内切葡聚糖酶高产菌株的诱变选育

【目的】建立里氏木霉(Trichoderma reesei)高产突变菌株的快速筛选方法,选育出高产内切葡聚糖酶的突变株。【方法】对里氏木霉T306菌株的初筛培养基进行优化,建立快速筛选方法;通过紫外诱变手段选育内切葡聚糖酶高产突变菌株,并对突变菌株的产酶培养基进行优化。【结果】在初筛培养基中添加浓度为0.1%(W/V)的乳糖、蛋白胨及脱氧胆酸钠有利于菌株的筛选。诱变后筛选出菌落形态发生明显变化的内切葡聚糖酶高产突变株0516,其羧甲基纤维素酶活力(CMC酶)较出发菌株提高了38.9%。其产酶培养基经优化后,得到最适碳、氮源分别为:乳糖1.50%、硫酸铵0.14%、尿素0.05%、蛋白胨0.10%,优化后CMC酶活力达64.2 U/mL,较优化前提高了2.3倍。【结论】建立了里氏木霉高产突变菌株的快速筛选方法,通过紫外诱变育种获得了产内切葡聚糖酶能力高且遗传稳定的突变株0516。     

产木质纤维素降解酶真菌的筛选及产酶特性

【背景】利用微生物处理秸秆引起研究者的广泛关注。【目的】筛选生长速度快、木质纤维素降解酶活性强的真菌菌株,用于植物秸秆降解和高效利用。【方法】从自然界采集的样品中分离纯化真菌菌株,利用PDA-愈创木酚和PDA-羧甲基纤维素钠平板初筛,再经过液体发酵检测漆酶酶活、羧甲基纤维素酶酶活及菌丝生长速率复筛目的菌株,通过内转录间隔区(internal transcribed spacer,ITS)测序法对目的菌株进行鉴定,对目的菌株产漆酶和羧甲基纤维素酶活力进行测定及酶学性质研究。【结果】从样品中分离纯化到18株真菌,通过初筛筛选出9株产木质纤维素降解酶真菌菌株,再经过复筛,筛选出一株产漆酶、羧甲基纤维素酶活力高、菌丝生长快的菌株M1,经过分子生物学鉴定M1为糙皮侧耳(Pleurotus ostreatus),其漆酶酶活为(243.59±1.11)U/mL,羧甲基纤维素酶酶活为(36.03±0.63) U/mL。在5 d的培养期内,菌丝生长速率为(9.43±0.32) mm/d。对菌株M1的发酵粗酶液的酶学性质进行了检测分析,结果表明,所产的漆酶在pH5.0-6.5相对酶活为90%以上,在pH ...     

采自武夷山高温木质素降解菌优良菌株筛选及其木质素降解效果测定

本文旨在筛选能够高效降解秸秆木质素的高温真菌。对来自福建武夷山的农田土壤进行富集,采用苯胺蓝、愈创木酚和α-萘酚3种筛选平板结合木质素磺酸钙降解试验筛选木质素高温降解菌,采用范氏洗涤剂法测定一株高效降解菌对秸秆木质素的降解效果;最后以经典形态学和多基因分子系统学相结合的方法对该菌株进行鉴定。结果表明：经钓饵法,分离获得8株高温菌;通过初筛和复筛,获得了1株较好的木质素高温降解菌A12638H;将其用于降解水稻秸秆和玉米秸秆,发现木质素降解率分别达到41.7%和48.3%;该菌株经鉴定为大孢戴氏霉Taifanglania major。菌株A12638H具有很好的应用价值,值得在秸秆资源的开发利用中开展更深入的研究。     

几种耐热戴氏霉对秸秆的降解效果

【目的】测定6株戴氏霉(Taifanglania)的生长温度特性及其对秸秆的降解效果。【方法】通过定时测定不同培养温度下的菌落直径绘制6株戴氏霉菌株的生长曲线;采用苯胺蓝法、愈创木酚法和木质素磺酸钙降解试验测定其木质素降解能力;用羧甲基纤维素钠水解圈测定法和胞外酶活测定法判定其对纤维素的降解能力;以失重法和范氏洗涤剂法检测其对水稻秸秆的降解效果。【结果】所试的耐热戴氏霉菌株均能耐受50 °C的高温,并能产生纤维素酶,但不同菌株产生的木质素降解酶有所差异;均具有降解秸秆的能力,其中合川戴氏霉(T. hechuanensis) H08.1菌株降解能力最强,其次是灰戴氏霉(T. cinerea) H57.1菌株,其秸秆降解率分别为50.2%和42.2%。【结论】合川戴氏霉H08.1菌株和灰戴氏霉H57.1菌株在秸秆的降解利用上具有潜在开发价值。     

煤附生真菌产漆酶菌株的分离鉴定及产酶特性研究

从煤炭样品中筛选到一株产漆酶活性菌株,经菌体形态观察和ITS序列分析,鉴定为Trichoderma asperellum W03。菌株所产漆酶的最适反应pH为3.5-4.5,最适反应温度45℃,类似于白腐真菌漆酶。液态发酵条件的均匀设计实验表明,适宜的发酵培养基组成为:土豆200.00g/L、葡萄糖9.36g/L、米糠粉37.44g/L、硝酸钾4.00g/L、KH2PO43.20g/L、MgSO4·7H2O2.00g/L、CuSO4·5H2O0.005g/L、初始pH8.0;在33℃、180r/min、50mL/250mL的摇瓶培养条件下,棘孢木霉W03在孢子接种培养后48h、84h产酶量较高,分别处在菌体的快速生长期和衰亡期;菌体产酶受Cu2+、联苯胺诱导,而受1-萘酚、愈创木酚和2,4-D抑制。     

两株戴氏霉对水稻秸秆的降解及产酶研究

本文旨在构建能够高效降解水稻秸秆的戴氏霉组合菌。通过兼容性试验,选取木质素降解菌灰戴氏霉H57.1菌株与纤维素降解菌合川戴氏霉H08.1菌株组合发酵降解水稻秸秆,以失重法和范氏洗涤剂法检测其对秸秆的降解效果,用胞外酶活测定法探索其产酶规律。结果表明,菌株H57.1和H08.1具有良好的兼容性;组合菌H57.1+H08.1对水稻秸秆的降解能力明显高于单一菌株,秸秆失重率高达55.7%,木质素、半纤维素和纤维素降解率分别为48.9%、72.6%和57.0%;对发酵过程产酶情况的分析进一步表明,组合菌H57.1+H08.1降解水稻秸秆的能力与其产酶能力密切相关。     

产壳聚糖酶菌株的筛选、鉴定及酶学特性分析

【目的】利用筛选培养基,从福建沿海潮间带泥样中分离筛选产壳聚糖酶的菌株,并研究菌株的产酶特性。【方法】通过形态学观察,结合26S rDNA序列进行分类鉴定,采用DNS法测定酶活力。【结果】筛选得到产壳聚糖酶的菌株KQ-1002与草酸青霉(Penicillium oxalicum)的同源性为99%,并初步鉴定为青霉属的一种。发酵培养的最适温度为30°C,最适碳源为1.0%水溶性壳聚糖,最适氮源为1.87%(NH4)2SO4,最适pH为6.0。该菌株液体发酵培养72 h产壳聚糖酶活性最高,经优化后最高产酶量为18 U/mL。纯化后的壳聚糖酶经SDS-PAGE分析其分子量约40 kD。酶促反应最适pH为5.0,最适反应温度为55°C,Km值为1.293 g/L。在离子浓度为1.0×10 3mol/L时,金属离子Cu2+、Hg2+、Ag+对酶的活性均有强烈的抑制作用。壳聚糖酶对不同底物及脱乙酰度的壳聚糖具有不同的降解作用。【结论】筛选获得产壳聚糖酶的真菌菌株KQ-1002的壳聚糖酶活力经优化后提高了约7倍,是一株具有研究和应用潜力的产壳聚糖酶菌株。     

湘江河岸土壤中高产甲壳素脱乙酰酶菌株的筛选及鉴定

【目的】甲壳素脱乙酰酶(CDA)是将天然甲壳素生物转化为可商品化利用的壳聚糖的关键酶。本文旨在从湘江河岸的土壤中筛选可高产CDA的新菌株。【方法】以甲壳素为唯一碳源,利用4'-硝基乙酰苯胺为显色剂,通过变色圈法进行产CDA菌株初筛,产酶活性分析复筛;通过形态学和ITS区序列特征对菌株进行鉴定。【结果】从湘江(长沙段)河岸边的土壤中分离出的117株菌株中筛选到可产CDA的菌株30株,其中4株具有较强产CDA的能力。进一步经发酵产酶分析验证,菌株A1具有较强的产CDA能力,其胞外CDA酶活高达13.21 U/m L。结合形态学和ITS区序列特征,菌株A1初步鉴定为层生镰孢菌。【结论】从湘江河岸边的土壤中筛选到可高产CDA的菌株A1,具有较好的开发应用前景。     

海南近海水域产碱性蛋白酶菌株的分离筛选及发酵条件优化

【背景】微生物蛋白酶在工业生物技术上具有广阔的应用前景。在微生物蛋白酶中,碱性蛋白酶占全球酶总产量的50%以上,获取产碱性蛋白酶的新微生物资源意义重要。【目的】在海南近海贝类养殖基地海泥中筛选获得高产碱性蛋白酶的菌株,对其生长特性进行探究并优化菌株产酶条件,获得新的蛋白酶生产资源。【方法】以酪素培养基为筛选培养基,采用形态学结合系统发育分析鉴定菌株,通过响应面实验优化菌株的产酶条件。【结果】筛选获得一株高产碱性蛋白酶的菌株F3,鉴定为粘质沙雷氏菌（Serratia marcescens）。菌株在最优产酶条件下发酵酶活达到（339.36±4.30） U/mL。【结论】筛选获得的菌株粘质沙雷氏菌F3有较好的产碱性蛋白酶的能力。     

木霉LaTr 01菌株产漆酶发酵的条件

从华南地区采集土样,采用愈创木酚平板筛选产漆酶菌株,获得了一株短周期产漆酶的小型丝状真菌。通过观察菌落特征、生长情况以及显微镜下菌丝和孢子的形态,初步鉴定该菌株为木霉属的一个种（Trichodermaspp、）,命名为木霉LaTr01菌株。通过单因素方法研究该菌产漆酶的发酵条件,结果表明：LaTr01的产酶培养基以麦芽糖为最佳碳源;以酵母提取物为最适氮源;培养24h后加入Cu“比培养开始加入Cu ^2＋LaTr01产酶活高出约1倍。采用麦芽糖、酵母提取物、Cu^2＋浓度L9（3^3）的正交试验优化漆酶发酵条件,结果表明,氮源是影响该菌产漆酶的最重要因素,碳源次之,Cu^＋浓度影响较小;LaTr01菌株产生漆酶的最佳条件为：5g／L酵母提取物、20g/L麦芽糖、1．5mmol／LCu^2＋,Cu^2＋加入时间为培养24h后。在优化的培养条件下,该菌酶活可达480．556U／L。     

一株产漆酶细菌的分离鉴定及酶学性质研究

[目的]分离获得产漆酶的细菌菌株,研究漆酶的酶学性质并应用于染料脱色.[方法]利用含铜的富集培养基筛选产漆酶细菌;通过形态特征、生理生化试验及16SrDNA序列分析等方法进行鉴定;以丁香醛连氮为底物测定漆酶的酶学性质;通过测定染料在最大吸收波长下吸光值的变化评价漆酶对染料的脱色效果.[结果]从森林土壤中筛选到一株漆酶高产菌株LS05,初步鉴定为解淀粉芽孢杆菌(Bacillus amyloliquefaciens);菌株LS05的芽孢漆酶以丁香醛连氮为底物的最适pH为6.6,最适温度为70℃;该酶具有较好的稳定性,经70℃处理10h或在pH 9.0条件下放置10d后可保留活性.对抑制剂SDS和EDTA具有一定的抗性,在碱性条件下可有效脱色不同的工业染料,RB亮蓝、活性黑和靛红1h内的脱色率达93％以上.[结论]Bacillus amyloliquefaciens LS05的芽孢漆酶在高温和碱性条件下稳定性强,相对于真菌漆酶具有更好的工业应用特性,可有效用于工业染料废水的处理.     

Efficient production of Al(OH)3‐immobilized laccase with a Heterobasidion annosum strain selected by microplate screening

Aims: Wild‐type white rot fungi are the most important production organisms for laccase, a promising oxidative biocatalyst with numerous applications. This study aimed at identifying novel highly productive strains, finding optimal cultivation conditions for laccase production and establishing a simple immobilization procedure. Methods and Results: By using a newly developed 96‐well microplate cultivation method, 23 species of white rot fungi, represented by 29 strains, were directly compared with regard to the amount of secreted laccase. Both, with glucose and spruce saw dust as growth substrate a Heterobasidion annosum strain and a Physisporinus vitreus strain were the most productive (730–2200 U l^?1 of secreted laccase). Cultivation conditions for laccase production with H. annosum were optimized in larger‐scale liquid cultures. Aeration with a sparger lead to a 3·8‐fold increase in laccase activity when compared to nonaerated flask cultures. More than 3000 U l^?1 laccase was produced in glucose medium supplemented with yeast extract and the inducer veratryl alcohol. Culture supernatant was incubated with short‐range ordered Al(OH)₃ particles to directly immobilize and concentrate laccase by adsorption. Active laccase was recovered in 40% yield and the Al(OH)₃‐adsorbed laccase was suitable for repeated decolourization of indigo carmine. Conclusions: Microplate cultivation allowed a large‐scale comparison of the capacity of different fungal species for laccase production. Laccase secretion of a highly productive H. annosum strain was found to vary strongly with different cultivation conditions. Adsorption to Al(OH)₃ proved to be suitable as direct immobilization technique. Significance and Impact of the Study: The microplate screening method simplifies strain and medium development for laccase production. Two novel fungal strains suitable for laccase production were identified. Procedures for simple and efficient production of immobilized H. annosum laccase were established.     

The effects of N+ ion implantation mutagenesis on the laccase production of Ceriporiopsis subvermispora

In order to obtain genetically stable, high-yield, laccase-producing strains, Ceriporiopsis subvermispora was induced by N⁺ ion implantation and subcultured. The results revealed that, with energy of 30 keV and a dose of 80×10¹⁴ ions/cm², a relatively high increase in mutations and positive mutations were achieved. Three screened high-yield strains (NL3, NL4, and NL6) were obtained and subcultured. The results of the comparison showed that, NL4 had stable genetic traits and the highest laccase activity (323 U/L). In the course of fermentation, NL4 entered a vigorous growth period 24 h ahead of the original strain, and produced a large amount of laccase during the stationary phase. Up until the sixth day of fermentation achieved the highest laccase activity of 377 U/L, and a corresponding biomass dry weight of 4.2 mg/mL. The relative laccase activity of the per gram dry cells was 89.76 U, which was 4.79 times that of the original strain. The results indicated that N⁺ ion implantation was an ideal technique for microbial breeding, which could be applied for the improvement of Ceriporiopsis subvermispora.     

Selection of Pycnoporus cinnabarinus strains for laccase production

A comparison of Pycnoporus cinnabarinus strains for laccase production was carried out. A dikaryotic strain, I-937 strain, producing a high level of laccase (9500 U l(-1)) was selected. The study of the life cycle in vitro of this dikaryotic strain led to isolation of monokaryons. Forty-eight monokaryotic strains were isolated and screened for laccase production. One of these strains, ss3, produced a higher level of laccase than the parental strain I-937. The maximum production reached 29000 U l(-1) in medium supplemented with ferulic acid.     

马尾藻中产不饱和脂肪酸真菌的分离及其脂肪酸组成分析

【背景】随着从鱼类、农作物原料中提取不饱和脂肪酸的成本越来越高,寻找特殊且成本低的提取原料迫在眉睫。海洋环境的特殊性造就了丰富而特有的微生物资源,成为获取产不饱和脂肪酸的新策略。【目的】从湛江徐闻马尾藻中分离筛选产油脂真菌,并对其脂代谢产物进行气相色谱分析(GC)。【方法】通过利用选择性培养基及苏丹黑染色方法从马尾藻中筛选高产油脂真菌,对目标菌进行形态特征、培养特征及ITS序列鉴定,利用GC技术对三氯甲烷-甲醇提取的油脂进行组成成分分析与含油量测定。【结果】共筛选到7株产油脂真菌,其中菌株A17脂肪颗粒大且密集,是一株高产菌株,经形态与基因水平鉴定,确定菌株A17为变红镰孢菌(Fusarium incarnatum)。提取的油脂占细胞干重的24.75%,并且不饱和脂肪酸占总油脂的60.76%,其中油酸与亚油酸分别为32.80%和26.20%。【结论】该研究可为开发马尾藻中产油脂菌株提供理论依据。     

1株甲苯降解真菌的筛选鉴定及其降解甲苯的特性

从实验室保存的7株真菌筛选到1株能高效降解甲苯的菌株H1,基于形态特征、ITS序列系统学分析,将H1菌株鉴定为毛栓菌（Trametes hirsuta）。利用正交设计实验方法研究了温度、pH值、甲苯浓度和吐温80浓度对H1菌株降解甲苯的影响,研究得出该菌株降解甲苯的最适条件为30℃、pH 5.0、甲苯浓度300mg/L、吐温80浓度0.05%,在该条件下H1对甲苯的最大降解率为85.3%,降解率比未优化之前有了显著提高。比较了H1菌株在3种培养基产生漆酶的能力,H1在土豆葡萄糖培养基产酶能力最强,在第7天达到酶活高峰16 500 U/L。H1在甲苯为唯一碳源的培养基中,漆酶酶活最低,培养7 d时漆酶酶活为589 U/L。     

Extracellular laccase from Monilinia fructicola: isolation,primary characterization and application

Laccases are enzymes belonging to the family of blue copper oxidases. Due to their broad substrate specificity, they are widely used in many industrial processes and environmental bioremediations for removal of a large number of pollutants. During last decades, laccases attracted scientific interest also as highly promising enzymes to be used in bioanalytics. The aim of this study is to obtain a highly purified laccase from an efficient fungal producer and to demonstrate the applicability of this enzyme for analytics and bioremediation. To select the best microbial source of laccase, a screening of fungal strains was carried out and the fungus Monilinia fructicola was chosen as a producer of an extracellular enzyme. Optimal cultivation conditions for the highest yield of laccase were established; the enzyme was purified by a column chromatography and partially characterized. Molecular mass of the laccase subunit was determined to be near 35 kDa; the optimal pH ranges for the highest activity and stability are 4.5–5.0 and 3.0–5.0, respectively; the optimal temperature for laccase activity is 30°C. Laccase preparation was successfully used as a biocatalyst in the amperometric biosensor for bisphenol A assay and in the bioreactor for bioremediation of some xenobiotics.     

影响真菌漆酶表达及其活性的因素

丝状真菌同一菌株中存在动力学、理化特性各异的多个漆酶同工酶。金属离子,碳、氮等培养基成分,培养条件,以及异生物质、热休克处理和共培养的菌株等多种生物和非生物的因素对真菌漆酶同工酶表现出选择性诱导效应。影响真菌漆酶表达及其调控因素的研究能指导漆酶的选择性合成,以满足不同的应用需求。主要阐述影响真菌漆酶表达及其活性的因素的相关研究进展。