利用泰乐菌素菌渣生产复合酶制剂及效果研究

发酵法生产抗生素过程中会产生大量废弃菌渣,这些菌渣因有机质含量高,堆放极易发生霉变,给当地环境造成危害.文章采用固体发酵法,以微生物降解处理后的泰乐菌素菌渣为主要原料,生产复合酶制剂,并对其在肉鸡上的使用效果进行研究.结果表明:在水含量50％～60％、干物质中麸皮含量不低于40％的泰乐菌素菌渣培养基中,接入5％～10％...     

中亚热带马尾松林凋落物分解过程中的微生物与酶活性动态

采用凋落物原位分解法,研究了中亚热带马尾松林中马尾松、槲栎凋落叶单独及混合(自然质量比8∶2)分解过程中的微生物数量与酶活性动态.结果表明:①3类凋落物的年分解常数K的大小为:混合凋落物(0.94)>槲栎凋落物(0.86)>马尾松凋落物(0.67);②3类凋落物真菌数量和微生物数量均在夏季(135 d时)达到最大值,而此时细菌和放线菌数量最低;③3类凋落物纤维素酶活性、酸性磷酸酶活性均与凋落物干重剩余率呈显著正相关(P<0.05),而马尾松与混合型凋落物中的多酚氧化酶活性同凋落物干重剩余率呈极显著负相关(P<0.01);④微生物数量和多酚氧化酶活性均总体表现为槲栎凋落物>混合凋落物>马尾松凋落物,酸性磷酸酶活性多表现为槲栎凋落物最低,与分解常数K排列有一定的差异,说明凋落物分解是微生物和多种酶共同作用的结果.整体研究表明,凋落物质量和季节气候的差异显著影响微生物群落及其调控的生态过程,与纯马尾松凋落叶相比,针阔混合使微生物数量和多酚氧化酶活性显著提高,这可能是导致分解加快的重要原因.     

纳米银与石墨烯对土壤微生物及土壤酶的影响

采用室内暗培养试验分别探究了纳米银与石墨烯对土壤微生物及土壤酶的不同影响.将不同剂量的纳米银(0、10、100、150 mg·kg~(-1))与高纯石墨烯(0、10、100、1000 mg·kg~(-1))分别与等量棕壤充分混匀,然后进行暗培养.在第3、7、15、30和60 d时取样,测定土壤脲酶、土壤碱性磷酸酶、土壤脱氢酶和土壤过氧化氢酶的活性及土壤细菌、真菌和放线菌的数量,并在培养期间测定土壤呼吸速率及CO2累积量.结果表明,所有纳米银处理均抑制土壤的呼吸作用,并且剂量越高,抑制作用越明显;而石墨烯处理未对土壤呼吸产生显著影响.10 mg·kg~(-1)纳米银处理下,土壤真菌数量在整个培养期内均显著低于对照,土壤细菌在第60 d时也被显著抑制,但土壤放线菌数量无变化;与对照相比,100和150 mg·kg~(-1)的纳米银处理显著降低了土壤细菌、真菌、放线菌的数量.10和100 mg·kg~(-1)的石墨烯处理下,土壤细菌、真菌、放线菌数量则均无显著变化.1000 mg·kg~(-1)的石墨烯显著增加了土壤中细菌与真菌的数量,却对土壤放线菌数量无影响.纳米银处理显著抑制土壤脲酶、脱氢酶活性,却对土壤过氧化氢酶与磷酸酶活性基本无影响.10和100 mg·kg~(-1)石墨烯处理对土壤脲酶有一定的促进作用,1000 mg·kg~(-1)石墨烯处理对土壤过氧化氢酶和脱氢酶有一定的促进作用,而不同剂量的石墨烯在培养后期均对碱性磷酸酶产生抑制作用.总体来说,纳米银在一定程度上对土壤酶及土壤微生物结构产生了负面影响,而石墨烯对土壤酶及土壤微生物结构的影响不明显.     

Field released transgenic papaya effect on soil microbial communities and enzyme activities

Soil properties, microbial communities and enzyme activities were studied in soil amended with replicase （RP）-transgenic or non-transgenic papaya under field conditions. Compared with non-transgenic papaya, significant differences （P〈0.05） were observed in total nitrogen in soils grown with transgenic papaya. There were also significant differences （P〈0.05） in the total number of colony forming units （CFUs） of bacteria, actinomycetes and fungi between soils amended with RP-transgenic plants and non-transgenic plants. Compared with non-transgenic papaya, the total CFUs of bacteria, actinomycetes and fungi in soil with transgenic papaya increased by 0.43-1.1, 0.21-0.80 and 0.46-0.73 times respectively. Significantly higher （P〈0.05） CFUs of bacteria, actinomycetes and fungi resistant to kanamycin （Km） were obtained in soils with RP-transgenic papaya than those with non-transgenic papaya in all concentrations of Km. Higher resistance quotients for Km＇ （kanamycin resistant） bacteria, actinomycetes and fungi were found in soil planted with RP-transgenic papaya, and the resistance quotients for Km＇ bacteria, actinomycetes and fungi in soils with transgenic papaya increased 1.6-4.46, 0.63-2.5 and 0.75-2.30 times. RP-transgenic papaya and non-transgenic papaya produced significantly different enzyme activities in arylsulfatase （5.4-5.9x）, polyphenol oxidase （0.7-1.4x）, invertase （0.5-0.79x）, cellulase （0.23-0.35x） and phosphodiesterase （0.16-0.2x）. The former three soil enzymes appeared to be more sensitive to the transgenic papaya than the others, and could be useful parameters in assessing the effects of transgenic papaya. Transgenic papaya could alter soil chemical properties, enzyme activities and microbial communities.     

Effects of cerium on growth and physiological mechanism in plants under enhanced ultraviolet-B radiation

Effect of cerium （Ce^3＋） on the growth, photosynthesis and antioxidant enzyme system in rape seedlings （Brassica juncea L.） exposed to two levels of UV-B radiation （T1： 0.15 W/m^2 and T2：0.35 W/m^2） was studied by hydroponics under laboratory conditions. After 5 d of UV-B treatment, the aboveground growth indices were obviously decreased by 13.2%-44. 1%（T1） and 21.4%-49.3% （T2）, compared to CK, and except active absorption area of roots, the belowground indices by 14.1%-35.6%（T1） and 20.3%-42.6% （T2）. For Ce＋UV-B treatments, the aboveground and belowground growth indices were decreased respectively by 4.1%-23.6%, 5.2% -23.3%（Ce＋T1） and 10.8%-28.4%, 7.0%-27.8%（Ce＋T2）, lower than those of UV-B treatments. The decrease of growth indices appeared to be the result of changes of physiological processes. Two levels of UV-B radiation induced the decrease in chlorophyll content, net photosynthesis rate, transpiration rate, stomatal conductance and water use efficiency by 11.2%-25.9%（T1） and 20.9%- 56.9%（T2）, whereas increase in membrane permeability and activities of antioxidant enzymes including superoxide dismutase（SOD）, catalase （CAT） and peroxidase （POD） by 6.9%, 22.8%, 21.5%, 9.5%（T1） and 36.6%, 122.3%, 103.5%, 208.9%（T2）, respectively. The reduction of the photosynthetic parameters in Ce＋UV-B treatments was lessened to 3.2%-13.8%（Ce＋T1） and 4.9%-27.6%（Ce＋T2）, and the increase of membrane permeability and activities of antioxidant enzymes except POD in the same treatments were lessened to 2.4%, 8.4%, 6.6%（Ce＋T1） and 30.1%, 116.7%, 75.4%（Ce＋T2）. These results indicate that the regulative effect of Ce on photosynthesis and antioxidant enzymatic function is the ecophysiological basis of alleviating the suppression of UV-B radiation on growth of seedlings. Furthermore, the protective effect of Ce on seedlings exposed to TI level of UV-B radiation is superior to T2 level.     

检测水中有机磷农药的酶传感器

采用丝网印刷技术制作厚膜型电极,通过交联法将乙酰胆碱酯酶固定在电极上,开发快速检测水中有机磷农药的酶传感器.采用循环伏安法对电极所做的检测结果表明电极彼此间的差异在10%以内,具有较好的一致性.通过在交联剂、酶和底物等方面优化传感器的工作参数,确定了戊二醛、酶和底物的浓度分别为0.2%、0.5 mg/mL和10 mmol/L时,传感器响应最好.在交联固定酶的情况下,根据酶活受到有机磷抑制的原理,采用时间-电流法对特丁硫磷和对硫磷进行了检测.结果表明:这2种有机磷的检测限都可以达到1 ng/mL,线性区间1～10 000ng/mL.在物理吸附固定酶的情况下,采用循环伏安法对特丁硫磷进行了检测.结果表明:采用循环伏安法检测的灵敏度比采用时间-电流法的灵敏度要高.     

皂素清洁生产工艺的研究(Ⅰ)

黄姜淀粉经过!-淀粉酶液化,加糖化酶和酵母进行边糖化边发酵生产酒精。发酵后黄姜渣用酸水解法提取薯蓣皂素。黄姜淀粉利用率为86.30%,耗酸量为传统工艺的55%,废水的总COD比传统工艺减少了60.25%,皂素收率比传统工艺提高20.37%。     

城市污水生物处理系统中微生物酶的活性及其分布

通过水解模式底物进行分光光度测定的方法,研究了城市污水生物处理系统中微生物酶的活性.选取亮氨酸氨基肽酶、β-葡萄糖苷酶、碱性磷酸酶和脂酶等胞外酶进行分析,结果发现4种胞外酶的平均活性在31.O～88.5 μmol/(L·h),其中76.9%～94.8%的酶活性分布在活性污泥中,说明绝大部分胞外酶是与细胞相连或固定在细胞外多聚絮体基质里.混合水样和出水水样中的DOC几乎相等,而各胞外酶与DOC不存在任何显著的相关关系.增加NO3-浓度可提高亮氨酸氨基肽酶和β-葡萄糖苷酶的活性,但对碱性磷酸酶和脂酶却有明显的抑制作用.     

生物质炭对Cd污染土壤团聚体酶活性的影响

为探究生物质炭对Cd污染土壤团聚体酶活性的影响,采用盆栽试验,向模拟Cd污染土壤中添加生物质炭并测定水稻根际土壤团聚体碳循环酶与氧化还原酶活性.结果表明:Cd污染土壤团聚体酶活性对添加量为2.5％的生物质炭响应明显,氧化还原酶活性指数值介于0.522～0.792之间.在2.5mg/kg的外源Cd条件下,2.5％的生物质...     

Aerobic degradation of methyl tert-butyl ether by a Proteobacteria strain in a closed culture system

The contamination of methyl ten-butyl ether （MTBE） in underground waters has become a widely concerned problem all over the world. In this study, a novel dosed culture system with oxygen supplied by H2O2 was introduced for MTBE aerobic biodegradation. After 7 d, almost all MTBE was degraded by a pure culture, a member of β-Proteobacteria named as PMI, in a closed system with oxygen supply, while only 40% MTBE was degraded in one without oxygen supply. Dissolved oxygen （DO） levels of the broth in closed systems respectively with and without H2O2 were about 5-6 and 4 mg/L. Higher DO may improve the activity of monooxygemase, which is the key enzyme of metabolic pathway from MTBE to tert-butyl alcohol and finally to CO2, and may result in the increase of the degrading activity of PM1 cell. The purge and trap GC-MS result of the broth in closed systems showed that tea-butyl alcohol, isopronol and acetone were the main intermediate products.