lactic acid bacterium Lactobacillus plantarum CECT 748

In recent years, the exquisite stereoselectivity and high efficiency of carbohydrate-processing enzymes have been exploited for many biotechnological applications, including flavor enhancement in foods. In particular, much attention has been focused on the use of β-glucosidases for the enzymatic hydrolysis of flavorless glycoconjugates present in juices and wine beverages for the release aroma volatiles. With the aim to analyze a novel glycosidase with potential applications food industry we have produced and structurally characterized the Bgl glycosidase from the food lactic acid bacterium Lactobacillus plantarum. For that purpose, we have cloned and heterologously expressed the bgl gene (lp_3629) in Escherichia coli. The recombinant protein containing an amino terminal His₆ tag (Bgl) has been produced in a soluble form. Purified recombinant enzyme shows galactosidase activity against 4-nitrophenyl β-d-galactopyranoside but not glucosidase activity. Analytical size-exclusion gel filtration chromatography reveals that Bgl behaves in solution as a mixture of monomeric and a high-molecular weight assembly. Purified Bgl has been crystallized by the hanging-drop vapor-diffusion method at 18 °C. Diffraction data have been collected at ESRF to a resolution of 2.4 Å. The crystals belong to the space group C2 with unit-cell parameters a = 196.7, b = 191.7, c = 105.9, β = 102.7°. The structure refinement is in progress.     

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.     

Gene cloning,expression and characterization of a cold-adapted lipase from a psychrophilic deep-sea bacterium Psychrobacter sp. C18

A psychrophilic bacterium Psychrobacter sp. C18 previously isolated from the Southern Okinawa Trough deep-sea sediments showed extracellular lipolytic activity towards tributyrin. A genomic DNA library was constructed and screened to obtain the corresponding lipase gene. The sequenced DNA fragment contains an open reading frame of 945 bp, which was denoted as the lipX gene, from which a protein sequence LipX was deduced of 315 amino acid residues with a molecular mass of 35,028 Da. This protein contained the bacterial lipase GNSMG (GxSxG, x represents any amino acid residue) and HG consensus motifs. The recombinant pET28a(+)/lipX gene was overexpressed in heterologous host Escherichia coli BL21 (DE3) cells to overproduce the lipase protein LipX_His with a 6× histidine tag at its C-terminus. Nickel affinity chromatography was used for purification of the expressed recombinant lipase. The maximum lipolytic activity of the purified recombinant lipase was obtained at temperature of 30°C and pH 8.0 with p-nitrophenyl myristate (C14) as a substrate. Thermostability assay indicated that the recombinant LipX_His is a cold-adapted lipase, which was active in 10% methanol, ethanol, acetone and 30% glycol, and inhibited partially by Zn²⁺, Co²⁺, Mn²⁺, Fe³⁺ and EDTA. Most non-ionic detergents, such as DMSO, Triton X-100, Tween 60 and Tween 80 enhanced the lipase activity but 1% SDS completely inhibited the enzyme activity. Additionally, the highest lipolytic rate of the recombinant LipX_His lipase was achieved when p-nitrophenyl myristate was used as a substrate, among all the p-nitrophenyl esters tested.     

Molecular characterization of phenylalanine ammonia lyase gene from <Emphasis Type="Italic">Cistanche deserticola</Emphasis>

We cloned the gene, CdPAL1, from Cistanche deserticola callus using RACE PCR with degenerate primers that were designed based on a multiple sequence alignment of known PAL genes from other plant species. The gene shows high homology to other known PAL genes registered in GenBank. The recombinant protein exhibited Michaelis–Menten kinetics with a K _m of 0.1013 mM, V _max of 4.858 μmol min⁻¹, K _cat of 3.36 S⁻¹, and K _cat/K _m is 33,168 M⁻¹ S⁻¹. The enzyme had an optimal pH of 8.5 and an activation energy of 38.92 kJ mol⁻¹ when l-Phenylalanine was used as a substrate; l-tyrosine cannot be used as substrate for this protein. The optimal temperature was 55°C, and the thermal stability results showed that, after a treatment at 70°C for 20 min, the protein retained 87% activity, while a treatment at 75°C for 20 min resulted in a loss of over 85% of the enzyme activity. Treatment with heavy metal ions (Hg²⁺, Pb²⁺, and Zn²⁺) showed remarkable inhibitory effects. Among the intermediates from the lignin (cinnamyl alcohol, cinnamyl aldehyde, coniferyl aldehyde, coniferyl alcohol), phenylpropanoid (cinnamic acid, coumaric acid, caffeic acid, and chlorogenic acid) and phenylethanoid (tyrosol and salidroside) biosynthetic pathways, only cinnamic acid showed strong inhibitory effects against CdPAL1 activity with a K _i of 8 μM. Competitive inhibitor AIP exhibited potent inhibition with K _i = 0.056 μM.     

Isolation and Characterization of a GDSL Esterase from the Metagenome of a Marine Sponge-associated Bacteria

Using a metagenome library constructed from a bacterial associated with a marine sponge Hyrtios erecta, we identified a novel esterase that belongs to the SGNH hydrolase superfamily of esterases. The substrate specificity of EstHE1 was determined using p-nitrophenyl (pNP) ester (C2: acetate, C4: butylate, C6: caproate, C12: laurate, C16: palmitate). EstHE1 exhibited activity against C2 (5.6 U/mg), C4 (5.1 U/mg), and C6 (2.8 U/mg) substrates. The optimal temperature for EstHE1 esterase activity of the pNP acetate substrate was 40°C, and EstHE1 retained 60% of its enzymatic activity in the 30–50°C range. This esterase showed moderate thermostability, retaining 58% of its activity even after preincubation for 12 h at 40°C. EstHE1 also maintained activity in high concentrations of NaCl, indicating that this esterase is salt-tolerant. Thus, EstHE1 has the thermal stability and salt tolerance necessary for use as an industrial enzyme.     

Isolation of a low-temperature adapted lipolytic enzyme from uncultivated micro-organism

Aims: The aim of the study was to isolate a novel lipolytic enzyme from the activated sludge of uncultured micro‐organisms. Methods and Results: The metagenomic DNA was directly extracted from the activated sludge, and a metagenomic library was constructed by using the pUC vector. The library was screened for lipolytic enzyme activity on 1% tributyrin agar plate. A clone among c. 100 000 recombinant libraries showed the lipolytic activity. The putative lipolytic gene encoding lipo1 from the metagenomic library was subcloned and expressed in Escherichia coli BL21 using the pET expression system. The expressed recombinant enzyme was purified by Ni‐nitrilotriacetic acid affinity chromatography and characterized using general substrates of lipolytic property. The gene consisted of 972 bp encoding a polypeptide of 324 amino acids with a molecular mass of 35·6 kDa. Typical residues essential for lipolytic activity such as penta‐peptide (GXSXG) and catalytic triad sequences (Ser166, Asp221 and His258) were detected. The deduced amino acid sequence of lipo1 showed low identity with amino acid sequences of esterase/lipase (32%, ZP_01528487 ) from Pseudomonas mendocina ymp and esterase (31%, AAY45707 ) from uncultured bacterium. This lipolytic enzyme exhibited the highest activity at pH 7·5 and 10°C. At thermal stability analysis, lipo1 was more unstable at 40°C than 10°C. Conclusions: An activity based strategy has been an effective method for fishing out a low‐temperature adapted lipolytic enzyme from the metagenomic library. This lipo1 enzyme can be considered to belong to the hormone‐sensitive lipase family due to the enzyme’s oxyanion hole by the sequence HGGG. Significance and Impact of the Study: Lipo1 is a novel psychrophilic esterase obtained directly from the metagenomic library. Owing its support of significant activity at low temperature, this enzyme is expected to be useful for potential application as a biocatalyst in organic chemistry.     

An L-arabinose isomerase from Acidothermus cellulolytics ATCC 43068: cloning, expression, purification, and characterization

The araA gene encoding an L-arabinose isomerase (L-AI) from the acido-thermophilic bacterium Acidothermus cellulolytics ATCC 43068 was cloned and overexpressed in Escherichia coli. The open reading frame of the L-AI consisted of 1,503 nucleotides encoding 501 amino acid residues. The recombinant L-AI was purified to homogeneity by heat treatment, ion-exchange chromatography, and gel filtration. The molecular mass of the enzyme was estimated to be approximately 55 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purified enzyme was optimally active at 75°C and pH 7.5. It required divalent metal ions, either Mn²⁺ or Co²⁺, for both enzymatic activity and thermostability improvement at higher temperatures. The enzyme showed relatively high activity and stability at acidic pH. It exhibited over 90% of its maximal activity at pH 6.0 and retained 80% of activity after 12 h incubation at pH 6.0. Catalytic property study showed that the enzyme had an interesting catalytic efficiency. Its apparent K _m, V _max, and catalytic efficiency (k _cat/K _m) for D-galactose was 28.9 mM, 4.9 U/mg, and 9.3 mM⁻¹ min⁻¹, respectively. The enzyme carried out the isomerization of D-galactose to D-tagatose with a conversion yield over 50% after 12 h under optimal conditions, suggesting its potential in D-tagatose production.     

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.     

Characterization of a novel alkaline esterase from Altererythrobacter epoxidivorans CGMCC 1.7731T

A novel esterase gene (e25) was identified from Altererythrobacter epoxidivorans CGMCC 1.7731^T by genome sequence screening. The e25 gene is 948 nucleotides in length and encodes a 315?amino acid protein (E25) with a predicted molecular mass of 33,683 Da. A phylogenetic tree revealed that E25 belongs to the hormone-sensitive lipase (HSL) family of lipolytic enzymes. An activity assay of E25 showed that it exhibited the highest catalytic efficiency when using p-nitrophenyl caproate (C6) as a substrate. The optimum pH and temperature were determined to be approximately pH 9 and 45°C, and the K_m and V_max values were 0.12?mM and 1,772?µmol/min/mg, respectively. After an incubation at 40°C for 80?min, E25 retained 75% of its basal activity. The enzyme exhibited good tolerance to metal cations, such as Ba²⁺, Ca²⁺, and Cu²⁺ (10?mM), but its activity was strongly inhibited by Co²⁺, Ni²⁺, Mn²⁺, and Zn²⁺. The E25 enzyme was stimulated by glycerol and retained over 60% of its basal activity in the presence of 1% Tween-80 and Triton X-100. Overall, the activity of E25 under alkaline conditions and its organic solvent and detergent tolerance indicate that E25 could be useful as a novel industrial catalyst in biotechnological applications.     

Heterologous expression and characterization of a proxidomal ascorbate peroxidase from <Emphasis Type="Italic">Populus tomentosa</Emphasis>

The present study reported for the first time, cloning, expression and characteristics of a Proxidomal APX gene (PpAPX) from Populus tomentosa. The PpAPX gene encodes a protein of 287 amino acid residues with a calculated molecular mass of 31.58 kDa. The over-expressed recombinant PpAPX protein showed high activity towards the substrates ascorbate aicd (ASA) and H₂O₂. At fixed ASA concentrations, the K _m and V _max values were 0.12 ± 0.01 mM and 23.4 ± 4.2 mmol/min mg for H₂O₂. And at fixed H₂O₂ concentrations, the K _m and V _max values were 0.53 ± 0.04 mM and 20.0 ± 2.3 mmol/min mg for ASA.     

Heterologous expression in Escherichia coli of Neurospora crassa neutral trehalase as an active enzyme

Neutral trehalase from Neurospora crassa was expressed in Escherichia coli as a polypeptide of 84 kDa in agreement with the theoretical size calculated from the corresponding cDNA. The recombinant neutral trehalase, purified by affinity chromatography exhibited a specific activity of 80–150 mU/mg protein. Optima of pH and temperature were 7.0 and 30 °C, respectively. The enzyme was absolutely specific for trehalose, and was quite sensitive to incubation at 40 °C. The recombinant enzyme was totally dependent on calcium, and was inhibited by ATP, copper, silver, aluminium and cobalt. K_M was 42 mM, and V_max was 30.6 nmol of glucose/min. The recombinant protein was phosphorylated by cAMP-dependent protein kinase, but not significantly activated. Immunoblotting with polyclonal antiserum prepared against the recombinant protein showed that neutral trehalase protein levels increased during exponential phase of N. crassa growth and dropped at the stationary phase. This is the first report of a neutral trehalase produced in E. coli with similar biochemical properties described for fungi native neutral trehalases, including calcium-dependence.