Uptake of reactive textile dyes by Aspergillus foetidus

An isolated fungus, Aspergillus foetidus was found to effectively decolorize media containing azo reactive dyes namely, Drimarene dyes. The extent of color removal was greater than 95% within 48 h of growth of the fungus. The entire color was found to be strongly bioadsorbed to the rapidly settling fungal biomass pellets without undergoing significant biotransformation. Our investigations reveal that the process of decolorization is concomitant with the exponential growth phase of the fungus and has requirement for a biodegradable substrate such as glucose. The fungus was also able to decolorize media containing mixture of dyes to an extent of 85% within 72 h of growth. Kinetic analyses of fungal decolorization indicate that the process is time dependent and follows first order kinetics with respect to initial concentration of dye. The rates of color uptake (k values) decrease to a significant extent with increasing initial concentrations of dye. The fungus was able to grow and decolorize media in the presence of 5 ppm of chromium and 1% sodium chloride. An alternate and cheaper carbon source such as starch supported the growth and decolorization process. These results suggest that dye uptake process mediated by A. foetidus has a potential for large-scale treatment of textile mill discharges.     

Decolorization of structurally different textile dyes by Aspergillus niger SA1

The fungal strain, Aspergillus niger SA1, isolated from textile wastewater sludge was screened for its decolorization ability for four different textile dyes. It was initially adapted to higher concentration of dyes (10–1,000 mg l⁻¹) on solid culture medium after repeated sub-culturing. Maximum resistant level (mg l⁻¹) sustained by fungal strain against four dyes was in order of; Acid red 151 (850) > Orange II (650) > Drimarene blue K₂RL (550) > Sulfur black (500). The apparent dye removal for dyes was seen largely due to biosorption/bioadsorption into/onto the fungal biomass. Decolorization of Acid red 151, Orange II, Sulfur black and Drimarine blue K₂RL was 68.64 and 66.72, 43.23 and 44.52, 21.74 and 28.18, 39.45 and 9.33% in two different liquid media under static condition, whereas, it was 67.26, 78.08, 45.83 and 13.74% with 1.40, 1.73, 5.16 and 1.87 mg l⁻¹ of biomass production under shaking conditions respectively in 8 days. The residual amount (mg l⁻¹) of the three products (α-naphthol, sulfanilic acid and aniline) kept quite low i.e., ≤2 in case AR 151 and Or II under shaking conditions. Results clearly elucidated the role of Aspergillus niger SA1 in decolorizing/degrading structurally different dyes into basic constituents.     

Bioremediation of textile azo dyes by an aerobic bacterial consortium using a rotating biological contactor

The degradation of an azo dye mixture by an aerobic bacterial consortium was studied in a rotating biological reactor. Laterite pebbles of particle size 850 microm to 1.44 mm were fixed on gramophone records using an epoxy resin on which the developed consortium was immobilized. Rate of degradation, BOD, biomass determination, enzymes involved, and fish bioassay were studied. The RBC has a high efficiency for dye degradation even at high dye concentrations (100 microg/mL) and high flow rate (36 L/h) at alkaline pH and salinity conditions normally encountered in the textile effluents. Bioassays (LD-50) using Thilapia fish in treated effluent showed that the percentage mortality was zero over a period of 96 h, whereas the mortality was 100% in untreated dye water within 26 h. Fish bioassay confirms that the effluent from RBC can be discharged safely to the environment.     

Biosynthesis of L-DOPA by Aspergillus oryzae

The present investigation deals with the biosynthesis of L-DOPA by parental (GCB-6) and mutant (UV-7) strains of Aspergillus oryzae. There was a marked difference between the mycelial morphology and pellet type of parental and UV-irradiated mutant culture. The mutant strain of A. oryzae UV-6 exhibited pellet-like mycelial morphology and improved tyrosinase activity. Mould mycelium was used for biochemical conversion of L-tyrosine to L-DOPA because tyrosinase is an intracellular enzyme. The mutant was found to yield 3.72 fold higher production of L-DOPA than the parental strain. The mutant strain is stable and D-glc-resistant. The comparison of kinetic parameters was also done which showed the greater ability of the mutant to yield L-DOPA (i.e., Yp/x 40.00+/-0.01 d mg/mg with parent and 182.86+/-0.02a mg/mg in case of mutant). When cultures grown for various incubation periods, were monitored for Qp, Qs and q(p), there was significant enhancement (p < 0.0025-0.005) in these variables by the mutant strain of A. oryzae UV-7 over GCB-6 on all the rates. L-DOPA (3,4-dihydroxy phenyl L-alanine) is a drug of choice in the treatment of Parkinson's disease and myocardium following neurogenic injury.     

The utilisation of palm oil processing effluents as substrates for microbial protein production by the fungus Aspergillus oryzae

Summary The filamentous fungus Aspergillus oryzae was found to grow well on the effluents produced during the extraction of palm oil. Biomass yields of approximately 50 g 100 g^–1 organic matter were obtained containing 40% crude protein, with BOD reductions of 85% and COD reductions of 75% to 80% in batch culture following optimisation of growth conditions. Supplementation with an inorganic nitrogen source was found to be necessary (but not supplementation with phosphate or sulphate sources).The more resistant substrate constituents to biodegradation were water soluble carbohydrate and nitrogenous material, possibly Maillard reaction products, and polyphenols.     

Bioremediation of paper and pulp mill effluents

Pulp and paper mill effluents pollute water, air and soil, causing a major threat to the environment. Several methods have been attempted by various researchers throughout the world for the removal of colour from pulp and paper mill effluents. The biological colour removal process uses several classes of microorganisms--bacteria, algae and fungi--to degrade the polymeric lignin derived chromophoric material. White rot fungi such as Phanerochaete chrysosporium, Corius versicolor, Trametes versicolor etc., are efficient in decolourizing paper and pulp mill effluents. Gliocladium virens, a saprophytic soil fungus decolourised paper and pulp mill effluents by 42% due to the production of hemicellulase, lignin peroxidase, manganese peroxidase and laccase.     

Invasion of paranasal sinuses by Aspergillus oryzae

A 24-year-old male patient receiving chemotherapy for acute promyelocytic leukemia developed fever, right periorbital swelling and mild right proptosis. A head scan showed opacification of the right maxillary and ethmoid sinuses with adjacent soft tissue swelling. Biopsy of the nasal mucosa demonstrated the typical septate hyphae of Aspergillus species which was later shown on culture to be Aspergillus oryzae. A. oryzae has only rarely been reported in human disease and there is confusion as to its precise identification and role. We would like to confirm the pathogenicity of A. oryzae with this uncommon presentation of aspergillosis and also emphasize the need to take adequate and multiple cultures in suspected cases so that the possibility of species identification will be maximized.     

Microbial degradation of monocrotophos by Aspergillus oryzae

Organophosphorus pesticides are widely used in India for protection of agricultural yields. However, these pesticides pose various threats to organisms, including humans, and hamper soil microbial activity; thus, they are a cause for concern. As a measure of bioremediation, soil fungi capable of degrading monocrotophos (MCP) were isolated from various geographical and ecological sites. Twenty-five strains were isolated by an enrichment method using MCP as a carbon and phosphorus source. On the basis of MCP tolerance capacity exhibited in gradient agar plate assay the isolate M-4, identified as Aspergillus oryzae ARIFCC 1054, was selected for further studies. The ability of the isolate to mineralize MCP was investigated under different culture conditions. The isolate was found to possess phosphatase activity. The course of the degradation process was studied using HPTLC and FTIR analyses. The results suggest that this organism could be used for bioaugmentation of soil contaminated with MCP and for treatment of aqueous wastes.     

米曲霉发酵纯化无患子皂苷的工艺研究

采用微生物发酵法对无患子皂苷水提取液进行纯化.比较了采用自然发酵、接种酵母菌发酵和接种米曲霉发酵纯化无患子皂苷的效果.结果表明,提取液不灭菌,接种米曲霉发酵纯化效果较为明显,优化后的发酵条件为:温度30℃、接种龄12 h、接种量为3％、摇床转速150 r/min,发酵7d后,皂苷含量稍有下降,但皂苷纯度可从48.71％提高到82.47％.米曲霉发酵法明显优于水提醇沉法、絮凝法和正丁醇萃取法.     

Alpha-galactosidase production by Aspergillus oryzae in solid-state fermentation

Comparisons were made for alpha-galactosidase production using red gram plant waste (RGPW) with wheat bran (WB) and other locally available substrates using the fungus Aspergillus oryzae under solid-state fermentation (SSF). RGPW proved to be potential substrate for alpha-galactosidase production as it gave higher enzyme titers (3.4 U/g) compared to WB (2.7 U/g) and other substrates tested. Mixing WB with RGPW (1:1, w/w) resulted enhanced alpha-galactosidase yield. The volume of moistening agent in the ratio of 1:2 (w/v), pH 5.5 and 1 ml (1 x 10(6) spores) of inoculum volume and four days incubation were optimum for alpha-galactosidase production. Increase in substrate concentration (RGPW+WB) did not decrease enzyme yield in trays.     

Decolorization of industrial effluents containing reactive dyes by actinomycetes

Abstract Actinomucete strains have been identified which decolorize effluents containing different types of reactive dyes. Adsorption of anthraquinone, phthalocyanine and azo dyes to the cells of some of the strains resulted in the decolorization of the effluents, but no degradation of the dyes was observed. In contrast, effluents containing an azo-copper complex and a formazan-copper complex dye were almost completely decolorized by several of the strains without adsorption to the cells. The observed changes in the visible spectra indicated a degradation during incubation with she strains.     

Repetitive attack by Aspergillus oryzae alpha amylase

The action of Aspergillus oryzae alpha amylase on reducing-end, and uniformly radiolabeled maltotriose through maltodecaose has been studied. The enzyme is found to hydrolyze more than a single glycosidic bond during some enzyme-substrate encounters. The extent of this repetitive attack is quantitated.     

Decolourisation of synthetic textile dyes by Phlebia tremellosa

Phlebia tremellosa decolourised eight synthetic textile dyes (200 mg l(-1)) by greater than 96% within 14 days under stationary incubation conditions. High performance liquid chromatography analysis of culture supernatants indicated that Remazol Black B was degraded by the fungus, however, complete mineralisation did not occur as a colourless organic breakdown product accumulated. Laccase activity was detectable in culture supernatants after 5 days when the fungus was grown in the presence of an artificial textile effluent, with activity reaching a maximum of 15 U l(-1) on day 14.     

米曲霉Aspergilus oryzae发酵生产曲酸的研究

分离到Ａｓｐｅｒｇｉｌｕｓｏｒｙｚａｅ１３个菌株,其曲酸产量变化幅度１６６—４８６ｍｇ／ｍｌ,从中选出４个高产菌株。在１％酵母提取物和１５％蔗糖培养液中３０℃发酵培养,８—１０天菌体生长量和曲酸产量达到最大值,随后曲酸产量迅速下降。蔗糖浓度对菌体生长和曲酸产量影响甚大,最适蔗糖浓度为１５％。天冬氨酸、甘氨酸、赖氨酸、谷氨酸、吡哆醇、叶酸和抗坏血酸有利于菌体生长并显著提高曲酸产量。将在ＹＥＳ培养液中培养１０天的菌体重新悬浮于含１５％蔗糖的ＹＥＳ培养液或０２Ｍ磷酸缓冲液（ｐＨ６５）中８—１０天曲酸产量仍可达到４５ｍｇ／ｍｌ以上。低温条件下制备的培养８—１０天的Ａｏｒｙｚａｅ菌体匀浆反应系统仅有痕量曲酸形成。     

Trehalase in conidia of Aspergillus oryzae

Horikoshi, Koki (The Institute of Physical and Chemical Research, Bunkyo-ku, Tokyo, Japan), and Yonosuke Ikeda. Trehalase in conidia of Aspergillus oryzae. J. Bacteriol. 91:1883-1887. 1966.-Trehalases (soluble trehalase and coat-bound trehalase) were found in the conidia of Aspergillus oryzae, and the total activity of the trehalases increased during the germination process. The soluble trehalase was purified by diethylaminoethyl-cellulose column chromatography; its optimal pH, Michaelis constant, and heat stability were studied. In vitro, the trehalases were competitively inhibited by d-mannitol, which was also contained in the conidia. Since the trehalose content in the conidia decreased at an early stage of germination, it was assumed that trehalase might begin to hydrolyze trehalose after the inhibitory effect of d-mannitol decreased.     

Visualization of vacuoles in Aspergillus oryzae by expression of CPY-EGFP

Vacuolar carboxypeptidase Y (CPY) from Aspergillus nidulans was used to construct a CPY-EGFP fusion protein and expressed in A. oryzae to study vacuolar morphology and functions in A. oryzae. While the fluorescence of EGFP was barely detectable in A. oryzae expressing CPY-EGFP grown under normal conditions at pH 5-6, the increase in pH of the growth medium towards alkalinity restored the fluorescence. In accordance with such an observation, the fluorescence of CPY-EGFP fusion protein in cell extract decreased in acidic pH condition, concomitant with lowered content of EGFP detected in A. oryzae grown under acidic pH conditions. The pH sensitivity of EGFP fluorescence and enhanced degradation of proteins in vacuoles under acidic pH conditions are thus proposed to result in the reduction of fluorescence in A. oryzae. Further, visualization of vacuoles revealed the presence of peculiar ring- or tube-like structures as distinct from normal spherical-shaped vacuoles.