Heterologous production of the Piromyces equi cinnamoyl esterase in Trichoderma reesei for biotechnological applications

Aims:  The objective of the study was to produce and characterize the cinnamoyl esterase EstA from the anaerobic fungus Piromyces equi for potential industrial applications.
Methods and Results:  The catalytic domain EstA was produced in Trichoderma reesei. Because the two fungi displayed different genome features, including different codon usage and GC content, a synthetic gene was designed and expressed, leading to the production of the corresponding protein at around 33 mg per litre in the T. reesei culture medium. After the recombinant protein was purified, biochemical characterization showed that EstA presents peak activity at pH 6·5 and at 50–60°C. Furthermore, EstA remained stable at pH 6–8 and below 50°C. EstA was compared to cinnamoyl esterases FaeA and FaeB from Aspergillus niger in terms of ferulic acid (FA) release from wheat bran (WB), maize bran (MB) and sugar beet pulp (SBP).
Conclusion:  The synthetic gene was successfully cloned and overexpressed in T. reesei. EstA from P.   equi was demonstrated to efficiently release FA from various natural substrates.
Significance and Impact of the Study:  Recombinant EstA produced in an industrial enzyme producer, T. reesei , was biochemically characterized, and its capacity to release an aromatic compound (FA) for biotechnological applications was demonstrated.     

Molecular characterization of a novel family VIII esterase from Burkholderia multivorans UWC10

An esterase producing Burkholderia multivorans UWC10 strain was isolated by culture enrichment. A shotgun library of B. multivorans UWC10 genomic DNA was screened for esterase activity and a recombinant clone conferring an esterolytic phenotype was identified. Full-length sequencing of the DNA insert showed that it consisted of a single open reading frame (ORF1) encoding a predicted protein of 398 amino acids. ORF1 (termed EstBL) had a high protein sequence identity to family VIII esterases. The EstBL primary structure showed two putative serine motifs, G-V-S(149)-D-G and S(74)-V-T-K. The estBL gene was successfully over-expressed in E. coli and the encoded protein purified by a combination of ammonium sulphate fractionation, hydrophobic interaction, ion exchange and size exclusion chromatographies. Biochemical assays confirmed EstBL esterase activity and revealed a preference for short-chain p-nitrophenyl and beta-naphthyl esters (C2-C4) with no activity against beta-lactam substrates. Secondary structure predictions indicated that EstBL adopts the alpha/beta fold, which is common to all esterases.     

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.     

Identification of a type-D feruloyl esterase from<Emphasis Type="Italic"> Neurospora crassa</Emphasis>

Feruloyl esterases constitute an interesting group of enzymes that have the potential for use over a broad range of applications in the agri–food industries. In order to expand the range of available enzymes, we have examined the presence of feruoyl esterase genes present in the genome sequence of the filamentous fungus Neurospora crassa. We have identified an orphan gene (contig 3.544), the translation of which shows sequence identity with known feruloyl esterases. This gene was cloned and the corresponding recombinant protein expressed in Pichia pastoris to confirm that the enzyme (NcFaeD-3.544) exhibits feruloyl esterase activity. Unusually the enzyme was capable of p-coumaric acid release from untreated crude plant cell wall materials. The substrate utilisation preferences of the recombinant enzyme place it in the recently recognised type-D sub-class of feruloyl esterase.     

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.     

Identification and characterization of a novel (S)-ketoprofen-specific esterase

A new (S)-ketoprofen specific esterase (EST-Y29) was identified from a metagenome library from environmental samples, which showed homologies with class C-beta lactamase, penicillin binding protein, and other lipases/esterases. In order to investigate the biochemical and biophysical properties, the recombinant protein was overexpressed, purified to homogeneity, and characterized. This EST-Y29 has high catalytic activity against p-nitrophenyl esters of short fatty acids (C(2) and C(4)) and alpha-naphthyl acetate with activation energy of 30.4 kJ/mol. We have further characterized EST-Y29 using high performance liquid chromatography (HPLC), circular dichroism (CD), dynamic light scattering (DLS) and size exclusion chromatography (SEC).     

Applicability of the 16S–23S rDNA internal spacer for PCR detection of the phytostimulatory PGPR inoculant Azospirillum lipoferum CRT1 in field soil

Aims:  To assess the applicability of the 16S–23S rDNA internal spacer regions (ISR) as targets for PCR detection of Azospirillum ssp. and the phytostimulatory plant growth-promoting rhizobacteria seed inoculant Azospirillum lipoferum CRT1 in soil.
Methods and Results:  Primer sets were designed after sequence analysis of the ISR of A. lipoferum CRT1 and Azospirillum brasilense Sp245. The primers fAZO/rAZO targeting the Azospirillum genus successfully yielded PCR amplicons (400–550 bp) from Azospirillum strains but also from certain non- Azospirillum strains in vitro , therefore they were not appropriate to monitor indigenous Azospirillum soil populations. The primers fCRT1/rCRT1 targeting A. lipoferum CRT1 generated a single 249-bp PCR product but could also amplify other strains from the same species. However, with DNA extracts from the rhizosphere of field-grown maize, both fAZO/rAZO and fCRT1/rCRT1 primer sets could be used to evidence strain CRT1 in inoculated plants by nested PCR, after a first ISR amplification with universal ribosomal primers. In soil, a 7-log dynamic range of detection (10²–10⁸ CFU g⁻¹ soil) was obtained.
Conclusions:  The PCR primers targeting 16S–23S rDNA ISR sequences enabled detection of the inoculant A. lipoferum CRT1 in field soil.
Significance and Impact of the Study:  Convenient methods to monitor Azospirillum phytostimulators in the soil are lacking. The PCR protocols designed based on ISR sequences will be useful for detection of the crop inoculant A. lipoferum CRT1 under field conditions.     

A one-step reaction for the rapid identification of Lactobacillus mindensis, Lactobacillus panis, Lactobacillus paralimentarius, Lactobacillus pontis and Lactobacillus frumenti using oligonucleotide primers designed from the 16S-23S rRNA intergenic sequences

Aims:  Species-specific primers targeting the 16S–23S ribosomal DNA (rDNA) intergenic spacer region (ISR) were designed to rapidly discriminate between Lactobacillus mindensis , Lactobacillus panis , Lactobacillus paralimentarius , Lactobacillus pontis and Lactobacillus frumenti species recently isolated from French sourdough.
Methods and Results:  The 16S–23S ISRs were amplified using primers 16S/p2 and 23S/p7, which anneal to positions 1388–1406 of the 16S rRNA gene and to positions 207–189 of the 23S rRNA gene respectively, Escherichia coli numbering (GenBank accession number V00331 ). Clone libraries of the resulting amplicons were constructed using a pCR2·1 TA cloning kit and sequenced. Species-specific primers were designed based on the sequences obtained and were used to amplify the 16S–23S ISR in the Lactobacillus species considered. For all of them, two PCR amplicons, designated as small ISR (S-ISR) and large ISR (L-ISR), were obtained. The L-ISR is composed of the corresponding S-ISR, interrupted by a sequence containing tRNA^Ile and tRNA^Ala genes. Based on these sequences, species-specific primers were designed and proved to identify accurately the species considered among 30 reference Lactobacillus species tested.
Conclusions:  Designed species-specific primers enable a rapid and accurate identification of L. mindensis , L. paralimentarius , L. panis , L. pontis and L. frumenti species among other lactobacilli.
Significance and Impact of the Study:  The proposed method provides a powerful and convenient means of rapidly identifying some sourdough lactobacilli, which could be of help in large starter culture surveys.     

Molecular characterisation of the gene encoding an esterase from Bacillus licheniformis sharing significant similarities with lipases

An esterase gene from the moderate thermophilic strain Bacillus licheniformis LCB40 was cloned and expressed in Escherichia coli. Comparison of the amino acid sequence of the esterase with those of known lipases and esterases showed the presence of the well-conserved Gly-X-Ser-X-Gly pentapeptide, with an alanine replacing the first glycine. This substitution has never been reported for an esterase but it is present in the lipases from Bacillus subtilis, Bacillus pumilus and Galactomyces candidum. The amino acid sequence showed similarities with lipases and with mammalian lecithin-cholesterol acyltranferases and no similarities with esterases. The enzyme activity of a crude extract from a recombinant Escherichia coli strain showed hydrolysis of p-nitrophenyl caprylate (pNPC8) as for esterases, but not of p-nitrophenyl palmitate (pNPC16) or olive oil such as for lipases. Thus, the enzyme displays the original property of associating the activity of an esterase with a primary sequence showing high similarity with lipases.     

SSoNΔ and SSoNΔlong: two thermostable esterases from the same ORF in the archaeon Sulfolobus solfataricus?

Previously, we reported from the Sulfolobus solfataricus open reading frame (ORF) SSO2517 the cloning, overexpression and characterization of an esterase belonging to the hormone-sensitive lipase (HSL) family and apparently having a deletion at the N-terminus, which we named SSoNDelta. Searching the recently reported Sulfolobus acidocaldarius genome by sequence alignment, using SSO2517 as a query, allowed identity of a putative esterase (ORF SAC1105) sharing high sequence similarity (82%) with SSO2517. This esterase displays an N-terminus and total length similar to other known esterases of the HSL family. Analysis of the upstream DNA sequence of SS02517 revealed the possibility of expressing a longer version of the protein with an extended N-terminus; however, no clear translation signal consistent with a longer protein version was detected. This new version of SSO2517 was cloned, over-expressed, purified and characterized. The resulting protein, named SSoNDeltalong, was 15-fold more active with the substrate p-nitrophenyl hexanoate than SSoNDelta. Furthermore, SSoNDeltalong and SSoNDelta displayed different substrate specificities for triacylglycerols. These results and the phylogenetic relationship between S. solfataricus and S. acidocaldarius suggest a common origin of SSO2517 and SAC1105 from an ancestral gene, followed by divergent evolution. Alternatively, a yet-to-be discovered mechanism of translation that directs the expression of SSoNDeltalong under specific metabolic conditions could be hypothesized.     

Production and characterization of the Talaromyces stipitatus feruloyl esterase FAEC in Pichia pastoris: identification of the nucleophilic serine

Feruloyl esterases constitute an interesting group of enzymes that have the potential for use over a broad range of applications in the agri-food industries. We report the over-expression and characterization of a novel feruloyl esterase exhibiting broad substrate specificity from Talaromyces stipitatus (FAEC) in Pichia pastoris. Using various gene constructions, we have investigated the use of alternative signal peptides to produce an authentic feruloyl esterase featuring the N-terminal sequence determined for the native enzyme. We demonstrate that additional amino acids at the N-terminus of the FAEC sequence do not influence the catalytic capacity of the enzyme, and that the nature of the signal sequence has a limited effect on the yield of the secreted enzyme, with the T. stipitatus FAEC signal sequence producing 297 mgL(-1), the Neurospora crassa Fae-1 260 mgL(-1), and the Saccharomyces cerevisiae alpha-factor secretion signal 214 mgL(-1). Mature FAEC contains two internal peptide sequences that correspond with the consensus motif G-X-S-X-G that contains the catalytic serine nucleophile, which is conserved in the esterase enzyme superfamily. The serine residues at the center of these peptide motifs have been independently mutated and the corresponding enzymes have been over-expressed in P. pastoris to identify the candidate nucleophilic residue responsible for catalyzing the enzymatic reaction. Purified recombinant FAEC containing S465A retained the esterase activity and appeared unaffected by the amino acid modification. In contrast, FAEC activity containing S166A was below the HPLC detection limit, suggesting that serine 166 constitutes the nucleophile.     

A unique lantibiotic, thermophilin 1277, containing a disulfide bridge and two thioether bridges

Aims:  To identify the chemical structure of a bacteriocin, thermophilin 1277, produced by Streptococcus thermophilus SBT1277.
Methods and Results:  Thermophilin 1277 was purified and partial N-terminal sequence analysis revealed 6 unidentified amino acids amongst 31 amino acids residues. A 2·7-kbp region containing the thermophilin 1277 structural gene ( tepA ) encoding 58 amino acids was cloned and sequenced. Mature thermophilin 1277 (33 amino acids) was preceded by a 25-amino acid putative leader peptide containing a double glycine cleavage motif. Peptide sequence analysis following chemical modification of thermophilin 1277 revealed that the Cys21 and Cys29 residues form a disulfide bridge and that Thr8 or Thr10 forms two 3-methyllanthionines with Cys13 or Cys32 via thioether bridges. Antimicrobial activity was disrupted by ethanethiol or reductive agent treatments, indicating that the internal amino acid modifications are crucial for the activity.
Conclusions:  Thermophilin 1277 from Strep. thermophilus SBT1277 belongs to the class of AII-type lantibiotics that has a disulfide and two thioether bridges.
Significance and Impact of the Study:  This is the first report of a lantibiotic produced by a GRAS species of Strep. thermophilus ; thermophilin 1277 has a unique structure containing both a disulfide bridge and two thioether bridges that are crucial for its activity.     

Molecular characterization of two novel esterase genes from carmine spider mite,Tetranychus cinnabarinus (Acarina: Tetranychidae)

Abstract Two novel esterase complementary DNAs were identified and cloned from the insecticide-susceptible strain of Tetranychus cinnabarinus (Boisduval) (Acarina: Tetranychidae), which were designated as TCE1 and TCE2, respectively. The cDNA of TCE1 gene contained an open reading frame (ORF) of 1701 bp encoding 567 amino acids, and a predicted molecular weight of 62.75 kDa, the cDNA of TCE2 contained an ORF of 1680 bp encoding 560 amino acids, and a predicted molecular weight of 63.14 kDa. TCE1 and TCE2 were submitted to GenBank, accession number EU130461 and EU130462. The well-conserved sequence motif, GXSXG, used as a signature pattern in the esterase family are present in both TCE1 and TCE2 (GQSAG in TCE1, whereas GESAG in TCE2), indicating that these two genes are predicted to be esterases. Comparison of the deduced amino acid sequence with the published mite esterase sequence coming from Boophilus microplus showed that TCE1 shares 33.98% identity and TCE2 shares 33.46% identity. TCE1 and TCE2 share 46.4% identity. Quantitative real-time polymerase chain reaction revealed that expression level of the TCE2 gene was relatively higher than that of the TCE1 in all instars examined except the protonymph, and the expression level of these two esterase genes in adults of T. cinnabarinus was significantly higher than that in any other instars, respectively. T. cinnabarinus is an important agricultural mite pest and esterases are important in the metabolisms of insects and mites; the genomic information obtained in this study will contribute to esterase molecular biological study on mite pest species.     

Cloning and characterization of the gene encoding an esterase from Spirulina platensis

The gene encoding a 23 kDA serine esterase from the cyanobacterium Spirulina platensis has been identified, cloned, characterized and expressed in Escherichia coli. The primary structure of the esterase deduced from the DNA sequence displayed 32% sequence identity with the carboxylesterase (esterase II) encoded by estB of Pseudomonas fluorescens; the highest degree of homology is found in a stretch of 11 identical or highly conserved amino acid residues corresponding to the GXSXG consensus motif found in the catalytic site of many serine proteases, lipases and esterases.     

Technical advance in fungal biotechnology: development of a miniaturized culture method and an automated high-throughput screening

Aims:  The goal of the study was to develop a reliable, reproducible and rapid method of culture in order to screen a large number of fungal transformants.
Methods and Results:  The method is based upon miniaturized cell cultures and automated expression screening in microwell plates. For the method development, 50 recombinant Aspergillus vadensis clones producing feruloyl esterase B (FaeB) from Aspergillus niger were screened in 6 days. Then a panel of clones showing various behaviours was checked in flasks in order to demonstrate the reproducibility of the method. Using this method, a transformant of A. vadensis producing 1·2 g l⁻¹ of FaeB was selected (12-fold more than the A. niger overproducing strain).
Conclusions:  This miniaturized culture method allows to obtain reliable and reproducible results. The procedure has the advantages of being efficient, time-saving and more efficient than conventional in-flask culture screening as it can screen 800 clones per day after a culture of 3 days.
Significance and Impact of the Study:  This method could be applied to any other fungal strain culture, enzyme activity or biodiversity screening.     

Cloning and characterization of the gene encoding an esterase from Spirulina platensis

The gene encoding a 23 kDA serine esterase from the cyanobacterium Spirulina platensis has been identified, cloned, characterized and expressed in Escherichia coli. The primary structure of the esterase deduced from the DNA sequence displayed 32% sequence identity with the carboxylesterase (esterase II) encoded by estB of Pseudomonas fluorescens; the highest degree of homology is found in a stretch of 11 identical or highly conserved amino acid residues corresponding to the GXSXG consensus motif found in the catalytic site of many serine proteases, lipases and esterases.     

Intra-specific phenotypic and genotypic variation in toxic cyanobacterial Microcystis strains

Aims:  We determined if the intra-specific genetic diversity of Microcystis aeruginosa correlates with phenotypic characteristics.
Methods and Results:  Microcystis aeruginosa isolates from various Japanese waters were characterized using genetic analyses based on the 16S–23S rDNA internal transcribed spacer (ITS) region and DNA-independent RNA polymerase ( rpoC1 ) gene sequences. In addition, morphological and biochemical properties, and the toxicity of M. aeruginosa strains were determined. We found a correlation in phylogenetic clusters of the ITS region and rpoC1 gene sequences. Using a polyphasic approach, genotypic and phenotypic variations in M. aeruginosa showed that the three genetic lineage groups are comprised of a particular phenotype or subgroup of closely related phenotypes. However, some strains had high phenotypic and genotypic diversity compared to the three lineage groups and did not show distinct lineages; therefore, these strains were designated as the 'complex group'.
Conclusions:  The 'complex group' consisted of genetically and phenotypically incoherent and high diverse populations in M. aeruginosa , although some genotypes or lineages displayed consistent phenotypes.
Significance and Impact of the Study:  The polyphasic approach combining phenotypic and genetic characterization was effective for comprehending distinct lineages and discriminating the potential complexity of M. aeruginosa populations at the intra-species level.