Amylase and cellulase activities of thermophilic fungi causing deterioration of tobacco products in Nigeria

The conditions necessary for the production and activities of extracellular enzymes of thermophilic fungi obtained from tobacco products were determined. While amylases were produced in extractable amounts by all the fungi used in this study, extracellular cellulases were produced only by Chaetomium thermophile La Touche, Humicola insolens Cooney and Emerson, Malbranchea pulchella Sacc. et Penzig var. sulfurea (Miehe) Cooney and Emerson, and Mucor pusillus Lindt. A narrow range of pH 6–7 was best for the activities of the amylases of all the fungi used while a lower range of pH 5–6 was optimal for their cellulase activities. Peak activities were recorded for both enzymes at a temperature range of 45 °–50 °C. The possible use of the exo-enzymes of these fungi in industrial fermentation processes is suggested.     

Properties of new alkaline maltohexaose-forming amylases

Summary Three alkaline amylases have been newly discovered in a culture medium of an alkalophilic Bacillus sp. H-167 isolated from soils. These amylases produced maltohexaose as the main product from starch. All three amylases were purified to give a single band on disc electrophoresis. They had similar properties except for molecular weight (MW) and isoelectric point (pI): optimum pH, 10.5; optimum temperature, 60°C; pH stability, 7–12; heat stability, 50–55°C; MW, 59000–80000; pI, 3.5–4.3. Metal ions such as Hg²⁺, Zn²⁺, Pb²⁺, Co²⁺ and Ni²⁺ inhibited the enzyme activity. All the enzymes hydrolyzed starch to produce preferentially maltohexaose, rather than maltose and maltotetraose, in an early stage of the reaction. The yield of maltohexaose reached 25%–30% from soluble starch.     

Production of D(-)-lactic acid from cellulose by simultaneous saccharification and fermentation using Lactobacillus coryniformis subsp. torquens

D(–)-Lactic acid was produced from cellulose by simultaneous saccharification and fermentation (SSF) in media containing cellulolytic enzymes and Lactobacillus coryniformis subsp. torquens ATCC 25600 at 39 °C and pH 5.4, yielding 0.89 g D(–)-lactic acid g^–1 cellulose at a mean volumetric productivity of 0.5 g l^–1 h^–1. No L(+)-lactic acid was found in the medium.     

Pectinolytic enzymes produced byAspergillus carbonarius (Bainier) thom

Summary Aspergillus carbonarius produces exocellular pectinolytic enzymes which are active within the acid range of pH and therefore are useful in commercial processing of fruits. The fungus produces pectin methylesterase, a viscosity-reducing enzyme, and exo-polygalacturonase; but it does not produce transeliminases. The optimum pH range and temperature for the above-mentioned enzyme activities are 3.5 to 4.0 and 50°, respectively. Enzymic hydrolysates of both pectin and pectic acid contained only monogalacturonate. The enzymes are stable at pH 3.0 to 4.5 at room temperature (20–30°) for more than a month. A preliminary purification yielded two fractions, both of which showed viscosity-reducing as well as saccharogenic activities. Pectin methylesterase was unaffected when treated with 6M urea for 5 hr at pH 6.7 and 25°, whereas polygalacturonase and viscosityreducing activities were completely inactivated.     

Purification and partial characterization of two chitinases from the mycoparasitic fungus <Emphasis Type="Italic">Talaromyces flavus</Emphasis>

Chitinases were produced by Talaromyces flavus CGMCC 3.4301 when it was grown in the presence of chitin. Two chitinases from the culture filtrate of T. flavus were purified to homogeneity by fractional ammonium sulphate precipitation, ion-exchange chromatography on DEAE–Sepharose and Phenyl–Sepharose hydrophobic interaction chromatography. By SDS–PAGE, the molecular weight of the two enzymes was estimated to be 41 and 32 kDa, respectively. The 41 kDa chitinase (CHIT41) had a 4.0 pH optimum; the 32 kDa chitinase (CHIT32) optimum activity was at pH 5.0. The optimum temperature for the two chitinase activities was 40 °C. The two chitinases had activity against cell wall of Verticillium dahliae, Sclerotinia sclerotiorum and Rhizoctonia solani, and inhibited spore germination and germ tube elongation of Alternaria alternata, Fusarium moniliforme, and Magnaporthe grisea.     

Partial characterization ofAspergillus fumigatus polygalacturonases for the degumming of natural fibers

Summary Aspergillus fumigatus strain 4, cultured on citrus pectin as the sole carbon source, produced polygalacturonases whose activity was optimum at 65°C and pH 3.5–4.5. The enzymes presented a bimodal thermostability for 10 min, but not 60 min, of incubation. Polygalacturonases showed pH stability between 3.0 to 9.0. The enzymes were stable when stored at 4–6°C for 90 days, but their activity was reduced by 24% when they were stored at 26–30°C. Orange pulp was the best pectic carbon source tested for the production of pectinases capable of retting ramie fibers. The reutilization of these enzymes was possible, suggesting the viability of industrial use of pectinases for degumming ramie fibers.     

Effects of fungicides on Aspergillus fumigatus

Aspergillus fumigatus was the most frequently isolated thermophilous fungus from green leaf surfaces. The application of fungicides significantly reduced the frequency of its occurrence there. A. fumigatus was relatively tolerant to fungicides. On Captan-, Thiram-, and Verdasan-treated leaves, A. fumigatus constituted 66%–80% of the total number of isolates obtained at 45°C from each treatment while Dicloran did not depress the percentages. At 45°C, A. fumigatus was found to be strongly cellulolytic with a slow rate of radial extension on YpSs agar and rapid rate of mycelial growth in Czapek Dox liquid medium. Increasing concentrations of all four fungicides reduced or prevented growth, sporulation, starch depletion and cellulose clearing of A. fumigatus. The fungus could tolerate higher concentrations of HgCl₂ than of Verdasan. 0.5 g/ml of the four fungicides altered the rates of mycelial growth but not the maximum amount of mycelial dry weight attained.     

Highly active and thermostable amylases and pullulanases from various anaerobic thermophiles

Summary High concentrations of amylases and pullulanases were formed by continuous cultivation of Thermoanaerobacter finnii, Thermobacteroides acetoethylicus, Thermoanaerobacter ethanolicus and Clostridium thermosaccharolyticum in chemostats under starch limitation. 70% to 98% of these enzymes were transported and released into the culture fluid. These extracellular enzymes were extremely thermostable under aerobic conditions and in the absence of substrate and metal ions. The amylases and pullulanases from the first three organisms had an optimal temperature of 90°C. The enzymes from C. thermosaccharolyticum were most active at 75°C. The pH optima of the amylolytic enzymes from the microorganisms investigated ranged between 5 and 6. The addition of calcium ions in vitro significantly enhanced pullulanase activity from T. finnii and C. thermosaccharolyticum. The influence of other metal ions and cyclodextrins on the activities of the amylolytic enzymes is also described.     

Pullulanases of alkaline and broad pH range from a newly isolated alkalophilicBacillus sp. S-1 and aMicrococcus sp. Y-1

Summary Two highly alkalophilic bacteria, and potent producers of alkaline pullulanase, were isolated from Korean soils. The two isolates, identified asBacillus sp. S-1 andMicrococcus sp. Y-1, grow on starch under alkaline conditions and effectively secrete extracellular pullulanases. The two isolates were extremely alkalophilic since bacterial growth and enzyme production occurred at pH values ranging from pH 6.0 to 12.0 forMicrococcus sp. Y-1 and pH 6.0 to 10.0 forBacillus sp. S-1. Both strains secrete enzymes that possess amylolytic and pullulanolytic acitivities. Extracellular crude enzymes of both isolates gave maltotriose as the major product formed from soluble starch and pullulan hydrolysis. Compared to other alkalophilic microbes such asMicrococcus sp. (0.57 units ml^–1),Bacillus sp. KSM-1876 (0.56 units ml^–1) andBacillus No. 202-1 (1.89 units ml^–1) these isolates secreted extremely high concentrations (7.0 units ml^–1 forBacillus sp. S-1 and 7.6 units ml^–1 forMicrococcus sp. Y-1) of pullulanases in batch culture. The pullulanase activities from both strains were mostly found in the culture medium (85–90%). The extracellular enzymes of both bacteria were alkalophilic and moderately thermoactive; optimal activity was detected at pH 8.0–10.0 and between 50 and 60°C. Even at pH 12.0, 65% of original Y-1 pullulanase activity and 10% of S-1 pullulanase activity remained. The two newly isolated strains had broad pH ranges and moderate thermostability for their enzyme activities. These result strongly indicate that these new bacterial isolates have potential as producers of pullulanases for use in the starch industry.     

The production of cyclopiazonic acid by Penicillium commune and cyclopiazonic acid and aflatoxins by Aspergillus flavus as affected by water activity and temperature on maize grains

The combined effects of water activity (a_w) and temperature on mycotoxin production by Penicilium commune (cyclopiazonic acid — CPA) and Aspergillus flavus (CPA and aflatoxins — AF) were studied on maize over a 14-day period using a statistical experimental design. Analysis of variance showed a highly significant interaction (P 0.001) between these factors and mycotoxin production. The minimum a_w/temperature for CPA production (2264 ng g^–1 P. commune, 709 ng g^–1 A. flavus) was 0.90 a_w/30 °C while greatest production (7678 ng g^–1 P. commune, 1876 ng g^–1 A. flavus) was produced at 0.98 a_w/20 °C. Least AF (411 ng g^–1) was produced at 0.90 a_w/20 °C and most (3096 ng g^–1) at 0.98 a_w/30 °C.     

Amylases of the Fungus Aspergillus flavipes Associated with Fucus evanescens

A promising producer of extracellular amylases, Aspergillus flavipes, was selected from 245 strains of marine fungi. Depending on the conditions of growth, this strain produced diverse amylolytic complexes. When grown on a medium containing peptone and yeast extract (pH 7.0), A. flavipes synthesized three forms of amylase, differing in pH optimum (5.5, 6.0, and 7.5). A single form of the enzyme was synthesized either in the absence of peptone from the medium or at the initial pH value of the medium, equal to 8.6. The activity of the isolated amylase forms decreased in the presence of proteolytic enzymes. New, highly stable forms of amylase (with pH optima of 5.5 and 7.5 and maximum activity at 60–80°C) were synthesized in the presence of diisopropyl fluorophosphate, an inhibitor of proteases.     

Ethanol formation from cellulose by thermophilic bacteria

Summary A wild coculture of obligately thermophilic bacteria, including only a single cellulolytic species Clostridium, ferments 2% crystalline cellulose and produces 4.6–5.1 g·l^–1 of ethanol at 55°–60° C; that is, 0.96–1.1 moles of ethanol from 1 mole of glucose equivalent of cellulose degraded. However, the ethanol yield decreases with increasing cellulose concentration. Ethanolacetic acid ratio varies around 1 and cannot be influenced by substrate concentration. However, this ratio can be influenced by changing pH and temperature. For the ethanol production from cellulose, neutral and weekly alkaline media with a pH of 7.0–8.0 and a temperature of 55° C are optimal. Experiments in which the coculture was subjected to high ethanol concentrations showed that higher concentrations of added ethanol (up to 20 g·l^–1) suppress cellulose degradation by 50% and inhibit the actual production of ethanol.     

Amylase synthesis inAspergillus flavus andAspergillus niger grown on cassava peel

Summary Aspergillus flavus andAspergillus niger produce extracellular amylase into the culture medium when grown on basal medium containing 2% (w/v) soluble starch or cassava peel as the sole carbon source. On soluble tarch the highest amylase activities were 1.6 and 5.2 mg of starch hydrolyzed/min per mg protein forA. flavus andA. niger, respectively. When grown on cassava peel, the highest amylase activity in the culture filtrate ofA. flavus was 170-times higher than that on soluble starch, while that ofA. niger was 16-times higher. The mycelial dry weight for both organisms was not significantly affected by the carbon sources. Maximum enzyme activity was obtained at the growth temperature of 29.0±1°C and pH 7 for both organisms. It is concluded that cassava peel might be a better substrate for the production of amylase byA. flavus andA. niger than commercial soluble starch.     

Comparative study of amylolytic enzymes production byAspergillus niger in liquid and solid-state cultivation

Summary Amylolytic enzymes produced by a strain ofAspergillus niger cultivated on cassava starch in liquid or solid culture were found to be mainly glucoamylases. For the same initial amount of substrate, the glucoamylase activity increased even after 60 h of culture on solid medium whereas it decreased in liquid culture. Some characteristics of the amylases produced in both culture conditions were compared. The pH optima for enzymes produced in solid and liquid cultures were 4.5 and 5.0 respectively. Glucoamylase synthetized in solid cultures was significantly more thermostable than that from liquid culture and was maximally active at 70°C compared to 50°C for the enzyme from liquid cultures. The Km values expressed as mg soluble starch/100 ml were 0.1% for crude enzyme from solid culture and 0.057% for crude enzyme from liquid culture.     

Comparative study of Aspergillus mycotoxin production on enriched media and construction material

Isolates of Aspergillus flavus and Aspergillus fumigatus from indoor air were compared with a known mycotoxin producer for their capacity to produce mycotoxins on a variety of enrichment media and with growth on indoor substrates such as ceiling tile and wall board. In enrichment media, four of seven isolates of A. flavus produced at least one aflatoxin and both isolates of A. fumigatus produced mycotoxins. The spectrum of mycotoxins and their concentrations varied with the strain and medium. When the mycotoxin-positive strains were grown to a dense concentration on indoor construction and finishing materials such as ceiling tile and wall boards, mycotoxins were not detected in extracts of the materials. Colonization of indoor surfaces by mycotoxin-producing strains of A. flavus and A. fumigatus may not necessarily expose inhabitants to mycotoxins or result in production of mycotoxins. Received 09 February 1999/ Accepted in revised form 28 June 1999     

Heterologous production of Aspergillus fumigatus keratinase in Pichia pastoris

Aspergillus fumigatus Fresenius was previously shown to grow in mineral medium containing chicken feather flour as carbon and nitrogen source. Substantial proteolytic keratin-degrading activity was present in the culture supernatant after 24–72 h of growth at 42 °C. The keratinase was successfully purified by a single ion exchange chromatographic procedure and had a molecular mass of 31 kDa as determined by SDS–PAGE. The keratinase cDNA was expressed in Pichia pastoris cells and the recombinant clones were shown to be able to produce substantial caseinolytic, azo-keratinolytic and keratinolytic activities. SDS–PAGE and Western-blotting analysis using antibody against keratinase of A. fumigatus showed the presence of a single protein in the culture supernatants of several recombinant P. pastoris cells. This protein had a molecular mass corresponding to that of the A. fumigatus keratinase. The enzyme production profile showed that theP. pastoris recombinant cells produced an increasing amount of proteolytic and azo-keratinolytic activities over a 72 h growth period. Dry weight determination analysis indicated that 10% of the keratin flour was hydrolysed over a 24 h incubation period with 510 U (caseinolytic activity) of the recombinant keratinase.     

Fungal populations and mycotoxins in silage in Assiut and Sohag governorates in Egypt,with a special reference to characteristic Aspergilli toxins

Forty silage samples were collected from Assiut and Sohag governorates in Egypt to measure the presence of fungal population in silage. Forty-three species and 2 species varieties belonging to 17 genera were isolated using glucose Czapeks and Sabourauds dextrose agar media at 28 ^°C. The most prevalent genera were Aspergillus (57.5 and 100 of the samples), Penicillium (100 and 55%) on the two mentioned media, respectively. Also, Fusarium oxysporum and Gibberella fujikurori were recovered in moderate incidences. Mycotoxin profiles were also determined in these samples: Aflatoxins showed the highest incidence rates of occurrence, it occurred in 22.5% of all samples analyzed. Other mycotoxins were detected from all samples (T₂ toxins and sterigmatocystin at incidence of 7.5 and 5%, respectively). The screening of the characteristics mycotoxins of different isolates of Aspergillus isolated from silage samples was tested. The results clarified that some mycotoxins (aflatoxins – aspergillic acid – beta nitro propionic acid – cyclopiazonic acid– kojic acid and sterigmatocystin) were produced by some isolates of A. flavus. Some isolates of A.fumigatus could produce gliotoxin and verrucologen. All of A. niger isolates tested were able to produce kojic acid. One isolate of A. ochraceous formed ochratoxin A and other isolate produced penicillic acid. Concerning A. terreus isolates, the results showed that 5 isolates were able to produce citrinin and 4 isolates had ability to produce patulin. A. versicolor isolates showed the ability to produce ochratoxin A.     

Pectinolytic Enzymes from Actinomycetes for the Degumming of Ramie Bast Fibers

Actinomycetes isolated from 10 different soil and compost samples were screened for production of pectinolytic enzyme activities when grown on pectin-containing solid and liquid media. Pectinolytic enzymes, detected by using plate diffusion tests with a medium containing ramie (Boehmeria nivea) plant material as the sole carbon source, were mainly pectate lyases, but low activities of pectinesterases were also observed. Polygalacturonases and polymethylgalacturonases were not produced. Multiple forms of pectate lyases were detected in the culture supernatants of some of the strains by using the zymogram technique of isoelectric focusing gels. Xylanolytic and cellulolytic activities were always found to be associated with pectinolytic activities. None of the pectinolytic enzymes were produced in a medium with glucose as the sole carbon source. Treatment of ramie bast fibers with crude enzyme preparations from a selection of strains showed a good correlation between the pectate lyase activity applied and the degumming effect, resulting in good separation of the bast fibers.     

Glucoamylases of a fungus isolated from a rotting cassava tuber

Summary Aspergillus niger H-9 is a fungal strain isolated from a rotting cassava tuber in Thailand. In the present study, the production of the enzymes was carried out as solid state ricebran-soybean fermentation. Two types of glucoamylases were isolated and purified. The purified glucoamylases were found to be homogenous on 7.5% polyacrylamide gel disc electrophoresis. The molecular weights of glucoamylase I and II were 59,400–72,600 and 43,000–52,600 respectively. The Km values of glucoamylase I and glucoamylase II were 12.5 and 6.25 mg glucose/ml when soluble starch was used as substrate. The optimal pH of both enzymes was 4.0–5.0. The optimum temperatures for the activities of glucoamylase I and glucoamylase II were 60 and 70°C respectively. Both enzymes were stable in the pH range 3.0–6.0 and temperature stable below 50°C. Both glucoamylases were active on various kinds of starch and dextrin including raw starch. Glucoamylase II was, however, found to hydrolyse raw starch better than glucoamylase I.

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Resumen Aspergillus niger H-9 es una cepa aislada en Tailandia a partir de tuberculos de cassava afectados de podredumbre. En este trabajo la producción de enzimas tuvo lugar mediante fermentación en un medio sólido compuesto por fibra de arroz y soja. Se aislaron y purificaron dos tipos de glucoamilasas. Al realizar una electroforesis en disco de polyacrilamida al 7.5% se observó que las glucoamilasa purificadas eran homogeneas. Los pesos de las glucoamilasas I y II eran respectivamente 59,400–72,600 y 43,000–52,600. Las Km respectivas fueron 12.5 y 6.25 mg ml^–1 cuando se utilizó almidón soluble como substrato. El pH optimo para ambos enzimas fue 4.0–5.0. Las temperaturas óptimas para la glucoamilasa I y la glucoamilasa II fueron respectivamente de 60 y 70°C respectivamente. Ambos enzimas eran estables en el intérvalo de pH 3.0–6.0 y a temperaturas por debajo de 50°C. Los dos enzimas eran activos fiente a distintos tipos de almidón y dextrina incluyendo almidón bruto. La glucoamilasa II hidrolizó mejor el almidón bruto que la glucoamilasa I.

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Résumé Aspergillus niger H-9 est une souche de moisissure isolée en Thailande à partir de tubercules pourris de manioc. Dans cette étude, la production d'enzymes a été obtenue par fermentation en milieu solide sur son de riz et soja. Deux types de gluco-amylases ont été isolés et purifiés. Les enzymes purifiés sont homogènes en disque-éléctrophorèse sur gel de polyacrylamide. Les poids moléculaires des gluco-amylases I et II sont respectivement de 59,400–72,600 et 43,000–52,000 et leurs Km pour l'amidon soluble de 12.5 et 6.25 mg de glucose/ml. Le pH optimum des deux enzymes est compris entre 4.0 et 5.0. Leurs températures optimales sont respectivement de 60 et 70°C. Les deux enzymes sont stables de pH 3.0–6.0 et aux températures inférieures à 50°C. Les deux gluco-amylases sont actives sur différents types d'amidon et de dextrines, y compris l'amidon cru. Toutefois, la gluco-amylase II hydrolyse l'amidon cru plus activement que la gluco-amylase I.

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Paper presented at the VII International Conference on the Global Impacts of Applied Microbiology, Helsinki, 12–16 August 1986.     

Production of extracellular enzymes during the solubilisation of straw by Thermomonospora fusca BD25

The production of three extracellular enzymes during the solubilisation of ball-milled wheat straw by seven actinomycete strains, was examined. A general correlation was observed between the production of extracellular enzymes (xylanases, endoglucanases and peroxidases) and the formation of the solubilised lignocellulose intermediate product (APPL), with the thermophilic actinomycete Thermomonospora fusca BD25 exhibiting greatest extracellular enzyme activity and highest APPL production. Production of all three enzymes; endoxylanase, endoglucanase and peroxidase, and lignocellulose solubilisation, occured during primary growth with maximum activity at the end of the exponential phase (48–96 h). The inducibility and stability of extracellular enzymes from T. fusca were further characterised. When xylan replaced ball-milled wheat straw as the growth substrate, reduced enzyme activities were observed (28–96% reduction in enzyme activities), whereas carboxymethylcellulose was found to be a poor inducer of all three enzyme activities (80–100% reduction in enzyme activities). The pH and temperature optima for extracellular enzyme activities from T. fusca was found to be pH 7.0–8.0 and 60°C, respectively. Analysis of concentrated crude supernatant from T. fusca by native polyacrylamide gel electrophoresis revealed the existence of two non-haem peroxidases. The stability of the extracellular lignocellulose-degrading enzymes for T. fusca suggest their suitability for future biotechnological processes such as biobleaching.