An enzyme from Auricularia auricula-judae combining both benzoyl and cinnamoyl esterase activity

Benzoic acid esterases and ferulic acid esterases (FAE) are enzymes with different profiles of substrate specificity. An extracellular esterase (EstBC) from culture supernatants of the edible basidiomycete fungus Auricularia auricula-judae was purified by anion exchange chromatography, followed by preparative isoelectric focusing and hydrophobic interaction chromatography. EstBC showed a molecular mass of 36 kDa and an isoelectric point of 3.2 along with broad pH and temperature windows similar to fungal FAEs. However, EstBC exhibited also characteristics of a benzoic acid esterase acting on both benzoates and cinnamates, and most efficiently on methyl and ethyl benzoate, methyl 3-hydroxybenzoate and methyl salicylate. Feruloyl saccharides as well as lipase substrates, such as long chain fatty acids esterified with glycerol, polyethoxylated sorbitan and p-nitrophenol were not hydrolyzed. Protein database analyses with tryptic peptides of EstBC solely yielded hits regarding hypothetical proteins belonging to the alpha/beta hydrolase family. The uncommon substrate specificity of EstBC concomitant with a lack of sequence homology to known enzymes suggests a new type of enzyme.     

Asymmetric transesterification of secondary alcohols catalyzed by feruloyl esterase from Humicola insolens

A new asymmetric transesterification of secondary alcohols catalyzed by feruloyl esterase from Humicola insolens has been found. Although alcohols are not the natural substrates for this enzyme, a high R enantioselectivity was observed. Stereochemical studies showed that variations in substrate structure lead to strong variations in enantioselectivity. The highest enantioselectivities are obtained when the beta-carbon of the secondary alcohol is tertiary or quaternary.     

A type B feruloyl esterase from <Emphasis Type="Italic">Aspergillus nidulans</Emphasis> with broad pH applicability

A hypothetical protein AN1772.2 of Aspergillus nidulans was found to have a 56% identity with a known type C ferulic acid esterase (FAE) from Talaromyces stipitatus. In addition, it contained a 13-amino acid conserved region flanking the characteristic G-X-S-X-G motif of a serine esterase, suggesting a FAE function for the protein. The putative FAE was successfully cloned from the genomic DNA and expressed in Saccharomyces cerevisiae. The recombinant protein exhibited high FAE activities. Therefore, its function as an FAE was unequivocally determined. About 86% of the enzyme activity was found in the growth medium, indicating that the native signal peptide was effective in the yeast expression system. The recombinant FAE was purified to its homogeneity, and subsequently characterized. The FAE is stable over an unusually wide range of pH (4.0–9.5), has a pH optimum of 7.0, and a temperature optimum of 45°C. A substrate specificity profiling reveals that the enzyme is a type B FAE, despite its strong sequence homology with type C FAEs, raising an interesting question on the role of the conserved region in substrate specificity.     

Effect of polygalacturonase and feruloyl esterase from Aspergillus tubingensis on demucilage and quality of coffee beans

To explore the potential for the application of Aspergillus tubingensis enzyme extract in coffee processing, the effects of crude enzymes on coffee beans were studied. Yields of polygalacturonase and feruloyl esterases obtained from solid-state fermentation using A. tubingensis, with pectin and de-starched wheat bran as carbon sources, were 15.9 U/mL and 2.44 U/mL, respectively. Crude enzyme extracts removed the mucilage of coffee cherries within 3 h, which is substantially more efficient than traditional fermentation. Additionally, the viscosity of coffee mucilage was reduced to 80% by a 3-h treatment with the crude enzyme extract at 50 °C. The titratable acidity and organic acids in coffee beverages were also decreased to half the amounts of those in the traditionally fermented group. The total chlorogenic acid in the green beans decreased to 67.3%; however, a decline of only 14.3% was observed in the traditionally fermented group. On the other hand, chlorogenic acid lactones in the roasted beans were reduced to 63.9%, and a 37.2% decline in the chlorogenic acid content was detected.     

黑曲霉阿魏酸酯酶在毕赤酵母中的组成型表达

【目的】实现黑曲霉来源的阿魏酸酯酶在毕赤酵母(Pichia pastoris GS115)中的组成型表达。【方法】以黑曲霉(Aspergillus niger)基因组为模板,经重叠延伸PCR扩增得到阿魏酸酯酶基因(AnfaeA),将其与载体pGAP9K相连,构建重组表达载体p GAP9KAnfae A,经SalI线性化后电转入毕赤酵母GS115中,得到重组菌株。高效液相色谱法测定发酵液中阿魏酸酯酶活力,并对重组菌进行了发酵优化。【结果】克隆得到783 bp的阿魏酸酯酶编码基因并实现了其在毕赤酵母中的组成型表达。重组菌发酵84 h后,上清液中酶活达5.72±0.10 U/m L。重组酶(reAnfaeA)经分离纯化后比酶活为59.75 U/mg,大小约为40 k D。发酵优化结果为:葡萄糖40.0 g/L,蛋白胨10.0 g/L,酵母膏30.0 g/L,CaCO_3 0.2 g/L,种龄28 h,接种量3%(体积比),装液量50 m L/250 m L。在此条件下发酵培养,酶活达15.60±0.23 U/m L。【结论】阿魏酸酯酶在毕赤酵母中的组成型表达,对研究毕赤酵母组成型表达系统和阿魏酸酯酶的发酵生产具有一定的借鉴意义。     

Characterization of two distinct feruloyl esterases, AoFaeB and AoFaeC, from Aspergillus oryzae

Two hypothetical proteins XP_001818628 and XP_001819091 (designated AoFaeB and AoFaeC, respectively), showing sequence identity with known type-C feruloyl esterases, have been found in the genomic sequence of Aspergillus oryzae. We cloned the putative A. oryzae feruloyl esterase-encoding genes and expressed them in Pichia pastoris. Both purified recombinant AoFaeB (rAoFaeB) and AoFaeC (rAoFaeC) had apparent relative molecular masses of 61,000 and 75,000, respectively, on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. After N-deglycosylation, both proteins had a relative molecular mass of 55,000. The optimum pH for rAoFaeB was 6.0, although it was stable at pH values ranging from 3.0 to 9.0; rAoFaeC had an optimum pH of 6.0 and was stable in the pH range of 7.0–10.0. Thermostability of rAoFaeC was greater than that of rAoFaeB. Whereas rAoFaeC displayed hydrolytic activity toward methyl caffeate, methyl p-coumarate, methyl ferulate, and methyl sinapate, rAoFaeB displayed hydrolytic activity toward methyl caffeate, methyl p-coumarate, and methyl ferulate but not toward methyl sinapate. Substrate specificity profiling of rAoFaeB and rAoFaeC revealed type-B and type-C feruloyl esterases, respectively. Ferulic acid was efficiently released from wheat arabinoxylan when both esterases were applied with xylanase from Thermomyces lanuginosus. Both recombinant proteins also exhibited hydrolytic activity toward chlorogenic acid. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

A spectrophotometric assay for feruloyl esterases

We have developed a spectrophotometric assay for the quantitative determination of feruloyl esterase activity based on release of 4-nitrophenol from a novel substrate, 4-nitrophenyl ferulate in an emulsion of Triton X-100 in aqueous buffer solution. The release of 4-nitrophenol was linear with reaction time at an early stage of the reaction with various esterase preparations. The method proposed here is accurate, rapid, and easy to perform.     

Esterification of ferulic acid with polyols using a ferulic acid esterase from Aspergillus niger

Commercially available enzyme preparations were screened for enzymes that have a high ability to catalyze direct ester-synthesis of ferulic acid with glycerol. Only a preparation, Pectinase PL “Amano” produced by Aspergillus niger, feruloylated glycerol under the experimental conditions. The enzyme responsible for the esterification was purified and characterized. This enzyme, called FAE-PL, was found to be quite similar to an A. niger ferulic acid esterase (FAE-III) in terms of molecular mass, pH and temperature optima, substrate specificity on synthetic substrates, and the N-terminal amino acid sequence. FAE-PL highly catalyzed direct esterification of ferulic acid and sinapinic acid with glycerol. FAE-PL could feruloylate monomeric sugars including arabinose, fructose, galactose, glucose, and xylose. We determined the suitable conditions for direct esterification of ferulic acid with glycerol to be as follows: 1% ferulic acid in the presence of 85% glycerol and 5% dimethyl sulfoxide at pH 4.0 and 50 °C. Under these conditions, 81% of ferulic acid could be converted to 1-glyceryl ferulate, which was identified by ¹H-NMR. The ability of 1-glyceryl ferulate to scavenge 1,1-diphenyl-2-picrylhydrazyl (DPPH) radicals was higher than that of the anti-oxidant butyl hydroxytoluene.     

The crystal structure of feruloyl esterase A from Aspergillus niger suggests evolutive functional convergence in feruloyl esterase family

As a component of the array of enzymes produced by micro-organisms to deconstruct plant cell walls, feruloyl esterases hydrolyze phenolic groups involved in the cross-linking of arabinoxylan to other polymeric structures. This is important for opening the cell wall structure, making material more accessible to glycosyl hydrolases. Here, we describe the first crystal structure of the non-modular type-A feruloyl esterase from Aspergillus niger (AnFaeA) solved at 2.5A resolution. AnFaeA displays an alpha/beta hydrolase fold similar to that found in fungal lipases and different from that reported for other feruloyl esterases. Crystallographic and site-directed mutagenesis studies allow us to identify the catalytic triad (Ser133-His247-Asp194) that forms the catalytic machinery of this enzyme. The active-site cavity is confined by a lid (residues 68-80), on the analogy of lipases, and by a loop (residues 226-244) that confers plasticity to the substrate-binding site. The lid presents a high ratio of polar residues, which in addition to a unique N-glycosylation site stabilises the lid in an open conformation, conferring the esterase character to this enzyme. A putative model for bound 5,5'-diferulic acid-linked arabinoxylan has been built, pointing to the more relevant residues involved in substrate recognition. Comparison with structurally related lipases reveals that subtle amino acid and conformational changes within a highly conserved protein fold may produce protein variants endowed with new enzymatic properties, while comparison with functionally related proteins points to a functional convergence after evolutionary divergence within the feruloyl esterases family.     

Measurement of feruloyl/p-coumaroyl esterase by capillary zone electrophoresis

Ferulic andp-coumaric acid can be separated from their corresponding aliphatic methyl esters by capillary zone electrophoresis, which allows the convenient determination of feruloyl andp-coumaroyl esterase activities using synthetic esters as substrates. A feruloyl-containing sugar ester from wheat bran was also efficiently separated and used as substrate for the enzyme assays.Penicillium expansum was shown to produce feruloyl/p-coumaroyl esterase activity when grown on wheat bran in solid-state culture.The authors are with the Food Microbiology Research Division, Department of Agriculture for Northern Ireland, Newforge Lane, Belfast BT9 5PX, UK; A.M. McKay is also affiliated with the Department of Food Science (Microbiology), The Queen's University of Belfast, Newforge Lane, Belfast BT9 5PX, UK.     

Synthesis of glyceryl ferulate by immobilized ferulic acid esterase

Glyceryl ferulate was synthesized by the condensation of ferulic acid with glycerol using Pectinase PL “Amano” from Aspergillus niger, which contained ferulic acid esterase, to improve the water-solubility of ferulic acid. The optimum reaction medium was glycerol/0.1 M acetate buffer, pH 4.0, (98:2 v/v). The enzyme immobilized onto Chitopearl BCW3003 exhibited the highest activity among the those immobilized onto various kinds of Chitopearl BCW resins. The optimum temperature for the immobilized enzyme was 50°C, and it could be reused at least five times without a significant loss in activity for the synthesis of glyceryl ferulate in batch reaction. Storage of the reaction mixture at 25°C improved the molar fraction of glyceryl ferulate relative to the dissolved ferulic residues.     

The feruloyl esterase gene family of Fusarium graminearum is differentially regulated by aromatic compounds and hosts

Feruloyl esterases can liberate ferulic acid (FA) from plant cell wall polymers. They are expressed by plant pathogenic fungi and could play a role in pathogenicity, although this question has not been addressed yet. The fungus Fusarium graminearum is the principal causal agent of fusarium head blight (FHB) and gibberella ear rot (GER), major diseases of wheat, barley, and maize in all temperate regions of the world. The F. graminearum genome contains seven genes with strong homology to feruloyl esterase (FAE) sequences. Phylogenetic analysis showed that these included three type B, three type C, and one type D FAE genes. Expression profiling of the seven FAE genes showed complex regulation patterns unique to each gene. In F. graminearum-infected plant tissues, the FAE genes exhibited host-specific gene expression. On wheat, FAEB1 and FAED1 were strongly expressed while FAEB2, FAEB3, and FAEC1 were expressed at more modest levels. On maize, only FAEB3, FAEC1, and FAED1 were expressed and at low levels. When growing F. graminearum in liquid culture, only FAEB1 and FAEC1 were expressed. Both genes were induced by a small group of related aromatic compounds including FA, caffeic acid, and p-coumaric acid. FAEB1 was induced by xylose, while repressed by glucose and galactose. FAEC1 was constitutively expressed at low levels in the presence of those sugars. Expression of the other five FAE genes was not detected in the culture conditions used. To determine if FAE genes were important for pathogenicity of F. graminearum, mutant strains inactivated for faeB1?, faeD1? or both genes were constructed and tested on wheat plants. No statistically significant change in pathogenicity and no compensatory expression of the other FAE genes were observed in the fae gene mutants. Our results show that FAEB1 and FAED1 are not required for pathogenicity of F. graminearum on wheat.     

Potential of a white-rot fungus Pleurotus eryngii F032 for degradation and transformation of fluorene

The white-rot fungus Pleurotus eryngii F032 showed the capability to degrade a three fused-ring aromatic hydrocarbons fluorene. The elimination of fluorene through sorption was also investigated. Enzyme production is accompanied by an increase in biomass of P. eryngii F032 during degradation process. The fungus totally degraded fluorine within 23 d at 10-mg l⁻¹ solution. Fluorene degradation was affected with initial fluorene concentrations. The highest enzyme activity was shown by laccase in the 10-mg l⁻¹ culture after 30 d of incubation (1620 U l⁻¹). Few activities of enzymes were observed in the fungal cell at the varying concentration of fluorene. Three metabolic were detected and separated in ethylacetate extract, after isolated by column chromatography. The metabolites, 9-fluorenone, phthalic acid, and benzoic acid were identified using UV–vis spectrophotometer and gas chromatography–mass spectrometry (GC–MS). The results show the presence of a complex mechanism for the regulation of fluorene-degrading enzymes.     

Factors affecting ferulic acid release from Brewer’s spent grain by Fusarium oxysporum enzymatic system

In this study, the factors affecting ferulic acid (FA) release from Brewer’s spent grain (BSG), by the crude enzyme extract of Fusarium oxysporum were investigated. In order to evaluate the importance of the multienzyme preparation on FA release, the synergistic action of feruloyl esterase (FAE, FoFaeC-12213) and xylanase (Trichoderma longibrachiatum M3) monoenzymes was studied. More than double amount of FA release (1 mg g⁻¹ dry BSG) was observed during hydrolytic reactions by the crude enzyme extract compared to hydrolysis by the monoenzymes (0.37 mg g⁻¹ dry BSG). The protease content of the crude extract and the inhibitory effect of FA as an end-product were also evaluated concerning their effect on FA release. The protease treatment prior to hydrolysis by monoenzymes enhanced FA release about 100%, while, for the first time in literature, FA in solution found to have a significant inhibitory effect on FAE activity and on total FA release.     

Induction of ferulic acid esterase and xylanase activities in Streptomyces avermitilis UAH30

Ferulic acid esterase activity (FAE) was detected, along with xylanase activity, in culture supernatants from Streptomyces avermitilis UAH30 grown in the presence of the lignocellulosic substrates, oat spelt xylan, wheat bran without starch and sugar cane bagasse. The maximum activity was detected with wheat bran (1.75 mU ml⁻¹). No correlation between FAE activity and the amount of esterified ferulic acid present in the substrate was observed. The addition of either glucose, mannitol or glycerol to the culture medium containing oat spelt xylan resulted in a reduction of 40–75% in the xylanase activity detected in culture supernatants. FAE activity could only be detected in supernatants from cultures grown in the presence of glycerol and mannitol, when commercially available xylanases were added to the assay. These results highlight the importance of assaying for FAE activity in the presence of high levels of xylanase activity.     

Production of a chimeric enzyme tool associating the Trichoderma reesei swollenin with the Aspergillus niger feruloyl esterase A for release of ferulic acid

The main goals of this work were to produce the fusion protein of the Trichoderma reesei swollenin I (SWOI) and Aspergillus niger feruloyl esterase A (FAEA) and to study the effect of the physical association of the fusion partners on the efficiency of the enzyme. The fusion protein was produced up to 25 mg l⁻¹ in the T. reesei strains Rut-C30 and CL847. In parallel, FAEA alone was produced for use as a control protein in application tests. Recombinant FAEA and SWOI–FAEA were purified to homogeneity and characterized. The biochemical and kinetic characteristics of the two recombinant proteins were found to be similar to those of native FAEA, except for the temperature stability and specific activity of the SWOI–FAEA. Finally, the SWOI–FAEA protein was tested for release of ferulic acid from wheat bran. A period of 24 h of enzymatic hydrolysis with the SWOI–FAEA improved the efficiency of ferulic acid release by 50% compared with the results obtained using the free FAEA and SWOI. Ferulic acid is used as an antioxidant and flavor precursor in the food and pharmaceutical industries. This is the first report of a potential application of the SWOI protein fused with an enzyme of industrial interest.     

AFM studies of water-soluble wheat arabinoxylans--effects of esterase treatment

The degradation products of water-soluble wheat arabinoxylans treated with Aspergillus niger ferulic acid esterase (FAEA-able to cleave 5,5'- and 8-O-4'-ferulic acid dimers) have been characterised by atomic force microscopy (AFM) and size exclusion chromatography. The AFM images of arabinoxylans confirmed that a small proportion ( approximately 15%) of the population of arabinoxylan molecules contain xylan-based branches attached to the xylan-based backbone. Treatment with FAEA reduced the contour length of the molecules suggesting that certain dimeric ferulic acid linkages may play a previously unconfirmed role in the elongation of arabinoxylans. Overnight treatment with FAEA led to a reduction in the density of branches suggesting that they may also be linked to the backbone through phenolic linkages.     

Synthesis of pentylferulate by a feruloyl esterase from Aspergillus niger using water-in-oil microemulsions

Pentylferulate synthesis was achieved at high yields (50–60%) with Aspergillus niger feruloyl esterase using a water-in-oil microemulsion system. The initial rate of synthesis decreased by 15–20% when the water content of the microemulsion was increased from 1.8 to 2.4% (v/v), although a concomitant decrease in conversion was not observed. The enzyme stability was significantly higher in the microemulsion than in an aqueous solution.     

阿魏酸酯酶和纤维素酶在水解汽爆稻草中的协同作用

利用阿魏酸酯酶, 水解天然木质纤维素原料中半纤维素与木质素之间的阿魏酸酯键, 从破坏两者共价键连接的角度, 探索阿魏酸酯酶促进纤维素酶水解汽爆稻草中纤维素的可行性。结果显示, 当阿魏酸酯酶加入量为240 mu/g底物、水解72 h时, 汽爆稻草纤维素的酶解率、不溶性底物失重率较不加阿魏酸酯酶分别增加了32.00%、32.77%; 阿魏酸酯酶(300 mu/g底物)作用120 min后, 纤维素酶对汽爆稻草纤维素的酶解率、不溶性底物失重率分别增加了29.85%、32.48%。通过比较不同酶法处理后的汽爆稻草的可及度和红外光谱图发现, 阿魏酸酯酶能有效地水解原料中的酯键, 提高原料可及度50%以上。由此表明, 阿魏酸酯酶和纤维素酶之间存在较大的协同作用, 添加阿魏酸酯酶能够提高纤维素酶对天然木质纤维素的酶解效率。