化学诱变结合结构类似物法选育高苯丙氨酸解氨酶菌种

ＥＭＳ诱变结合结构类似物法提高含ＰＡＬ出发菌株红酵母Ｒｈｏｄｏｔｏｒｕｌａ ｓｐ．ＣＩＢＡＳＡ１４０１１００ 生物转化能力阳性率为３５．５ ％ ,部分突变株ＰＡＬ转化能力提高１ 倍以上,其中Ｅ１０５,Ｅ２４０ 具有快速转化能力,反应３ ｈＬＰｈｅ累积浓度达到１ ｇＬ左右．φ１０％ 甘油和３０ ｇＬＧｌｕ 对ＰＡＬ转化具有明显的稳定作用．用含φ１０％ 甘油和３０ ｇＬＧｌｕ 的反应液进行生物转化制备,Ｅ１０５ 和Ｅ２４０ 在２４ ｈ 期间ＬＰｈｅ 质量浓度大于２０ ｇＬ,转化率达８０ ％ ．     

产富马酸酶菌种筛选及固定化细胞生产L-苹果酸转化条件研究

从土样中筛选得到２０支可将富马酸转化为Ｌ－苹果酸垢细菌菌株。经摇瓶复筛,得到一株富马酸酶活力较高的ＺＧ－４菌株。以改性ＰＶＡ为载体,制备得到固定化细胞。其较佳转化条件为：１经ｍｏｌ／Ｌ Ｎａ２Ｆｕ为底物,ｐＨ７．０,４０转化。固定化细胞经胆酸ρ＝４ｇ／Ｌ或ＴＰＣρ＝０．６ｇ／Ｌ预处理后,可有效抑制琥铂酸副产物的生成。添加没食子单宁ρ＝１ｇＬ,可使富马酸酶比活力达１．９５ｍｍｏｌ ｇ＾－ｈ＾－。固定     

Use of fungi for the bioconversion of rice straw into cellulase enzyme

Cellulase production was carried out by solid state bioconversion (SSB) method using rice straw, a lignocellulosic material and agricultural waste, as the substrate of three Trichoderma spp. and Phanerochaete chrysosporium in lab-scale experiments. The results were compared to select the best fungi among them for the production of cellulase. Phanerochaete chrysosporium was found to be the best among these species of fungi, which produced the highest cellulase enzyme of 1.43 IU/mL of filter paper activity (FPase) and 2.40 IU/mL of carboxymethylcellulose activity (CMCase). The “glucosamine” and “reducing sugar” parameters were observed to evaluate the growth and substrate utilization in the experiments. In the case of Phanerochaete Chrysosporium, the highest glucosamine concentration was 1.60 g/L and a high concentration of the release of reducing sugar was measured as 2.58 g/L obtained on the 4th day of fermentation. The pH values were also recorded. The range of the pH was about 5.15 to 5.56 in the case of Phanerochaete Chrysosporium.     

蚯蚓堆肥及蝇蛆生物转化技术在有机废弃物处理应用中的研究进展

有机废弃物处置不当引起的环境污染与潜在资源浪费已引起广泛关注,生物堆肥处理是解决有机废弃物污染与再利用的主要技术手段之一.蚯蚓堆肥和蝇蛆生物转化是废弃物生物处理与利用的两项代表性技术,不仅可将废弃物基质转化为均匀且稳定的类腐殖质化合物,同时收获丰富的虫体蛋白.本文在介绍蚯蚓堆肥和蝇蛆生物转化基本定义与原理的基础上,重点综述了两种技术的工艺过程与机制、影响因素与控制、以及废弃物生物质特性演变规律等;进而阐述了虫体生物量转化、肠道消化分解、生物酶降解、以及微生物区系等多重物理及生化机制共同实现有机废弃物减量化-增值化-稳定化处理的共性与差异,以及工程应用潜力与发展前景.     

辣根过氧化物酶在体外条件下对青蒿素生物合成的影响

通过细胞提取液，在体外条件下研究了辣根过氧化物酶对青蒿素生物合成的影响．细胞提取液以磷酸与Tris两种缓冲液制备．结果表明，辣根过氧化物酶在以磷酸缓冲液制备的细胞提取液中，很大地促进了青蒿素的生物合成，青蒿素的含量提高约1倍左右，而外加青蒿酸对青蒿素的生物合成并无显著的影响．以Tris缓冲液制备细胞提取液，外加过氧化物酶并不能促进青蒿素的生物合成．图4参12     

Sequential bioconversion of used paper to sugars by cellulases from Trichoderma reesei and Penicillium funiculosum

Used paper, a potential resource of alternative energy, can be recycled but mostly it forms a significant component of solid waste. Used office paper, foolscap paper, filter paper and newspaper have been treated with cellulase from Trichoderma reesei and Penicillium funiculosum to bioconvert their cellulose component into sugars. Both non-pretreated and pretreated paper was incubated successively with the two cellulases during four consecutive incubation periods of 1 h each. The amount of sugars released during this sequential treatment was compared with the total sugar produced during a 4 h period of continuous incubation with each enzyme system independently. Pre-treatment milling of paper proved to effectively increase the sugar formation under all incubation conditions. Successive incubation with the two enzyme systems of both non-pretreated and pretreated paper materials was more efficient than the corresponding continuous bioconversion. The highest relative sugar yield was experienced during successive treatment of pretreated materials when T. reesei cellulase initiated the degradation. However, maximum bioconversion of pretreated newspaper was obtained when P. funiculosum initiated degradation. Pretreated foolscap paper was the most susceptible substrate with maximum bioconversion when exposed to both forms of successive cellulase treatment.     

Removal of Diazo dye from aqueous phase by algae Spirogyra species

This communication presents a preliminary study conducted to investigate dye (Direct Brown 2‐Diazo) colour removal using viable algae Spirogyra species. The results indicate the ability of algae Spirogyra species to remove dye colour and found to be dependent on the contact time and biomass. Colour removal mechanism by algae Spirogyra species may be attributed to biosorption and/or bioconversion and/or biocoagulation.     

Evaluation of fungal potentiality for bioconversion of domestic wastewater sludge

This study was undertaken to screen the filamentous fungi isolated from its relevant habitats (wastewater, sewage sludge and sludge cake) for the bioconversion of domestic wastewater sludge. A total of 35 fungal strains were tested against wastewater sludge (total suspended solids, TSS 1%-5% w/w) to evaluate its potentiality for enhancing the biodegradability and dewaterability using liquid state bioconversion(LSB) process. The strains were divided into five groups i. e. Penicillium, Aspergillus, Trichoderma, Basidiomycete and Miscellaneous, respectively. The strains WWZP1003, SCahmA103, SCahmT105 and PC-9 among their respective groups of Penicillium,Aspergillus, Trichoderma and Basidiomycete played potential roles in terms of separation (formation of pellets/flocs/filaments),biodegradation(removal of COD) and filtration(filterability) of treated domestic wastewater sludge. The Miscellaneous group was not considered due to its unsatisfactory results as compared to the other groups. The pH value was also influenced by the microbial treatment during fermentation process. The filterability of treated sludge was improved by fungal treatment, and lowest filtration time was recorded for the strain WWZP1003 and SCahmA103 of Penicillium and Aspergillus groups respectively compared with other strains.