一株产木聚糖酶的黑曲霉固态发酵产酶性质的研究

目的：选育产木聚糖酶活力高的黑曲霉菌株,对其产酶条件进行优化,并研究其酶学性质。方法：通过木聚糖酶解木聚糖产生透明圈的方法,筛选产木聚糖酶菌株,测定固体发酵培养基中玉米芯与麸皮的比例、培养温度、培养时间、添加氮源对产酶的影响。进行了作用温度、pH值、金属离子对酶活力的影响试验,以及酶不同温度下的热稳定性的试验。结果：从自然界筛选得到一株产木聚糖酶的黑曲霉菌株,通过对固态发酵培养条件优化,最终产酶水平达到了5500u／g固体干曲。酶的最适作用温度是45℃、最适作用pH值4．8,是一种偏酸性酶。该酶在45℃以上的温度保存会使酶活力迅速丧失,Mg^2＋、Zn^2＋对该酶有激活作用,而Mn^2＋、Cu^2＋、Hg^2＋则完全抑制酶的活性。结论：选育的黑曲霉菌株产木聚糖酶活力较高,培养条件简单。     

黑曲霉产木聚糖酶固态发酵条件及部分酶学性质的研究

实验以棉粕和玉米秆为主要原料,采用单因素和正交实验方法对黑曲霉固态发酵产木聚糖酶的培养条件进行了优化,为了获得高酶活产品的发酵条件。结果表明,最适培养基组分为棉粕和玉米秆的比例为3∶2,固水比为1∶1.2,尿素的最适添加量为2%(以干重计),KH2PO4的最适添加量为0.2%。在此条件下,菌株产酶活性可达6 529U/g干曲。该酶的最适反应温度为55℃,最适pH为5.0,pH稳定范围较宽,在30℃、pH 3.5~6.0范围内处理100min,酶活保持在85%以上,但耐热性不是很理想,在60℃保温30min残余酶活只有17%。     

黑曲霉产纤维素酶的研究

从土壤中筛选获得一株产纤维素酶的优良菌株黑曲霉Asp．n－21,采用固体培养产生纤维素酶,产酶活力FPA137U／g干曲、GMCase320～388U／g干曲、β－葡萄糖苷酶84～149U／g干曲,对培养基成份进行优化,并分析其酶系组成,该菌所产酶可作为饲料用酶。     

黑曲霉FS25产β—葡萄糖酶发酵特性的研究

黑曲霉(Aspergillusniger)FS25产β-葡聚糖酶最适碳源为大麦粉,氮源为玉米浆;最佳摇瓶发酵配方为大麦粉6g,玉米浆2g,(NH4)2SO40.4g,FeSO4@7H2O0.01g,Na2HPO4@3H2O0.1g,CaCO30.5g,MgSO4@7H2O0.03g,麦麸0.8g,发酵初始pH为5.0,定容100mL.发酵温度为32℃,250mL三角瓶发酵液的装量为50mL,接种量为1.5mL孢子悬液(1.5×107个/mL);发酵周期为30h,酶活达到80.1u/mL,比初始的产酶水平提高了84.1%.     

黑曲霉固态发酵及酶解玉米皮

以玉米提取淀粉后的玉米皮渣为主要原料,采用黑曲霉固态发酵法产酶再酶解的二步法降解玉米皮中纤维素类物质。经Plackett-Burman法及响应面设计优化发酵条件得:温度30℃,接种量10%,初始水分体积分数60%,物料厚度2.47 cm,初始pH 5.79,发酵时间6 d;滤纸比酶活可达11.01 U/g,较原始酶活提高了40.61%;产酶结束后加入pH 4.8醋酸-醋酸钠缓冲液,置于50℃下酶解144 h,中性洗涤纤维与酸性洗涤纤维降解率分别为46.09%、48.82%,还原糖质量分数达到9.02%。     

黑曲霉GD-6纤维素酶液体发酵条件的研究

采用黑曲霉 (Aspergillusniger)GD 6液体发酵生产纤维素酶 ,研究了碳源、氮源、培养基起始 pH值、接种量、摇床转速、通气量对该菌株产纤维素酶活力的影响。结果表明 ,GD 6的最适发酵温度为 2 8～ 3 0℃ ,产酶pH为 5 .5～ 6.0 ,摇床最适转速为 1 5 0r/min ,最佳接种量为 1 0 %。在以 6.0 %稻草粉为碳源、1 %豆饼粉为氮源时产酶活力最高。在最适培养条件下 ,发酵周期为 1 2 0h,发酵液中CMC酶活为 1 88.6U/mL ,FP酶活为 2 7.0U/mL。     

黑曲霉发酵产橙皮苷酶的工艺优化

目的:对黑曲霉WP124发酵产橙皮苷酶的工艺条件进行优化,旨在为利用酶法改造橙皮苷打下基础.方法:采用摇瓶培养,对培养基的成分和培养条件进行了优化.结果:黑曲霉WP124发酵产橙皮苷酶的最佳培养基组成是:蔗糖30g/L,酵母膏20g/L,磷酸二氢钾3g/L,桔皮粉50g/L;最佳培养条件是:起始pH为5.5,培养温度为30℃,摇瓶转速是180r/min.在上述条件下,经过72h的培养,橙皮苷酶酶活达到1398U/mL.结论:该菌株发酵过程具有较好的工业化应用的前景.     

黑曲霉W25菌株纤维素酶合成调控问题初探

研究了各种氮、碳源对黑曲霉Ｗ２５菌株生长和产酶的影响,黑曲霉纤维素酶的形成同时受诱导和阻遏系统的调节,这是微生物细胞经济而有效地合成酶的一种调节方式。     

黑曲霉产木聚糖酶的分离纯化与鉴定研究

木聚糖酶的分离纯化是对其进行酶学研究和分子改良研究的基础。利用实验室选育的黑曲霉菌株Aspergillus niger SM24/a进行木聚糖酶发酵,粗酶液经过(NH_4)_2SO_4分级沉淀Bio-Gel P6除盐、UNO sphere Q阴离子交换和Enrich SEC70凝胶色谱层析四个步骤的分离纯化,成功获得了3种木聚糖酶蛋白定义为X-Ⅰ、X-Ⅱ和X-Ⅲ。随着纯化步骤的增加,各组分酶比活力得到显著提高,其数值分别为37.41、34.56和53.96 U/mg,纯化倍数分别为3.96、3.66和5.72。经质谱分析和蛋白氨基酸序列比对,初步认定X-Ⅰ属于糖基水解酶第十家族内切-β-1,4-木聚糖酶,X-Ⅱ和X-Ⅲ均属于糖基水解酶第十一家族木聚糖酶。     

黑曲霉菌渣综合利用研究进展

黑曲霉菌渣是黑曲霉经过工业发酵所需产物之后的副产物,资源储量丰富。目前利用黑曲霉生产的制剂种类繁多,对菌渣综合利用的报道却相对较少。已有的研究表明黑曲霉菌渣不仅可作为饲料添加剂、有机肥料或土壤改良剂得到直接应用,也可用于精制,作为食品、药品和化妆品等行业的主要原材料,实现高附加值转化应用。还可作为生物吸附剂用于去除水体中的污染物等。本文结合目前国内外对黑曲霉菌渣在各领域研究及利用现状,综述了黑曲霉菌渣高附加值转化与利用的研究进展,可以为工业发酵废渣资源化利用提供理论参考。     

过表达Na,K-ATPase基因增强了黑曲霉对硅灰石的风化能力

【目的】探究和证实黑曲霉钠钾ATP酶(NKA)在硅灰石风化过程中的作用。【方法】以野生型黑曲霉(WT)为原始菌株构建黑曲霉Na,K-ATPaseα1基因(NKAα1)高表达菌株oeNKA。通过测定不同时间点(0d、2d、4d、6d)oeNKA和WT生物量、培养液pH值和矿物风化释放的Ca~(2+)浓度,并用X-ray diffraction (XRD)对风化后的矿物残渣进行检测,比较oeNKA和WT菌株对硅灰石这种硅酸盐矿物的风化效果。【结果】oeNKA菌株的NKAα1基因相对表达量和酶活分别为WT菌株的103倍和1.76倍。在持续6d的培养过程中,oeNKA与WT的菌丝体生物量变化趋势相同,在培养第2天时WT显著高于oeNKA,随时间差异逐渐缩小并在第6天达到最低;培养液pH值变化趋势相同,分别下降至3.64和3.87;oeNKA风化硅灰石时所释放Ca~(2+)浓度(1011.36±47.78μg/g)约为WT (248.30±25.21μg/g)的4倍;XRD检测图谱显示菌株oeNKA对硅灰石风化作用更明显。【结论】NKAα1过表达菌株oeNKA对硅灰石的风化能力显著高于WT菌株,且黑曲霉的NKA与硅灰石的风化有密切关联。     

Biodegradation of organochlorine pesticide, endosulfan, by a fungal soil isolate, Aspergillus niger

Endosulfan is a chlorinated pesticide widely used in India for the protection of cotton, tea, sugarcane and vegetables. The persistence of endosulfan in environment and toxic effects on biota necessitate its removal. The role of soil fungi in recycling organic matter prompted us to attempt biodegradation of endosulfan using fungi. This study aims at enrichment, isolation and screening of fungi capable of metabolizing endosulfan. In all, 16 fungal isolates were obtained by enrichment of soil samples that had seems exposed to endosulfan before. Isolates were screened by a gradient plate assay, and results were confirmed by broth assay. On the basis of tolerance to endosulfan, an isolate, identified as Aspergillus niger was selected for further studies. The culture could tolerate 400 mg ml⁻¹ of technical grade endosulfan. Complete disappearance of endosulfan was seen on 12 days of incubation. Evolution of carbon dioxide during endosulfan metabolism has indicated the complete mineralization of endosulfan. Change in pH of culture broth to acidic range supported the biological transformation. Thin layer chromography (TLC) analyses revealed the formation of various intermediates of endosulfan metabolism including endosulfan diol, endosulfan sulfate, and an unidentified metabolite. The toxic intermediate, endosulfan sulfate, was also metabolized, further resulting in complete mineralization of endosulfan. Direct desulfurization of endosulfan sulfate or a novel pathway could be the mechanism of endosulfan and endosulfan sulfate degradation in Aspergillus niger. The fungal strain isolated by us could prove valuable for bioremediation of endosulfan contaminated soils and waters.     

Some factors affecting production of pectic enzymes by Aspergillus niger

The effects of varying cultural conditions were assessed for the production of pectic enzymes in a strain of Aspergillus niger, isolated from decaying orange fruit. Polygalacturonase and pectinmethylesterase were found to be inducible by polygalacturonic acid and pectin in the medium, respectively. Ammonium sulphate was the best nitrogen source for the production of both enzymes. There were variations in enzyme levels produced in culture filtrates with age of the culture, the highest levels being in 4-day-old cultures. The temperature and pH also had marked effects on the production of pectic enzymes with the best conditions being 40°C and pH 5, respectively. Surface culture technique gave appreciable enzyme yield, while agitation had an inhibitory effect on enzyme production.     

黑曲霉RAF106菌丝球形成的影响因素及对结晶紫的吸附作用

【背景】黑曲霉（Aspergillus niger）作为一种代表性丝状真菌已被广泛用于酶制剂、有机酸、抗生素等高价值代谢产物的工业生产、食品发酵、环境治理等行业,其代谢能力、发酵性能等与菌体形态密切相关。然而,黑曲霉对染料、重金属等的吸附能力与菌体形态的关系鲜有报道。【目的】探究黑曲霉菌丝球形成的影响因素及其对结晶紫的吸附作用。【方法】以从普洱茶分离的黑曲霉RAF106为研究对象,实时监测马铃薯葡萄糖培养液中黑曲霉菌丝球的形成过程;探究培养液的初始pH （4.0-10.0）、培养温度（25-45°C）、孢子接种量（5×10⁴-5×10⁶个/m L）、摇床转速（140-220 r/min）、碳源（葡萄糖、蔗糖、果糖、乳糖、醋酸钠）和氮源（硝酸钠、胰蛋白胨、酵母提取粉、氯化铵）对菌丝球形成的影响;以结晶紫为对象,研究不同菌体形态及菌丝球大小对黑曲霉吸附废水染料能力的影响。【结果】在黑曲霉RAF106中,孢子聚集、菌丝聚集均可形成菌丝球;菌丝球的大小与培养液初始p H、孢子接种量成反比,与摇床转速无关;当温度低于35°C时,菌丝球大小与温度成正比,...     

一种高效无选择标记的黑曲霉基因组编辑方法

黑曲霉(Aspergillus niger)是一种重要的工业生产菌株,被广泛地应用于生产酶制剂和有机酸,但仍需要进行基因组改造提高它的应用潜力。CRISPR/Cas9技术是一种被广泛采用的黑曲霉基因组编辑技术,但由于需要在基因组中整合选择标记或基因编辑效率还有待提高,影响了其在工业菌株改造中的应用。本研究建立了一种基于CRISPR/Cas9技术的高效无选择标记的基因编辑方法。首先,利用5S rRNA启动子启动sgRNA的表达,构建了一个含有AMA1(autonomously maintained in Aspergillus)复制起始片段的sgRNA和Cas9共表达质粒;同时通过敲除kusA基因构建非同源末端连接(non-homologous end joining pathway,NHEJ)修复缺陷的高效同源重组菌株;最后利用含有AMA1片段质粒的不稳定性,通过无抗平板传代丢失含有sgRNA和Cas9共表达质粒。利用该方法,在采用同源臂长度仅为20bp的无选择标记供体DNA进行基因编辑时,基因编辑效率可达到100%。该方法为黑曲霉基因功能的研究和细胞工厂的构建奠定了基础。     

The isolation of Ant1, a transposable element from Aspergillus niger

A transposable element has been isolated from the industrially important fungus Aspergillus niger (strain N402). The element was identified as an insertion sequence within the coding region of the nitrate reductase gene. It had inserted at a TA site and appeared to have duplicated the target site upon insertion. The isolated element was found to be 4798 by in length and contained 37-bp inverted, imperfect, terminal repeats (ITRs). The sequence of the central region of the element revealed an open reading frame (designated ORF1) which showed similarity, at the amino acid level, to the transposase of the Tc1/mariner class of DNA transposons. Another sequence within the central region of the element showed similarity to the 3 coding and downstream untranslated region of the amyA gene of A. niger. Sequence homology and structural features indicate that this element, which has been named Ant1 (A. niger transposon 1), is related to the Tc1/mariner group of DNA transposons. Ant1 is apparently present as a single copy in strain N402 of A. niger.     

响应面法优化黑曲霉固定化条件及其对土壤中溴氰菊酯的降解特性研究

【目的】通过研究吸附包埋法固定黑曲霉(Aspergillus niger)的最佳制备工艺,初步探讨固定化黑曲霉对溴氰菊酯(deltamethrin, DM)及其中间产物3-苯氧基苯甲酸(3-phenoxybenzoic acid,3-PBA)的降解机制,并将其应用于农业种植中以评价固定化黑曲霉的实际应用效果。【方法】以生物炭、海藻酸钠为固定化载体,通过单因素和响应面试验对固定化黑曲霉(immobilized Aspergillusniger)的制备工艺进行优化。同时,利用高效液相色谱法分析DM和3-PBA的含量变化。【结果】海藻酸钠浓度、生物炭浓度和菌液接种量为DM去除率的显著影响因子,当三者分别为25.27、1.28和125.28 g/L时,是黑曲霉固定化的最佳制备条件;在施加固定化黑曲霉后,土壤中DM半衰期由7.6d缩短至5.2d,黑曲霉对3-PBA也具有降解作用,在21h达到最低浓度1.45mg/kg;修复后的土壤可显著提高番茄种子发芽率,株高、根长等6个生长指标较DM单独处理组也有不同程度的恢复;在经固定化黑曲霉修复28 d后,污染土壤根系酶活和微生物数量均得到不同程度改善。【...