青霉PT95菌固态发酵产生类胡萝卜素的研究

本文对青霉Ｐｅｎｉｃｉｌｌｉｕｍｓｐ．ＰＴ９５菌株在固态发酵条件下菌核内产生类胡萝卜素进行了初步研究。结果表明,在３种固态发酵培养基中,玉米粉培养基（ＳＭＡ）比麸皮２基和棉籽壳培养基更适合于ＰＴ９５菌株固态发酵产生类胡萝卜素。为了增加菌核干重和提高类胡萝卜素产率,ＳＭＡ中需要添加氮源、碳源和植物油。在所度的各种氮、碳源中,以硝酸钠和麦芽糖效果最佳。通过我试验确定了在培养基盐溶液中添加硝酸钠３ｇ／Ｌ     

Cellulase production in a new mutant strain of Penicillium decumbens ML-017 by solid state fermentation with rice bran

To produce cellulolytic enzyme efficiently, Penicillium decumbens strain L-06 was used to prepare mutants with ethyl methane sulfonate (EMS) and UV-irradiation. A mutant strain ML-017 is shown to have a higher cellulase activity than others. Box-Behnken's design (BBD) and response surface methodology (RSM) were adopted to optimize the conditions of cellulase (filter paper activity, FPA) production in strain ML-017 by solid-state fermentation (SSF) with rice bran as the substrate. And the result shows that the initial pH, moisture content and culture temperature all have significant effect on the production of cellulase. The optimized condition shall be initial pH 5.7, moisture content 72% and culture temperature 30°C. The maximum cellulase (FPA) production was obtained under the optimized condition, which is 5.76 IU g(-1), increased by 44.12% to its original strain. It corresponded well with the calculated results (5.15 IU g(-1)) by model prediction. The result shows that both BBD and RSM are the cellulase optimization methods with good prospects.     

Structure-based mutagenesis of Penicillium griseofulvum xylanase using computational design

Penicillium griseofulvum xylanase (PgXynA) belongs to family 11 glycoside hydrolase. It exhibits unique amino acid features but its three-dimensional structure is not known. Based upon the X-ray structure of Penicillium funiculosum xylanase (PfXynC), we generated a three-dimensional model of PgXynA by homology modeling. The native structure of PgXynA displayed the overall beta-jelly roll folding common to family 11 xylanases with two large beta-pleated sheets and a single alpha-helix that form a structure resembling a partially closed right hand. Although many features of PgXynA were very similar to previously described enzymes from this family, crucial differences were observed in the loop forming the "thumb" and at the edge of the binding cleft. The robustness of the xylanase was challenged by extensive in silico-based mutagenesis analysis targeting mutations retaining stereochemical and energetical control of the protein folding. On the basis of structural alignments, modeled three-dimensional structure, in silico mutations and docking analysis, we targeted several positions for the replacement of amino acids by site-directed mutagenesis to change substrate and inhibitor specificity, alter pH profile and improve overall catalytic activity. We demonstrated the crucial role played by Ser44(PgXynA) and Ser129(PgXynA), two residues unique to PgXynA, in conferring distinct specificity to P. griseofulvum xylanase. We showed that the pH optimum of PgXynA could be shifted by -1 to +0.5 units by mutating Ser44(PgXynA) to Asp and Asn, respectively. The S44D and S44N mutants showed only slight alteration in K(m) and V(max) whereas a S44A mutant lost both pH-dependence profile and activity. We were able to produce PgXynA S129G mutants with acquired sensitivity to the Xylanase Inhibitor Protein, XIP-I. The replacement of Gln121(PgXynA), located at the start of the thumb, into an Arg residue resulted in an enzyme that possessed a higher catalytic activity.     

Simple method for determination of patulin production by Penicillium griseofulvum Dierckx.

The growth of several cellulolytic species of ruminal bacteria was measured in media containing either cellobiose or cellulose as the energy source and with or without added 3-phenylpropanoic acid (PPA). With Ruminoccoccus albus 7 and 8, the addition of PPA greatly enhanced the rate of cellulose utilization but had little effect on the rate of growth when cellobiose was the energy source. Comparative rates of growth obtained on either cellobiose or cellulose for Ruminococcus flavefaciens FD1 or C94 and Butyrivibrio fibrisolvens 12, 49, or A38 were similar regardless of the PPA content of the growth medium.     

Microbial biomass production from rice straw by fermentation with Penicillium janthinellum

Production of microbial biomass through fermentation of pretreated rice straw using Penicillium janthinellum (St-F-3B) is reported, with emphasis on the use of non-effluent generating pretreatment procedures. The fungus readily metabolized a rice straw substrate that had been subjected to alkali pretreatment by steaming at atmospheric pressure followed by the neutralization of the alkali. The crude protein content of the microbial biomass averaged 15–20%. The fermentation could be carried out in aerated-agitated fermenters using fertilizer grade nutrient salts to produce a biomass with 17.5% crude protein. When operated on a semicontinuous basis using 20% of the previous batch as inoculum, successive batches produced a biomass product with 12–19% crude protein content in 48 h. The problems of developing a technology for protein from agricultural residues with particular reference to developing countries are discussed.     

Some properties of free and immobilized alpha-amylase from Penicillium griseofulvum by solid state fermentation

Alpha-amylase was produced from Penicillium griseofulvum by an SSF technique. Alpha-amylase was immobilized on Celite by an adsorption method. Various parameters, such as effect of pH and temperature, substrate concentration, operational and storage stability, ability to hydrolyze starch and products of hydrolysis were investigated; these findings were compared with the free enzyme. The activity yield of immobilization was 87.6%. The optimum pH and temperature for both enzymes were 5.5 degrees C and 40 degrees C, respectively. The thermal, and the operational and storage stabilities of immobilized enzyme were better than that of the free enzyme. Km and Vmax were calculated from Lineweaver-Burk plots for both enzymes. Km values were 9.1 mg mL(-1) for free enzyme, and 7.1 mg mL(-1) for immobilized enzyme. The Vmax of the immobilized enzyme was approximately 40% smaller than that of the free enzyme. The hydrolysis ability of the free and immobilized enzyme were determined as 99.3% and 97.9%, respectively. Hydrolysis products of the a-amylase from P. griseofulvum were maltose, unidentified oligosaccharides, and glucose.     

Solid-state fermentation of carob pods for ethanol production

The production of ethanol from carob pods by Saccharomyces cerevisiae in solid-state fermentation was investigated. The maximal ethanol concentration (160±3 g/kg dry pods), ethanol productivity (6.7 ± 0.2 g/kg per hour), ethanol yield (40 ± 1.8%), biomass concentration (7.5 ± 0.4 x 10⁸ cells/g carob pulp) and fermentation efficiency (80 ± 2%) were obtained at an inoculum amount of 3%, a particle size of 0.5 mm, a moisture level of 70%, a pH of 4.5 and a temperature of 30°C. Under the same fermentation conditions both sterilized and non-sterilized carob pods pulp gave the same maximum ethanol concentration.     

Solid-state fermentation of grape pomace for ethanol production

Summary Grape pomace was used as a substrate for the production of ethanol under solid-state fermentation conditions. The yield of ethanol amounted to greater than 80% of the theoretical, based on the fermentable sugar consumed.     

Solid-state fermentation for xylanase production by Thermoascus aurantiacus using response surface methodology

We investigated xylanase production by Thermoascus aurantiacus using semisolid fermentation. Multivariant statistical approaches were employed to evaluate the effects of several variables (initial moisture in the medium, cultivation time, inoculum level, and bagasse mass) on xylanase production. The initial moisture content and bagasse mass were the most important factors affecting xylanase activity. The xylanase activity produced by the fungus under the optimized conditions (81% moisture content and 17 g bagasse) was found to be 2700 U per gram of initial dry matter, whereas its value predicted by a polynomial model was 2400 U per gram of initial dry matter. Received: 4 December 1998 / Received revision: 15 March 1999 / Accepted: 16 May 1999     

Detection and quantification of patulin and griseofulvin by high pressure liquid chromatography in different strains of Penicillium griseofulvum Dierckx

Patulin and griseofulvin production by twelve strains ofPenicillium griseofulvum Dierckx, eleven of which were isolated from pistachio (Pistacia vera) nuts and the other was supplied by the Spanish Collection of Type Culture, was investigated. Six strains of the eleven isolated had ability to produce patulin and griseofulvin in Yes medium. All the strains studied had no ability to produce patulin in Wickerham medium. Griseofulvin production was significant in both media but higher in Wickerham. These metabolites were separated and determined in the chloroform extracts of cultures by high performance liquid chromatography with ultraviolet detection. The best conditions were: acetonitrile — water (45∶55) as mobile phase, a flow rate of 2.0 mL/min and a μ Bondapack C₁₈ column.     

戴尔根霉发酵麸皮酶解液制备富马酸的研究

拟通过根霉菌发酵小麦麸皮纤维质实现其高效生物转化制备富马酸的目标。在单因素试验研究基础上,对发酵工艺进行响应曲面法优化,并开展代谢机理初步探索。通过单因素试验确定了酵母浸粉、硫酸镁及硫酸锰质量浓度为主要影响因素,响应曲面研究结果显示:当发酵水解液总糖浓度80.0g/L、硫酸铵2.00g/L、酵母浸粉0.29g/L、硫酸镁0.26g/L、硫酸锰0.07g/L、硫酸亚铁0.05g/L时,富马酸产量最高,其值为27.423g/L。对戴尔根霉Rhizopus delemar CICC41341的木糖代谢途径的初步分析结果表明木酮糖激酶为该菌株木糖代谢的关键限速酶。论文研究结果可为纤维质糖液工业发酵制备平台有机酸提供一定支持。     

Effect of the incubation conditions on the production of patulin by Penicillium griseofulvum isolated from wheat

A total of 290 Candida isolates from patients were investigated for in vitro proteinase production. Overall, sixty percent of these strains were found to be proteinase producers. Of the C. albicans strains, 81.4% of the significant isolates in contrast to 19.7% of nonsignificant isolates were proteinase producers, the difference being statistically significant (P<0.001). Amongst the different Candida species, the proteinase production was found not only in Candida albicans, but also in C. tropicalis, C. parapsilosis and C. glabrata. Thus this in vitro method of demonstration of proteinase may be a good adjunct to smear and culture examination in identifying pathogenic Candida species from anatomical sites where they can also be present as commensals.     

Packing density and thermal conductivity determintion for rice bran solid-state fermentation

The fermentation of rice bran by Aspergillus niger to produce glucoamylase was carried out in a packed-bed bioreactor. The optimum packing density of medium was between 586 and 858 g/l. Also, thermal conductivity (K) was determined and an experimental correlation with packing density (PD) and moisture (M) was obtained as K = 47.5080 0.0115PD 0.1295M – 6.0737ln(PD) – 5.5555ln(M). © Rapid Science Ltd. 1998     

里氏木霉306产t-PA固态发酵条件的研究

对基因工程菌株里氏木霉(Trichodermareesei)306生物合成组织型纤溶酶原激活剂(t-PA)的固态发酵培养基成分和发酵条件进行了研究;分析了发酵过程中t-PA的生成、总糖的消耗和菌体生长的规律。在优化的固体发酵条件下,t-PA的最大酶活是924.63IU/g干重培养基,较初始条件下提高了5倍。通过浅盘进行了放大实验,最大酶活为983.64IU/g干重培养基,t-PA合成速率为:13.66IU/g干重培养基.h,较三角瓶固态发酵最高产酶提高了6.38%,产酶速率提高了24.07%。     

Solid-state fermentation: a continuous process for fungal tannase production

Truly continuous solid-state fermentations with operating times of 2-3 weeks were conducted in a prototype bioreactor for the production of fungal (Penicillium glabrum) tannase from a tannin-containing model substrate. Substantial quantities of the enzyme were synthesized throughout the operating periods and (imperfect) steady-state conditions seemed to be achieved soon after start-up of the fermentations. This demonstrated for the first time the possibility of conducting solid-state fermentations in the continuous mode and with a constant noninoculated feed. The operating variables and fermentation conditions in the bioreactor were sufficiently well predicted for the basic reinoculation concept to succeed. However, an incomplete understanding of the microbial mechanisms, the experimental system, and their interaction indicated the need for more research in this novel area of solid-state fermentation.     

Solid-state fermentation for the production of Monascus pigments from jackfruit seed

The aim of the present work was to investigate the feasibility of jackfruit seed powder as a substrate for the production of pigments by Monascus purpureus in solid-state fermentation (SSF). A pigment yield of 25ODUnits/g dry fermented substrate was achieved by employing jackfruit seed powder with optimized process parameters such as 50% initial moisture content, incubation temperature 30 degrees C, 9x10(4)spores/g dry substrate inoculum and an incubation period of seven days. The color of the pigments was stable over a wide range of pH, apparently due to the buffering nature of the substrate, which could be a significant point for its scope in food applications. To the best of our knowledge this is the first report on pigment production using jackfruit seed powder in solid-state fermentation (SSF).     

Solid-state fermentation: a promising microbial technology for secondary metabolite production

Solid state (substrate) fermentation (SSF) has been used successfully for the production of enzymes and secondary metabolites. These products are associated with the stationary phase of microbial growth and are produced on an industrial scale for use in agriculture and the treatment of disease. Many of these secondary metabolites are still produced by submerged liquid fermentations (SmF) even though production by this method has been shown to be less efficient than SSF. As large-scale production increases further, so do the costs and energy demands. SSF has been shown to produce a more stable product, requiring less energy, in smaller fermenters, with easier downstream processing measures. In this article we review an important area of biotechnology, since the recent evidence indicates that bacteria and fungi, growing under SSF conditions, are more than capable of supplying the growing global demand for secondary metabolites.     

The isoepoxydon dehydrogenase gene of the patulin metabolic pathway differs for Penicillium griseofulvum and Penicillium expansum

Purified DNA from isolates of Penicillium griseofulvum and P. expansum was used as a template to amplify a 600-bp fragment of the isoepoxydon dehydrogenase (idh) gene of the patulin biosynthetic pathway. Primer pairs designed from the P. griseofulvum gene (GenBank accession AF006680) to amplify specific regions of the idh gene yielded similar-sized bands for all strains. Asymmetrical amplification produced DNA products for sequencing and DNA sequences were translated to produce the corresponding amino acid sequences. After removal of two introns present in the region sequenced, amino acid sequences were compared. There were 12 amino acid differences between P. expansum and P. griseofulvum in the coding region. The differences correlated with the amount of patulin previously produced in culture, with strains of P. griseofulvum producing the greatest amounts of patulin.