Characterization of two novel lipase genes isolated directly from environmental sample

Two novel lipase genes (lipJ02, lipJ03) were isolated directly from environmental DNA via genome-walking method. Lipase gene lipJ02 contained an open reading frame (ORF) of 1,425 bp and encoded a 474-amino acids lipase protein, while lipase gene lipJ03 contained an ORF of 1,413 bp and encoded a 470-amino acids lipase protein. The lipase genes were cloned into expression vector pPIC9K and successfully integrated into a heterologous fungal host, Pichia pastoris KM71, and the recombinant P. pastoris were screened via a high-throughput method. The recombinants were induced by methanol to secrete active lipases into cultural medium. The recombinant lipases were also purified and characterized. The optimum temperature for the purified lipase LipJ02 and LipJ03 was 30 and 35°C, respectively, at pH 8.0. They exhibited similar thermostability, but LipJ02 exhibited better pH stability than LipJ03.     

A novel thermostable branching enzyme from an extremely thermophilic bacterial species, Rhodothermus obamensis

A branching enzyme (EC 2.4.1.18) gene was isolated from an extremely thermophilic bacterium, Rhodothermus obamensis. The predicted protein encodes a polypeptide of 621 amino acids with a predicted molecular mass of 72 kDa. The deduced amino acid sequence shares 42-50% similarity to known bacterial branching enzyme sequences. Similar to the Bacillus branching enzymes, the predicted protein has a shorter N-terminal amino acid extension than that of the Escherichia coli branching enzyme. The deduced amino acid sequence does not appear to contain a signal sequence, suggesting that it is an intracellular enzyme. The R. obamensis branching enzyme was successfully expressed both in E. coli and a filamentous fungus, Aspergillus oryzae. The enzyme showed optimum catalytic activity at pH 6.0-6.5 and 65 degrees C. The enzyme was stable after 30 min at 80 degrees C and retained 50% of activity at 80 degrees C after 16 h. Branching activity of the enzyme was higher toward amylose than toward amylopectin. This is the first thermostable branching enzyme isolated from an extreme thermophile.     

Cloning of an endo-1,4-beta-xylanase gene from Penicillium canescens and construction of multicopy strains

The complete gene xylA that encodes endo-1,4-beta-xylanase secreted by Penicillium canescens was cloned and sequenced. The coding region of the gene is separated by eight introns. The protein comprises 302 amino acids of the mature protein and 25 amino acids of the signal peptide. The xylanase of P. canescens belongs to the glycosyl hydrolase family 10. Nucleotide sequences for binding catabolite repression protein CREA and transactivator protein were detected in the promoter region. A set of multicopy strains displaying a seven-eightfold increase in xylanase yield was obtained. The fraction of xylanase in most productive strains amounted to 30-50% of the total secreted protein.     

Cloning of the gene encoding a novel thermostable alpha-galactosidase from Thermus brockianus ITI360.

An alpha-galactosidase gene from Thermus brockianus ITI360 was cloned, sequenced, and expressed in Escherichia coli, and the recombinant protein was purified. The gene, designated agaT, codes for a 476-residue polypeptide with a calculated molecular mass of 53, 810 Da. The native structure of the recombinant enzyme (AgaT) was estimated to be a tetramer. AgaT displays amino acid sequence similarity to the alpha-galactosidases of Thermotoga neapolitana and Thermotoga maritima and a low-level sequence similarity to alpha-galactosidases of family 36 in the classification of glycosyl hydrolases. The enzyme is thermostable, with a temperature optimum of activity at 93 degrees C with para-nitrophenyl-alpha-galactopyranoside as a substrate. Half-lives of inactivation at 92 and 80 degrees C are 100 min and 17 h, respectively. The pH optimum is between 5.5 and 6.5. The enzyme displayed high affinity for oligomeric substrates. The K(m)s for melibiose and raffinose at 80 degrees C were determined as 4.1 and 11.0 mM, respectively. The alpha-galactosidase gene in T. brockianus ITI360 was inactivated by integrational mutagenesis. Consequently, no alpha-galactosidase activity was detectable in crude extracts of the mutant strain, and it was unable to use melibiose or raffinose as a single carbohydrate source.     

A symbiont-independent endo-1,4-beta-xylanase from the plant-parasitic nematode Meloidogyne incognita

Substituted xylan polymers constitute a major part of the hemicellulose fraction of plant cell walls, especially in monocotyledons. Endo-1,4-beta-xylanases (EC 3.2.1.8) are capable of hydrolyzing substituted xylan polymers into fragments of random size. Many herbivorous animals have evolved intimate relationships with endosymbionts to exploit their enzyme complexes for the degradation of xylan. Here, we report the first finding of a functional endo-1,4-beta-xylanase gene from an animal. The gene (Mi-xyl1) was found in the obligate plant-parasitic root-knot nematode Meloidogyne incognita, and encodes a protein that is classified as a member of glycosyl hydrolase family 5. The expression of Mi-xyl1 is localized in the subventral esophageal gland cells of the nematode. Previous studies have shown that M. incognita has the ability to degrade cellulose and pectic polysaccharides in plant cell walls independent of endosymbionts. Including our current data on Mi-xyl1, we show that the endogenous enzyme complex in root-knot nematode secretions targets essentially all major cell wall carbohydrates to facilitate a stealthy intercellular migration in the host plant.     

Purification and characterization of an extremely thermostable cyclomaltodextrin glucanotransferase from a newly isolated hyperthermophilic archaeon, a Thermococcus sp

The extremely thermophilic anaerobic archaeon strain B1001 was isolated from a hot-spring environment in Japan. The cells were irregular cocci, 0.5 to 1.0 micrometers in diameter. The new isolate grew at temperatures between 60 and 95 degrees C (optimum, 85 degrees C), from pH 5.0 to 9.0 (optimum, pH 7.0), and from 1.0 to 6.0% NaCl (optimum, 2.0%). The G+C content of the genomic DNA was 43.0 mol%. The 16S rRNA gene sequencing of strain B1001 indicated that it belongs to the genus Thermococcus. During growth on starch, the strain produced a thermostable cyclomaltodextrin glucanotransferase (CGTase). The enzyme was purified 1,750-fold, and the molecular mass was determined to be 83 kDa by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis. Incubation at 120 degrees C with SDS and 2-mercaptoethanol was required for complete unfolding. The optimum temperatures for starch-degrading activity and cyclodextrin synthesis activity were 110 and 90 to 100 degrees C, respectively. The optimum pH for enzyme activity was pH 5.0 to 5.5. At pH 5.0, the half-life of the enzyme was 40 min at 110 degrees C. The enzyme formed mainly alpha-cyclodextrin with small amounts of beta- and gamma-cyclodextrins from starch. This is the first report on the presence of the extremely thermostable CGTase from hyperthermophilic archaea.     

Isolation and functional expression of a novel lipase gene isolated directly from oil-contaminated soil

A lipase gene SR1 encoding an extracellular lipase was isolated from oil-contaminated soil and expressed in Escherichia coli. The gene contained a 1845-bp reading frame and encoded a 615-amino-acid lipase protein. The mature part of the lipase was expressed with an N-terminal histidine tag in E. coli BL21, purified and characterized biochemically. The results showed that the purified lipase combines the properties of Pseudomonas chlororaphis and other Serratia lipases characterized so far. Its optimum pH and temperature for hydrolysis activity was pH 5.5-8.0 and 37°C respectively. The enzyme showed high preference for short chain substrates (556.3±2.8 U/μg for C10 fatty acid oil) and surprisingly it also displayed high activity for long-chain fatty acid. The deduced lipase SR1 protein is probably from Serratia, and is organized as a prepro-protein and belongs to the GXSXG lipase family.     

Characterization of a thermostable DNA photolyase from an extremely thermophilic bacterium, Thermus thermophilus HB27.

The photolyase gene from Thermus thermophilus was cloned and sequenced. The characteristic absorption and fluorescence spectra of the purified T. thermophilus photolyase suggested that the protein has flavin adenine dinucleotide as a chromophore. The second chromophore binding site was not conserved in T. thermophilus photolyase. The purified enzyme showed light-dependent photoreactivation activity in vitro at 35 and 65 degrees C and was stable when subjected to heat and acidic pH.     

A novel type I thermostable pullulanase isolated from a thermophilic starch enrichment culture

In this paper we report identification, cloning and characterization of a novel thermostable pullulanase type I. Pullulanase AmyA1 was detected in a sample of extracellular proteins of thermophilic enrichment culture, growing on starch. The zone of enzymatic activity in zymogram was aligned with the corresponding band on the equivalent gel without substrate. The band was excised from SDS/polyacrylamide gel and subjected to liquid chromatography/mass spectrometry (LC/MS) analysis. LC/MS-based analysis identified thermostable pullulanases, homologues to type I pullulanases of Geobacillus thermodenitrificans NG80-2 and Geobacillus sp. G11MC16. Nucleotide sequences of these two pullulanases were used for design of primers for PCR with DNA from enrichment culture, leaded to 2181 bp PCR product, coding a 726 amino acids protein, named pullulanase AmyA1. Molecular weight of AmyA1 was calculated to be 81.7 kDa. AmyA1 was cloned and expressed in Escherichia coli. Recombinant pullulanase was purified by two chromatographic separation steps. Pullulanase AmyA1 was active against pullulan, glycogen and soluble starch. It was active in the temperature range of 4–95°C, optimum temperature was determined to be 60°C. The highest activity of the recombinant pullulanase was observed at pH 6. Divalent cations Mg²⁺ and Mn²⁺ as well as dithiothreitol, Brij 35 and Brij 58 had a stimulating effect on the enzymatic activity. Pullulanase AmyA1 was stable during incubation in the presence of 4 M urea. After removal of the His-tag, addition of Ca²⁺ stimulated activity of the enzyme suggesting the native pullulanase activity to be dependent on Ca²⁺. Thermostability of AmyA1 was not enhanced by the addition of Ca²⁺.     

Endo-1,4-beta-xylanase B from Aspergillus cf. niger BCC14405 isolated in Thailand: purification, characterization and gene isolation

During the screening of xylanolytic enzymes from locally isolated fungi, one strain BCC14405, exhibited high enzyme activity with thermostability. This fugal strain was identified as Aspergillus cf. niger based on its morphological characteristics and internal transcribed spacer (ITS) sequences. An enzyme with xylanolytic activity from BCC14405 was later purified and characterized. It was found to have a molecular mass of ca. 21 kDa, an optimal pH of 5.0, and an optimal temperature of 55 degrees C. When tested using xylan from birchwood, it showed K(m) and V(max) values of 8.9 mg/ml and 11,100 U/mg, respectively. The enzyme was inhibited by CuSO(4) EDTA, and by FeSO(4) The homology of the 20-residue N-terminal protein sequence showed that the enzyme was an endo-1,4-beta-xylanase. The full-length gene encoding endo-1,4-beta-xylanase from BCC14405 was obtained by PCR amplification of its cDNA. The gene contained an open reading frame of 678 bp, encoding a 225 amino acid protein, which was identical to the endo-1,4-a-xylanase B previously identified in A. niger.     

Isolation and characterization of the gene encoding a novel, thermostable serine proteinase from the mould Tritirachium album Limber

A number of proteinases are induced and secreted into the culture medium of Tritirachium album Limber when the nitrogen source is limited to exogenous proteins. We have constructed a cDNA library using the polyadenylated RNA isolated during the nutritional induction with bovine serum albumin. A full-length clone of a gene for a new proteinase (named proteinase R) was identified from this library. This clone contained sequences coding for the 108-amino-acid prepro-leader as well as for the 279-amino-acid mature proteinase. Proteinase R apparently belongs to the subtilisin group of serine proteases that contains disulphide bonds. Homology between proteinase R and proteinase K was found to be about 87% at the nucleotide as well as at the amino acid level. The Brookhaven Protein Data Base co-ordinate file of proteinase K was used as a template to study the proteinase R substitutions in three-dimensional space. The majority of the substitutions of proteinase R with respect to proteinase K were found to be on the exterior of the protein model.     

Cloning and characterization of a gene encoding a new thermostable hemolysin from Vibrio parahaemolyticus

A new thermostable hemolysin (delta-VPH) gene was cloned from a Kanagawa-negative Vibrio parahaemolyticus strain into vector pBR322 in Escherichia coli K12. The nucleotide and amino acid sequences had no homology with those of the thermostable direct hemolysin (TDH) which causes the Kanagawa phenomenon, and of the thermolabile hemolysin (TLH) of V. parahaemolyticus. The gene was present in all V. parahaemolyticus strains tested and also in one strain of V. damsela.     

Cloning and DNA sequencing of xyaA, a gene encoding an endo-beta-1,4-xylanase from an alkalophilic Bacillus strain (N137).

The gene xyaA encoding an alkaline endo-beta 1,4-xylanase from an alkalophilic Bacillus sp. strain (N137) isolated in our laboratory was cloned and expressed in Escherichia coli. The nucleotide sequence of a 1,656-bp DNA fragment containing xyaA was determined, revealing one open reading frame of 993 bp that encodes a xylanase (XyaA) of 39 kDa. This xylanase lacks a typical putative signal peptide, yet the protein is found in the Bacillus culture supernatant. In Escherichia coli, the active protein is located mainly in the periplasmic space. The xylanase activity of the cloned XyaA is an endo-acting enzyme that shows optimal activity at pH 8 and 40 degrees C. This activity is stable at a pH between 6 and 11. Incubations of XyaA at 40 degrees C for 1 h destroyed 45% of the activity.     

High-fidelity amplification using a thermostable DNA polymerase isolated from Pyrococcus furiosus.

A thermostable DNA polymerase which possesses an associated 3'-to-5' exonuclease (proofreading) activity has been isolated from the hyperthermophilic archaebacterium, Pyrococcus furiosus (Pfu). To test its fidelity, we have utilized a genetic assay that directly measures DNA polymerase fidelity in vitro during the polymerase chain reaction (PCR). Our results indicate that PCR performed with the DNA polymerase purified from P. furiosus yields amplification products containing less than 10% of the number of mutations obtained from similar amplifications performed with Taq DNA polymerase. The PCR fidelity assay is based on the amplification and cloning of lacI, lacO and lacZ alpha gene sequences (lacIOZ alpha) using either Pfu or Taq DNA polymerase. Certain mutations within the lacI gene inactivate the Lac repressor protein and permit the expression of beta Gal. When plated on a chromogenic substrate, these LacI- mutants exhibit a blue-plaque phenotype. These studies demonstrate that the error rate per nucleotide induced in the 182 known detectable sites of the lacI gene was 1.6 x 10(-6) for Pfu DNA polymerase, a greater than tenfold improvement over the 2.0 x 10(-5) error rate for Taq DNA polymerase, after approx. 10(5)-fold amplification.     

A novel gene encoding an enzyme that degrades a polysaccharide from the sheath of Sphaerotilus natans

A gene encoding an enzyme that is able to depolymerize the basic polysaccharide prepared from the sheath of Sphaerotilus natans was identified in a sheath-degrading bacterium, Paenibacillus koleovorans. The gene was constructed from 2217 bp coding for 738 amino acids, including the signal sequence of 34 amino acids. No closely related protein or gene was indicated by a homology search. The gene was expressed in Escherichia coli as a glutathione S-transferase fusion protein. The fusion protein depolymerized the sheath polysaccharide into an oligosaccharide, introducing an unsaturated sugar residue, suggesting that the gene codes for a polysaccharide lyase acting on a basic polysaccharide.     

A gene encoding a novel multidomain beta-1,4-mannanase from Caldibacillus cellulovorans and action of the recombinant enzyme on kraft pulp

Genomic walking PCR was used to obtained a 4,567-bp nucleotide sequence from Caldibacillus cellulovorans. Analysis of this sequence revealed that there were three open reading frames, designated ORF1, ORF2, and ORF3. Incomplete ORF1 encoded a putative C-terminal cellulose-binding domain (CBD) homologous to members of CBD family IIIb, while putative ORF3 encoded a protein of unknown function. The putative ManA protein encoded by complete manA ORF2 was an enzyme with a novel multidomain structure and was composed of four domains in the following order: a putative N-terminal domain (D1) of unknown function, an internal CBD (D2), a beta-mannanase catalytic domain (D3), and a C-terminal CBD (D4). All four domains were linked via proline-threonine-rich peptides. Both of the CBDs exhibited sequence similarity to family IIIb CBDs, while the mannanase catalytic domain exhibited homology to the family 5 glycosyl hydrolases. The purified recombinant enzyme ManAd3 expressed from the cloned catalytic domain (D3) exhibited optimum activity at 85 degrees C and pH 6.0 and was extremely thermostable at 70 degrees C. This enzyme exhibited high specificity with the substituted galactomannan locust bean gum, while more substituted galacto- and glucomannans were poorly hydrolyzed. Preliminary studies to determine the effect of the recombinant ManAd3 and a recombinant thermostable beta-xylanase on oxygen-delignified Pinus radiata kraft pulp revealed that there was an increase in the brightness of the bleached pulp.     

Characterization of a novel cyclomaltodextrinase expressed from environmental DNA isolated from Bor Khleung hot spring in Thailand

A novel gene belonging to the alpha-amylase family was isolated directly from community DNA obtained from soil sediments collected from Bor Khleung hot spring in Thailand. Partial sequences harboring four conserved regions of the alpha-amylase family were amplified by PCR using degenerate primers. Upstream and downstream sequences of these fragments were obtained by a genome walking approach to identify a full-length gene (Env cda13A) encoding 619 amino acids. Amino acid sequence alignments of Env Cda13A with other enzymes suggested that this enzyme was a cyclomaltodextrinase. The Env cda13A gene was expressed in Pichia pastoris as a secreted functional protein of 68 kDa. The partially purified enzyme was shown to be monomeric and hydrolyzed various maltodextrins from maltotriose to maltoheptaose and cyclomaltodextrins to give maltose and glucose as the main products. The enzyme also hydrolyzed pullulan and soluble starch to yield glucose, but the rate of hydrolysis was slow. This study demonstrated the possibility of isolating potentially novel enzymes directly from natural environments and opens an unexplored biodiversity resource in Thailand for future novel gene discoveries.     

A halorhodopsin-overproducing mutant isolated from an extremely haloalkaliphilic archaeon Natronomonas pharaonis

The halorhodopsin (hR)-overproducing mutant strain KM-1 was isolated from the extremely haloalkaliphilic archaeon Natronomonas pharaonis type strain DSM2160(T). hR-enriched membranes were easily obtained by washing the cells with distilled water. The membranes were claret colored owing to two pigments: hR and bacterioruberin. The hR component in the absorption spectra changed from blue to purple upon the addition of Cl(-) and had a K(m) value of 1.7mM. Overexpression of hR in strain KM-1 might be caused by the point mutation Asp324-->Asn in the bacteriorhodopsin activator homologues of N. pharaonis. The mutation changed the hR-expression pattern from inducible to constitutive in the late exponential phase.     

A novel thermostable xylanase of Paenibacillus macerans IIPSP3 isolated from the termite gut

Xylanase is an enzyme in high demand for various industrial applications, such as those in the biofuel and pulp and paper fields. In this study, xylanase-producing microbes were isolated from the gut of the wood-feeding termite at 50°C. The isolated microbe produced thermostable xylanase that was active over a broad range of temperatures (40-90°C) and pH (3.5-9.5), with optimum activity (4,170 ± 23.5 U mg?1) at 60°C and pH 4.5. The enzyme was purified using a strong cation exchanger and gel filtration chromatography, revealing that the protein has a molecular mass of 205 kDa and calculated pI of 5.38. The half-life of xylanase was 6 h at 60°C and 2 h at 90°C. The isolated thermostable xylanase differed from other xylanases reported to date in terms of size, structure, and mode of action. The novelty of this enzyme lies in its high specific activity and stability at broad ranges of temperature and pH. These properties suggest that this enzyme could be utilized in bioethanol production as well as in the paper and pulp industry.