Detection and production condition of acetylxylan esterase from a wood-rotting fungus,Coriolus versicolor

Acetyl esterase production was detected in a wood-rotting fungus,Coriolus versicolor, by the formation of a clear zone on a double layer agar plate containing glucose β-d-pentaacetate. Two polysaccharide acetates, carboxymethyl cellulose acetate and xylan acetate, also served as detectable substrates in place of glucose acetate to form clear zone. In an esterase assay, this fungal esterase showed a higher specificity to acetylxylan than did porcine liver esterase, indicating that it is an acetylxylan esterase.     

Functional Analysis of the Carbohydrate-Binding Module of an Esterase from Neisseria sicca SB Involved in the Degradation of Cellulose Acetate

An esterase gene from Neisseria sicca SB encoding CaeA, which catalyzes the deacetylation of cellulose acetate, was cloned. CaeA contained a putative catalytic domain of carbohydrate esterase family 1 and a carbohydrate-binding module (CBM) family 2. We constructed two derivatives, with and without the CBM of CaeA. Binding assay indicated that the CBM of CaeA had an affinity for cellulose.     

Enhancement of acetyl xylan esterase activity on cellulose acetate through fusion to a family 3 cellulose binding module

The current study investigates the potential to increase the activity of a family 1 carbohydrate esterase on cellulose acetate through fusion to a family 3 carbohydrate binding module (CBM). Specifically, CtCBM3 from Clostridium thermocellum was fused to the carboxyl terminus of the acetyl xylan esterase (AnAXE) from Aspergillus nidulans, and active forms of both AnAXE and AnAXE–CtCBM3 were produced in Pichia pastoris. CtCBM3 fusion had negligible impact on the thermostability or regioselectivity of AnAXE; activities towards acetylated corncob xylan, 4-methylumbelliferyl acetate, p-nitrophenyl acetate, and cellobiose octaacetate were also unchanged. By contrast, the activity of AnAXE–CtCBM3 on cellulose acetate increased by two to four times over 24 h, with greater differences observed at earlier time points. Binding studies using microcrystalline cellulose (Avicel) and a commercial source of cellulose acetate confirmed functional production of the CtCBM3 domain; affinity gel electrophoresis using acetylated xylan also verified the selectivity of CtCBM3 binding to cellulose. Notably, gains in enzyme activity on cellulose acetate appeared to exceed gains in substrate binding, suggesting that fusion to CtCBM3 increases functional associations between the enzyme and insoluble, high molecular weight cellulosic substrates.     

Esterase Activities of Brevihacterium sp. R312 and Brevihacterium linens 62

Esterase activity of Brevihacterium linens 62 and Brevibacterium sp. R312 was detected. Each strain had esterase activities that hydrolyzed p-nitrophenyl acetate and α-naphthyl acetate. Biosynthesis and optimum pH and temperature of the two esterase activities showed that the latter were caused by different esterases. The influence of the culture medium and the growth substrate on biosynthesis of the esterase systems were studied. Hydrolysis of methylthioacetate and phenethyl acetate by cell extracts of the two strains was done. No enzymatic ester synthesis reaction was observed. However, transfer reactions by cell extracts of the two strains were done.     

Effect of Acetate on Esterase C Activity During the Growth Cycle of Paramecium*

SYNOPSIS Enhanced esterase C activity could be demonstrated by starch gel electrophoresis in various stocks of Paramecium spp. (P. primaurelia stocks 90 and 540, P. biaurelia stock 93, P. tetraurelia stock 29. P. pentaurelia stock 87, P. octaurelia stocks 31 and 300, and P. multimicronucleatum species 3, stock 8 MO) grown in Adaptation Medium. This esterase, however, was barely detectable when they were cultivated in Axenic Medium. Addition of trypticase to Adaptation Medium resulted in reduction of esterase C in the ciliates. This effect is ascribable to Na acetate present in trypticase. Since esterase C increased with the decrease in acetate concentration (as estimated by gas-liquid chromatography) during growth of Paramecium, acetate appears to be utilized by the cells. Sensitivity of esterase C to acetate occurs in all 6 species of Paramecium examined. Different stocks within a species may have different levels of sensitivity; in one case this is genetically determined. The results emphasize the importance of controlling and manipulating growth conditions for the assessment of inter- and intraspecies variations in the isozymes of Paramecium.     

Increase of acetate ester-hydrolysing esterase activity in mixed cultures of Saccharomyces cerevisiae and Pichia anomala

Aim: To examine the efficacy of mixed cultures with Saccharomyces cerevisiae and Pichia anomala on flavour profiles of alcoholic beverages, a Pichia mutant with low levels of ethyl acetate that negatively impact on the sensory quality was isolated. Methods and Results: A petite mutant isolated from P. anomala NBRC 10213 treated with ethidium bromide had the lower activity of ethyl acetate‐hydrolysing esterase (EAHase) than the wild‐type in crude extracts. In the fermentation tests of pure cultures, the P. anomala mutant produced less ethanol, acetate and ethyl acetate than the wild‐type. In mixed cultures with S. cerevisiae, the P. anomala mutant died quicker and produced lower amounts of ethyl acetate than the wild‐type. Mixed cultures of S. cerevisiae and P. anomala showed higher activities of EAHase than pure culture of S. cerevisiae throughout the fermentation periods. The transition to the formation of acetate esters was considerably analogous to the transition to the activity of acetate ester‐hydrolysing esterase with little time lag. Conclusions: The P. anomala mutant was superior to the wild‐type in flavour profiles. The higher ethyl acetate concentrations formed mainly by P. anomala in mixed cultures are the primary stimulus for the EAHase in S. cerevisiae and the activity of acetate ester‐hydrolysing esterase is crucial to the formation of acetate esters in mixed cultures of S. cerevisiae and P. anomala. Significance and Impact of the Study: An application of non‐Saccharomyces yeast, P. anomala to enhance the sensory quality in alcoholic beverage and a mechanism of the formation of acetate esters in mixed cultures with S. cerevisiae and P. anomala were offered.     

Distribution of acetyl esterase in wood-rotting fungi

The distribution of acetyl esterase was studied in 30 strains of wood-rotting fungi. A screening test on agar plates using glucose β-d-pentaacetate as a substrate indicated that all tested fungi produced acetyl esterase to form a clear zone on the culture. All fungi also showed positive responses in an agar test using carboxymethyl cellulose acetate. Enzyme assay showed that extracellular acetylxylan esterase activity was present in the filtrates of wood-meal culture of all these fungi. The ratio of fungal acetylxylan esterase activity to 4-nitrophenyl acetyl esterase activity were higher than that of porcine liver esterase, indicating that fungal esterases have high affinity for acetylated carbohydrates. Acetyl esterase is suggested to be distributed widely in wood-rotting fungi for degradation of native acetylated hemicelluloses.     

Pectinolytic activity ofClostridium thermocellum: Its use for anaerobic fermentation of sugar beet pulp

Summary Clostridium thermocellum is well known for its ability to convert cellulose into ethanol and to hydrolyse hemicellulose. The present work shows its ability to hydrolyse model pectins and to use them for growth. The main products on these substrates as well as on sugar beet pulps were as follows: acetate, ethanol and methanol. Galacturonase and lyase activities were measured in the fermentation broths. As shown by the accumulation of methanol in the medium, there is a pectin esterase activity but this one seems to be very low.     

Purification and properties of a highly enantioselective l-menthyl acetate hydrolase from Burkholderia cepacia

A highly enantioselective l-menthyl acetate esterase was purified to homogeneity from Burkholderia cepacia ATCC 25416, with a recovery of 4.8% and a fold purification of 22.7. The molecular weight of the esterase was found to be 37 kDa by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The N-terminal amino acid sequence was “MGARTDA”, and there was no homology in contrast to other Burkholderia sp. esterases. This enzyme preferentially hydrolyzed short-chain fatty acid esters of menthol with high stereospecificity and high hydrolytic activity, while long-chain l-menthyl esters were poor substrates. Considered its substrate specificity and N-terminal sequence, this esterase was concluded as a new enzyme belonging to the carboxylesterase group (EC 3.1.1.1) of esterase family. The optimum temperature and pH for enzyme activity using racemic menthyl acetate as substrate were 30 °C and 7.0, respectively. The esterase was more stable in the pH range of 7.0–9.0 and temperature range of 30–40 °C. Hydrolytic activity was enhanced by Ca²⁺, K⁺ and Mg²⁺, but completely inhibited by Hg²⁺, Cu²⁺, ionic detergents and phenylmethylsulfonyl fluoride (PMSF) at 0.01 M concentration.     

Investigations of subtilisin (Novo type) immobilization on cellulose by means of various methods of support activation

The immobilization of subtilisin, Novo type, on WHATMAN cellulose activated by the glutaraldehyde, diisocyanate, diazo-coupling, and S-triazine method, and on a dialdehyde derivative of cellulose has been studied. The best results of proteinase immobilization were achieved when cellulose was activated by hexamethylene diisocyanate. The preparations of a proteolytic activity of 70 PU/g of support and of an esterase activity of 2.3 EU/g of support were obtained with 14% and 38% yield, respectively.     

Inhibitors of sensillar esterase reversibly block the responses of moth pheromone receptor cells

Three volatile alkyl-thio-trifluoro propanones inhibiting the esterase in olfactory sensilla of the silkmoths Antheraea polyphemus and A. pernyi were used to test the hypothesis that enzymatic pheromone degradation is responsible for the decline of the receptor potential after pheromone stimulation. Test stimuli were the pheromone components (E,Z)-6,11-hexadecadienyl acetate, a substrate for the sensillar esterase, and (E,Z)-6,11-hexadecadienal, not degraded by the esterase. Each compound acts on a separate type of receptor cell. In both receptor cell types the trifluoro propanones caused a partially reversible reduction of sensitivity as indicated by smaller receptor potential amplitudes and lower nerve impulse frequencies. Since application of the esterase inhibitors did not prolong the decline of the receptor potential of the acetate cell, the esterase is not responsible for the rapid pheromone deactivation. When the trifluoro propanones were applied after the pheromone at high concentrations, they rapidly inhibited (repolarized) both receptor cell types. Experiments with local application of trifluoro propanones revealed that the inhibitory effect spreads within seconds along the length of the sensillum. The inhibition of the electrophysiological responses might be due to an antagonistic action of the trifluoro propanones at the pheromone-binding sites, either at the receptor molecules or at the pheromone-binding protein. Accepted: 4 February 1998     

Studies on esterase histochemistry of amphibian kidney

Summary In the hope that the histochemical picture of the kidney may help to understand its role in excretion and osmoregulation, an effort is here made to study the distribution of esterases in amphibian kidney.The kidneys of adults and tadpoles of the frog, Rana tigrina and the toad, Bufo melanostictus were used for this study. Some of these animals were subjected to dehydration for 3–4 days and to the effect of 150 mM NaCl for 8–12 days before their kidneys were used. The esterases were visualised using tweens, naphthol esters and 5-bromoindoxyl acetate as substrates. These were accompanied by activator/inhibitor studies.Very interesting results were obtained in the distribution of the esterases. Tween esterase and -naphthyl acetate esterase were found in the proximal tubules of the adult frog kidney only while 5-bromoindoxyl acetate esterase was found to be present in all the animals tested. On the other hand, naphthol AS acetate esterase was absent in the tadpole stages of the frog and toad. Further 5-bromoindoxyl acetate esterase and naphthol AS acetate esterase were demonstrated in the glomeruli of frogs and toads subjected to NaCl solution. Activator/ inhibitor studies helped in characteristically differentiating these different esterases.There seems to be a relationship between the distribution of the different esterases and the excretory and osmoregulatory adaptations of these animals which differ in the adult and tadpole stages and in the experimental conditions mentioned. The possible implications of the esterase distribution is discussed in considerable details.U.G.C. Research Scholar.     

The occurrence of an adult reproductive diapause in the univoltine life cycle of the beech leaf mining weevil,Rhynchaenus fagi L.

Summary

Juvenile hormone (JH) and α-naphthyl acetate (α-NA) esterase activity was measured on a daily basis during embryogenesis of the house cricket, Acheta domesticus. In eggs dissected from the lateral oviducts and embryos through blastokinesis, there were elevated levels of nonspecific JH esterase activity. The JH esterase activity could not be resolved from the α-NA esterase activity by gel filtration chromatography and the metabolism of both substrates was inhibited equally by 0,0-diisopropyl phosphorofluoridate (DFP). From blastokinesis through egg hatch, the JH esterase activity was maintained at relatively low levels and was resolved from the α-NA esterase activity by gel filtration. The α-NA esterase activity was inhibited by DFP while the JH esterase activity was relatively unaffected. Low JH titers in eggs must be maintained through blastokinesis for normal development. Elevated JH esterase activity in eggs during this period appears to have a functional role in the metabolism of maternal JH in the egg.     

Small enzymes with esterase activities from two thermophilic fungi, Emericella nidulans and Talaromyces emersonii

Extracellular esterase activities in Emericella nidulans and Talaromyces emersonii are attributed to small enzymes with molecular weights less than 10 kDa (microenzymes). A 1.6 kDa esterase accounted for most of the esterase activity observed in both organisms and one of them also contained a 4.1 kDa microenzyme with weaker esterase activity. These esterases were growth-associated and active towards fluorescein dibutyrate and -naphthyl acetate as well as tributyrin.     

Characterization of a feruloyl esterase B from Talaromyces cellulolyticus

A feruloyl esterase catalyzes the hydrolysis of the 4-hydroxy-3-methoxycinnamoyl (feruloyl) group from esterified sugars in plant cell walls. Talaromyces cellulolyticus is a high cellulolytic-enzyme producing fungus. However, there is no report for feruloyl esterase activity of T. cellulolyticus. Analysis of the genome database of T. cellulolyticus identified a gene encoding a putative feruloyl esterase B. The recombinant enzyme was prepared using a T. cellulolyticus homologous expression system and characterized. The purified enzyme exhibited hydrolytic activity toward p-nitrophenyl acetate, p-nitrophenyl trans-ferulate, methyl ferulate, rice husk, and bagasse. HPLC assays showed that the enzyme released ferulic acid and p-coumaric acid from hydrothermal-treated rice husk and bagasse. Trichoderma sp. is well-known high cellulolytic-enzyme producing fungus useful for the lignocellulosic biomass saccharification. Interestingly, no feruloyl esterase has been reported from Trichoderma sp. The results show that this enzyme is expected to be industrially useful for biomass saccharification.     

Esterases in pollen and stigma of Brassica

The dry type stigma of Brassica is covered with a continuous layer of cuticle. Cutinase and non-specific esterases may be involved in breakdown of this cuticle barrier during pollen-stigma interaction, but only a little is known about their nature and characteristics. We report here the presence of two distinct esterases from stigma and pollen of Brassica. A 33 kD esterase assayed using MU-butyrate substrate shows high activity in stigma papillae. A similar esterase from Tropaeolum pollen has been shown to possess active cutinase activity. The esterase activity in anther tissue is due to a 24 kD enzyme with substrate specificity toward acetate esters. Both enzymes require sulfhydryl groups for their catalytic activity. Immunogold labelling of antibodies raised against these esterases localised the proteins at the subcellular level. Antibodies for MU-butyrate hydrolase gave a positive signal in the cell walls of mature stigma papillae and in the tapetum and microspores during early stages of anther development. In the mature anther, a positive signal in the cytoplasm of pollen grains with some detectable localisation in the exine layer of the pollen wall was obtained. Similar results were obtained with acetate hydrolase antibodies. These esterases are thus spatially and temporally regulated in stigma and anther tissues.Abbreviations MU methyl umbelliferyl - pAbC anti-butyrate hydrolase polyclonal antibodies - pAbE anti-acetate hydrolase polyclonal antibodies     

Isolation and characterization of a ferulic acid esterase (Fae1A) from the rumen fungus Anaeromyces mucronatus

Aims: A novel ferulic acid esterase gene from rumen fungus Anaeromyces mucronatus was cloned, heteroexpressed in Escherichia coli and characterized. Methods and Results: A total of 30 clones exhibiting activity on α‐naphthyl acetate (α‐NA) were isolated from an A. mucronatus YE505 cDNA library. Sequence analysis revealed that these clones represented two esterase‐coding sequences. The gene, fae1A, showed highest amino acid sequence identity to CE family 1 esterases from anaerobic micro‐organisms such as Orpinomyces sp., Ruminococcus albus and Clostridium thermocellum. The gene comprised 828 nucleotides encoding a polypeptide of 275 amino acids. The coding sequence was cloned into the pET30a expression vector and overexpressed in E. coli BL21 (DE3). Gene product Fae1A was found to exhibit activity against a number of substrates including naphthyl fatty acid esters, p‐nitrophenyl fatty acid esters and hydroxylcinnamic acid esters. Conclusions: Fae1A exhibited a lower K_m and higher catalytic efficiency (k_cat/K_m) on ferulic acid esters than on α‐NA or p‐nitrophenyl acetate, suggesting that it has a higher affinity for ethyl and methyl ferulate than for the acetyl esters. It releases ferulic acid and p‐coumaric acid from barley straw. Activity of Fae1A was inhibited by the serine‐specific protease inhibitor, phenylmethylsulfonyl fluoride, indicating that a serine residue plays a role in its activity. Significance and Impact of the Study: To our knowledge, this is the first report of characterization of carbohydrate esterase gene from the genus of Anaeromyces.     

Genetically defined lysosomal acetylesterase EC 3.1.1.6 in the cauda epididymidis of mouse,rat, and man

After inhibition by bis-p-nitrophenyl phosphate and subsequent staining for esterase using naphthol AS-D acetate as the substrate, a strong lysosomal esterase was demonstrated in the cauda epididymidis of mouse, rat, and man. Owing to its behaviour towards the classifying inhibitors eserine, diisopropyl fluorophosphate, bis-p-nitrophenyl phosphate, and p-chloromercuriphenylsulphonate, this lysosomal esterase was shown to be an acetylesterase (EC 3.1.1.6). Control experiments involving isoelectric focusing revealed that this acetylesterase was identical with the genetically defined homologues ES-17, ES-6, and ES-A4 in mouse, rat, and man, respectively.     

Mapping of nucleoside phosphorylase (Np-1) and esterase 10 (Es-10) on mouse chromosome 14

A method for detecting two alleles at Np-1 (nucleoside phosphorylase) and three alleles at Es-10 (esterase 10) from mouse blood by cellulose acetate electrophoresis is described. The allelic constitution at these loci for 44 inbred strains and stocks was determined. The location of Np-1 on chromosome 14 was established by backcross experiments in which alleles at Np-1 and Robertsonian translocations were segregating. Es-10 was shown to be linked to Np-1, and the following genetic map of Chr 14 was constructed: centromere-(8.9±4.0 cM)-[Np-1, Wc]-(10.2±1.9 cM)-Es-10-(15.5±3.7 cM)-s. The homologous human loci, NP and ES-D, are not linked.This work was supported by Contract E(11-1)-3267 with the Energy Research and Development Administration, by Contracts NO1-ES4-2156 and NO1-ES4-2159 with the National Institute of Environmental Health Sciences, and by Grants GM 19656 and GM 20919 from the National Institute of General Medical Sciences. D. A. K. was a participant in the 1975 Summer Program for College, Graduate, and Medical Students, which was supported, in part, by the Clark Foundation. The Jackson Laboratory is fully accredited by the American Association for Accreditation of Laboratory Animal Care.     

Extracellular Carbohydrate Esterase from the Basidiomycete Coprinopsis cinerea Released Ferulic and Acetic Acids from Xylan

cDNA encoding an extracellular carbohydrate esterase (CcEst1) was cloned from the basidiomycete Coprinopsis cinerea. The recombinant CcEst1 expressed in Pichia pastoris acted on p-nitrophenyl acetate, α-naphthyl acetate, and methyl hydroxycinnamic acids, except for methyl sinapic acid. The enzyme released ferulic and acetic acids from wheat arabinoxylan and acetylated xylan respectively. Activity increased on the addition of endo-β-1,4-xylanase.