赭曲霉43的甾醇成分研究

从赭曲霉43的菌丝体甲醇提取物中分离得到3个甾醇和1个腺苷，根据波谱数据，将它们鉴定为：5α，8α-表二氧-(20S，22E，24R)-麦角甾-6，22-二烯-3β-醇(1)、(20S，22E，24R)-麦角甾-7，22-二烯-3β，5α，6β-三醇(2)、(20S，22E，24R)-麦角甾-7，22-二烯-3β，5α，6β，9α-四醇(3)以及尿苷(4)，其中化合物3首次从曲霉属中分离得到．图2表1参16。     

Screening of flocculant-producing strains by NTG mutagenesis

Screening of new microorganism being able to produce efficiently flocculants was carried out. A new model for screening efficient flocculant-producing strains was designed and tested. The results showed that this model for screening efficient flocculant-producing strains is very reliable and can greatly shorten the screening period. 13 flocculant-producing strains were isolated from activated sludge by conventional method. A strain, designated as HHE6, produced the bioflocculant with the turbidity removal 98% for kaolin suspension. Six of 13 strains selected as the original strains were treated with NTG as mutagen, and five mutant strains(HHE-P7, HHE-A8, HHE-P21,HHE-P24, HHE-A26) with high flocculation efficiency was obtained by selection, which exhibited the flocculation rate for kaolin suspension above 90%. Strains HHE6, HHE-P7, and HHE-P24 were classified as Penicillium purpurogenum, HHE-P21 as Penicillium cyclopium,HHE-A26 as Aspergillus versicolor and HHE-A8 as Aspergillus fumigatus, and it is hitherto unreported for biofloccutant-producing strains of Penicillium. The growth of the six strains(HHE6, HHE-P7, HHE-A8, HHE-P21, HHE-P24, HHE-A26) had similar curves, i.e. firstly increasing rapidly, keeping relatively constant then and finally decreasing gradually with cultivation time. The production of bioflocculants by strains showed the similar pattern to strain growth.     

一株产微生物絮凝剂菌株的筛选及特性

从活性污泥及土壤中筛选出一株产絮凝剂的霉菌－黑曲霉，该菌所产絮凝剂对高岭土的絮凝活性可达90％以上，黑曲霉的培养实验表明，其适宜生长的碳源为葡萄糖或蔗糖，氮源为豆芽汁或马铃薯汁；适宜的初始pH值为6.0；生长与分泌絮凝剂的合适温度范围为30－34℃；受培养温度的影响，絮凝效果最好的时间在50－60h。絮凝实验表明，用培养液处理高岭土悬浊液时有明显的絮凝效果，当废水pH左右时，絮凝效果最好。     

连续培养酱油曲霉（Aspergillussojae）产微生物絮凝剂的研究

为了利用廉价材料规模化生产微生物絮凝剂,以味精废水作为廉价培养基质,对酱油曲霉的摇瓶连续培养和发酵罐连续培养进行了研究。摇瓶中以5％的接种量进行连续培养,最适温度在30～33℃之间,每6h替换一次新鲜废水培养基,5次替换新鲜废水培养基后最大絮凝率仍达到97．8％。在发酵罐扩大连续培养中以5％的接种量接种后经过9h预培养达到稳定生产絮凝剂后,以4mL／min的补料流量进行连续培养,生产的絮凝剂产量达到2．392g／L,且最大絮凝率为98．1％。生产36h后对发酵系统中菌体进行稀释,使菌体量保持在50—200g／L之间可持续进行生产。     

降解毒死蜱曲霉Y的分离和降解效能测定

毒死蜱在灭菌土壤、施用过和未施用过毒死蜱的土壤中的降解速率测定表明：土壤中的微生物在毒死蜱的降解中起着重要的作用。同时，毒死蜱在连续使用后，降解速度大大加快，说明毒死蜱可诱发降解菌的产生，从连续使用毒死蜱的土壤中分离了1株可降解毒死蝗的真菌曲霉Y。测定了曲霉Y在不同接菌量、不同温度、不同毒死蜱浓度及不同碳源浓度下对毒死蜱的降解能力，同时，还测定了曲霉Y其他杀虫剂的降解能力。图6参13。     

高效苯降解菌的筛选鉴定及其在生物过滤塔处理苯的填料选择

从污水处理厂曝气池的活性污泥筛选出1株苯的高效降解真菌HD-3,经形态特征、ITS基因序列系统学分析,确定HD-3为杂色曲霉Aspergillus versicolor,该菌株8 d内对初始浓度439.3 mg/L和4 393 mg/L的苯的降解率分别为78.56%和33.96%。当苯的初始浓度为439.3 mg/L,HD-3降解苯的最适温度为30℃,最适pH为4.5。在此基础上,提出了采用不同填料生物过滤塔处理苯废气的工艺,并进行了实验研究,实验结果表明:(1)随着苯的浓度提高,苯的降解率逐渐降低。当苯的浓度为200 mg/m3时,煤质柱状活性炭生物过滤塔、生物陶粒生物过滤塔、竹材生物过滤塔的苯平均去除率(REave)分别为93.63%、93.16%和82.38%;当苯的进口浓度增加到3 000 mg/m3时,3种生物过滤塔的苯平均去除率(REave)分别为78.89%、68.43%和51.87%。(2)不同填料对苯的去除能力不同,煤质柱状活性炭>生物陶粒>竹材。     

Decolourization of reactive brilliant blue KN-R by immobilized cells of Aspergillus ficuum

Aspergillus ficuum was immobilized with sodium alginate,and decolourization of Brilliant Blue NK-R was studied on immobilized and free Aspergillus ficuum.The optimal preparation condition of the strain immobilization was obtained by the orthogonal test,it is sodium alginate 3%,CaCl2 5%,wet mycelia 30g/L,calcific time 8h.It was found that the immobilized cells could effectively decolourize Reactive Brilliant Blue KN-R,the optimum temperature and pH were 33℃ and 5.0,respectively.The kinetics study of decolourization of immobilized eclls showed that the decolourization of Aspergillus ficuum immobilized conformed to zero-order reaction model.The decolourization efficiency of immobilized cell compared with that of free cell in different physical conditions.Results showed that the decolourization of immobilized cells with mycelia had the best efficiency.The immobilized cells could be reused after the first decolourization.     

一株黑曲霉(Aspergillus niger)对孟加拉红和水溶性色浆的脱色特性研究

以从土壤中分离得到的黑曲霉(Aspergillus niger)菌株为研究对象,采用液体培养的方法,研究其在不同碳源、氮源、起始pH值、金属离子种类及浓度条件下对孟加拉红和水溶性色浆的脱色效果.结果表明,在以豆芽汁培养基为基本培养基、甘油为碳源、(NH4)2SO4为氮源、初始pH值为6.0～8.0条件下的脱色效果最佳,...     

Na-CMC固定化烟曲霉对活性艳蓝KN-R的吸附脱色研究

采用羧甲基纤维素钠(Na-CMC)固定化烟曲霉对活性蒽醌染料活性艳蓝KN-R吸附脱色.通过批式吸附实验探讨了吸附体系的pH值、温度、供氧条件、盐度,固定化小球的粒径、接种量等对吸附脱色效率的影响.结果表明,适合于固定化小球吸附脱色的吸附体系的pH值在弱酸或碱性(4.3～9.0)范围内,不调pH值时(pH=4.3),48h的吸附率为94.5%,pH值为6～9时,48 h的吸附率在98%以上;固定化小球的最佳脱色温度为40℃,该温度下24h的吸附率达94.4%;氧充足情况下(摇床转速调节为50r·min-1)的吸附体系较静止状态能显著提高吸附脱色率;固定化小球脱色过程中能承受一定的盐度,NaCl浓度为0.1%时,吸附脱色效果最好;盐度为2.5%时,48h的吸附率降低至68.4%;粒径为2.0～3.85mm的固定化小球对活性艳蓝KN-R的吸附率相差不大;接种量为3.0%时的吸附脱色效果最好,24h对活性艳蓝KN-R的吸附率达91.0%.在烟曲霉生长期内,固定化小球吸附脱色动力学符合一级动力学方程.     

黑曲霉固态发酵三七渣产淀粉酶的研究

以三七渣为基质,采用黑曲霉固态发酵产淀粉酶,考察了硫酸铵(氮源)添加量、三七渣粒径、固体培养基含水率、发酵温度、发酵时间、菌悬液接种量等因素对产淀粉酶效果的影响,并采用正交实验对发酵条件进行了优化。单因子实验结果表明,黑曲霉固态发酵三七渣产淀粉酶适宜的硫酸铵添加量为40～60mg/g(以干药渣计),最佳三七渣粒径为100目,最适固体培养基含水率为55%,最佳发酵温度为34℃,最适发酵时间为7d,最佳菌悬液接种量为10%(质量分数)。正交实验多重比较的结果表明,优化的发酵条件为:硫酸铵添加量50mg/g,发酵温度34℃,发酵时间5d,在此发酵条件下,黑曲霉固态发酵三七渣产生的淀粉酶的酶活可达84.15U/g(以湿物料计)。