黄孢原毛平革菌抗营养阻遏产漆酶同工酶动态分析

以选育的抗营养阻遏产木质素降解酶黄孢原毛平革菌（Phanerochaete chrysosporium）pcR5305、pcR5324为实验对象,研究了其在富氮条件下动态产漆酶同工酶的规律及其可能的营养调控机制。两菌株可在初始氨氮质量浓度达2.2 g/L的富氮环境下产漆酶,启动漆酶合成及达到产酶峰值对应的葡萄糖、氨氮浓度阀值远高于野生型,基质C/N的降低是漆酶合成启动及达到高峰的前提,其中碳浓度的降低更为重要。两菌株在不同时间可产生1～3种漆酶同工酶（分别为Lac1、Lac2和Lac3）,其中Lac3产酶伴随菌体整个生长过程,其合成启动与积累无需受基质碳氮饥饿及C/N的限制;Lac2在pcR5305初生代谢阶段产生,但只能在pcR5324次生代谢阶段产生;Lac1仅在pcR5305的初生代谢或次生代谢阶段产生,基质C/N降至5.0～7.0时诱导产生 Lac1的合成,并随培养时间的增加产酶量逐渐提高。显然3种同工酶的合成具有不同的调控机制。     

一氧化氮在启动黄孢原毛平革菌木质素降解酶合成中的作用

[目的]通过了解一氧化氮在启动黄孢原毛平革菌合成木质素过氧化物酶(LiP)中的作用及其作用机制,弄清白腐菌启动次生代谢的调控机制.[方法]以黄孢原毛平革菌原种pc530及突变种pcR5305为研究对象,弄清在不同营养条件下NO含量的动态变化及其与合成LiP之间的关系,再通过添加外源NO供体SNP、NO淬灭剂cPTIO对两菌株合成LiP的影响分析,揭示NO在白腐菌启动合成LiP中的作用和作用机理.[结果]两菌株均能在两种不同营养条件下产生NO,但NO的产生量与菌株及其营养状况有关,富营养使pc530产生NO量低且严重延后,而pcR5305产生NO并不需要营养饥饿激发且产生量显著高于pc530.除了LiP峰值出现时间迟于NO峰值时间外,NO含量与LiP合成呈正相关性;外施SNP对合成LiP有促进作用,但对pcR5305的促进作用没有pc530明显;15 mmol/L cPTIO使黄孢原毛平革菌合成LiP均大为降低,但并没有完全抑制产生LiP.[结论]黄孢原毛平革菌可能通过产生NO启动LiP的合成,但NO并不直接参与或影响合成LiP,NO更可能是作为一种上游的信号分子起作用.除了NO外,可能还有其它与NO有相互促进作用的信号分子也参与了LiP合成的调控.与pc530具有不同的产生NO的机制可能就是pcR5305抗营养阻遏合成木质素降解酶的机理.     

黄孢原毛平革菌突变株抗碳氮营养阻遏产漆酶碳氮生理调控机理

【目的】通过比较不同碳氮营养及其消耗对产漆酶的影响,了解白腐菌模式种黄孢原毛平革菌解除营养阻遏产漆酶代谢的生理生态特性,揭示白腐菌合成漆酶的碳氮生理调控机理。【方法】分别利用限碳限氮(CL-NL)、限碳富氮(CL-NS)、富碳限氮(CS-NL)与富碳富氮(CS-NS)4种条件培养黄孢原毛平革菌野生型(WT)与突变株,比较两者产漆酶动力学、菌体生长、葡萄糖与氨氮消耗差异及其相关性来揭示解除营养阻遏产漆酶调控生理特性,明确C、N营养对产漆酶的生理调控途径。【结果】突变菌株除消耗速率比野生型略慢外,两者氨消耗趋势一致,但对葡萄糖的消耗比野生型快且氨氮浓度对葡萄糖的消耗影响不大。在CL-NL、CL-NS、CS-NL、CS-NS 4种培养条件下,野生型分别在培养后期的第11、14、19和19天的次生代谢时期产生0.107、0.029、12.84和18.05U/L漆酶,启动漆酶合成及酶峰值出现的时间与基质中葡萄糖耗尽或接近耗尽的时刻,或同氨氮消耗至最低值的时刻相对应;与WT产漆酶特性不同,突变株产漆酶伴随整个培养过程且均有两个产酶高峰,分别在培养的第8、7、12天和12天出现298.83、343.14、271.22、251.49U/L漆酶第一个产酶高峰,在培养的第12、13、19和19天产生257.69、298.78、213.81、216.93U/L漆酶的第二个产酶高峰。碳氮营养对产酶的影响显示:两菌株只要初始碳源浓度相同(限碳或富碳),各自产酶动力学趋势基本一致;相反,即使初始氮源浓度相同但其产酶动力学趋势却不同,说明碳源对黄孢原毛平革菌产漆酶的影响比氮源更为重要。【结论】野生型黄孢原毛平革菌产漆酶受碳或氮饥饿调控,碳、氮各自独立发挥作用且在不同的营养条件下由不同营养素所调控,如在限碳条件下产漆酶主要由葡萄糖饥饿启动,而在富碳条件下则由氨氮饥饿所激发,以碳或氮菌体负荷表示是否达到启动酶合成的调控阀值比单纯碳或氮浓度更为合理。突变菌株漆酶合成的启动不受碳、氮营养所阻遏,可能涉及一个全局调控的改变,解除了漆酶合成的营养阻碍。     

一株木质素降解菌高温驯化及酶学性质的测定

【背景】高温引起的微生物活性降低是限制园林绿化废弃物堆肥过程中木质素降解的主要因素。【目的】驯化一株木质素降解菌芽孢杆菌NO.2,提高其在高温下的微生物活性,探究其生长情况及酶学特性。【方法】采用温度梯度方法驯化菌株,以菌株生长曲线、酶活力、木质素降解率为评价指标,探究驯化前后菌株间差异,以及驯化后菌株所产木质素降解酶的酶促反应温度和pH范围。【结果】与原菌株相比,驯化后菌株在60℃培养时最大生物量间差异不显著;漆酶(laccase,Lac)、锰过氧化物酶(manganeseperoxidase,MnP)和木质素过氧化物酶(ligninperoxidase,LiP)酶活力得到进一步提高,分别提高了30.75%、35.98%和29.62%,木质素降解率提高60.52%。酶学性质研究表明,驯化后菌株所产Lac、MnP和LiP在20-60℃、pH 3.0-9.0范围内酶活力均较高,而且具有较好的稳定性,稳定性依次为Lac>LiP>MnP。【结论】温度梯度驯化方法可有效提高微生物对高温环境的适应性,扩大木质素降解酶的酶促反应温度和pH范围,在进一步自主研制专用降解园林废弃物微生物菌...     

白腐菌产锰过氧化物酶培养基的优化

黄孢原毛平革菌(Phanerochaete Chrysosporium)5．776在初始发酵培养基中产胞外锰过氧化物酶活力极低。为了显著提高锰过氧化物酶活力,对初始发酵培养基进行优化。通过调整培养基中碳源、氮源种类和含量,吐温80添加量,Mn^2 终浓度,静置培养温度、时间,采用分光光度计法测定酶活力,发现黄孢原毛平革菌在限氮高锰培养基中产生较高的锰过氧化物酶。静置液体培养的优化条件是：葡萄糖10g／L;酒石酸铵2mmol／L;吐温80 lg／L;Mn^2 9．9μg／L;于34℃静置培养5d;产MnP活力达1200U／L,比优化前提高了近17倍。     

木质素降解菌株的分离及其降解玉米秸秆过程中产酶特点

【目的】筛选高效降解木质素的菌株,并研究其以玉米秸秆为底物时木素降解酶活性。【方法】本研究以愈创木酚培养基和苯胺蓝培养基从吉林省不同经纬度的自然朽木及腐朽玉米秸秆土壤样品中分离、筛选得到高效降解木质素的菌株,并对其形态学鉴定,通过ITS序列分析构建系统发育树,分析菌株的分类地位。通过秸秆固体发酵过程产生的胞外木质素酶的活性分析,选出高效秸秆降解菌。【结果】筛选出1株高效降解秸秆的真菌,对其进行形态学特征和ITS序列分析,命名为白囊耙齿菌W2(Irpex lacteus W2)。该菌株在4–8 d内产生的锰过氧化物酶(Manganese peroxidase)呈上升趋势,并且在8 d达到峰值86.31 U/mL,与黄孢原毛平革菌(Phanerochaete chrysosporium)的最高酶活力45.86 U/mL相比,高出了88.20%(P0.01);该菌株的漆酶(Laccase)活力8 d时达到20.60 U/mL,比对照高40.76%(P0.05)。【结论】本研究分离到一株具有较强降解秸秆能力的真菌,初步鉴定为Irpex lacteus W2,具有较强的降解秸秆能力,其降解秸秆过程中产生较高的锰过氧化物酶与漆酶活力。     

烟管孔菌G14产锰过氧化物酶条件优化及其对染料的脱色

利用组织分离从未成熟有机蓝莓的表皮中分离出菌株G14,根据其菌落形态、ITS序列对比及系统发育树的分析,鉴定菌株G14为一株烟管孔菌Bjerkandera adusta。菌株G14可以分泌漆酶（laccase,Lac）、木质素过氧化物酶（lignin peroxidase,LiP）和锰过氧化物酶（manganese peroxidase,MnP）3种木质素降解酶,利用单因素和正交试验对活性较高的MnP进行发酵条件优化,同时检测B.adustaG14所产MnP粗酶液对5种染料的脱色能力。结果表明,B.adustaG14在培养6d时MnP活性最大,最优条件为：蔗糖10g/L、pH 7、0.5mmol/L Mn²⁺、0.1mmol/L Zn²⁺,该条件下MnP活性达17.74U/L,比优化前提高了1.42倍,B.adustaG14 MnP粗酶液对5种染料均可以脱色,对刚果红和铬黑T染料的脱色效果最好,6d后脱色率达76%和68%。     

产漆酶菌株筛选及一株产酶菌株的优化与鉴定

【目的】从26株真菌菌株中筛选高产漆酶菌株。【方法】采用愈创木酚法进行产漆酶菌株的筛选,通过正交实验对筛选出的高产菌株进行优化,并通过形态学和分子系统学对菌株进行鉴定。【结果】26株真菌菌株中有4株可产生漆酶,其中菌株H52.1为产漆酶最好菌株;菌株H52.1产漆酶优化培养基碳源为可溶性淀粉,氮源为硝酸铵,pH为8,金属离子为Ca2+;经鉴定,该菌株为大孢戴氏霉。【结论】大孢戴氏霉在产漆酶方面值得进一步研究开发。     

降解烤烟秸秆和烟碱菌株的筛选及其产酶特性

摘要:【目的】为获得能够降解烤烟秸秆和烟碱的菌株,并探索其降解烤烟秸秆的利用途径。【方法】以烤烟秸秆为唯一碳氮源,从烟田土壤中进行了菌株的筛选。采用形态学观察、生理生化特性鉴定、16S rRNA基因序列鉴定等方法对该菌株进行了鉴定,并对其以烤烟秸秆为底物进行液态发酵的产酶活性和木质纤维素降解效果进行了测定。【结果】结果表明:该菌株为巨大芽孢杆菌(Bacillus megaterium)。在以烤烟秸秆为主要营养物质液态发酵条件下该菌株具有较强的木质素降解能力,最大漆酶活力达到418.52 U/L,而木质素过氧化物酶和锰过氧化物酶的最大酶活分别为19.71 U/L 和64.71 U/L。此外,发酵20 d后该菌能够完全降解发酵液中的烟碱。【结论】本研究筛选到了1株能够较好降解烤烟秸秆和完全降解烟碱的巨大芽孢杆菌(Bacillus megaterium),且该菌株具有利用烤烟秸秆生产漆酶的应用价值。     

漆酶高产菌株的筛选及产酶条件研究

木质素是一种高度复杂的不定形的芳香族化合物 ,是仅次于纤维素的第二大再生有机资源 ,木质素的微生物降解及其有关酶类在制浆造纸工业和环境保护方面具有较大潜力。木质素的生物降解酶主要有木素过氧化物酶、漆酶、锰过氧化物酶和多酚氧化酶等。国外已有该方面的研究报道[5～ 7,9,10 ] ,但多集中在黄孢原毛平革菌 (Ｐｈａｎｅｒｏｃｈａｅｔｅｃｈｒｙｓｏｓｐｏｒｉｕｍ)木素过氧化物酶和锰过氧化物酶方面的研究 ;Ｓｌｏｍｃｚｙｎ ｓｋｉ等[8] 研究了Ｂｏｔｒｙｔｉｓｃｉｎｅｒｅａ的漆酶特性 ;国内有关研究报道较少[3 ,4 ] ,筛选漆酶高…     

利用根癌农杆菌T-DNA 插入突变寻找参与漆酶葡萄糖阻遏的关键基因

【目的】新型隐球酵母(Cryptococcus neoformans)是人类重要致病真菌,主要毒性因子之一漆酶的表达受葡糖糖阻遏,机制未知。本文拟寻找参与葡萄糖阻遏的关键基因。【方法】建立根癌农杆菌介导的转化方法(Agrobacterium tumefanciens-mediated transformation,ATMT)建立一个容量约200000的随即插入突变文库,在高浓度葡萄糖条件下从中筛选葡萄糖去阻遏的突变株。通过Southern确定突变株中T-DNA的拷贝数,利用反向PCR获得依赖葡萄糖的漆酶阻遏基因序列。【结果】筛选到了30株葡萄糖去阻遏突变株,Southern blot发现83%的葡萄糖去抑制突变株含有单个T-DNA拷贝。初步鉴定了可能参与漆酶阻遏的10个不同生物学功能基因,如参与碳水化合物的代谢,固醇的合成,几丁质的合成,GPI脂锚钩的合成等等。【结论】ATMT突变策略可以找到一些参与漆酶葡萄糖阻遏的关键基因,为理解漆酶在致病过程中的作用机制和工业改进漆酶活性提供参考。     

毛栓菌产漆酶条件优化及该酶对合成染料脱色的特性

【目的】提高菌株Trametes hirsuta SYBC-L19漆酶产量,并研究该酶对合成染料脱色的性质。【方法】通过单因素和响应面设计,对产漆酶培养基进行优化。【结果】最优培养基为:玉米粉20.0 g/L、马铃薯淀粉32.4 g/L、酒石酸铵2.9 g/L、吐温80 0.5 g/L、CuSO4.5H2O 2.0 mmol/L、香兰素0.54 mmol/L、NaH2PO4.2H2O 2.0 g/L、MgSO4.7H2O0.5 g/L、MnSO4.H2O 0.1 g/L;最佳培养条件为:培养温度30°C,初始pH 6.0,装液量40 mL/250 mL,接种量8%。【结论】培养8 d酶活达35 U/mL,是优化前的39倍。对漆酶催化合成染料脱色进行了考察,发现该酶在60°C下对偶氮类染料AR1和RB5能迅速脱色,5 min内即可完成。     

Optimization of laccase production from a novel strain-Streptomyces psammoticus using response surface methodology

Response surface methodology was employed for the optimization of different nutritional and physical parameters for the production of laccase by the filamentous bacteria Streptomyces psammoticus MTCC 7334 in submerged fermentation. Initial screening of production parameters was performed using a Plackett - Burman design and the variables with statistically significant effects on laccase production were identified. Incubation temperature, incubation period, agitation rate, concentrations of yeast extract, MgSO(4)7H(2)O, and trace elements were found to influence laccase production significantly. These variables were selected for further optimization studies using a Box-Behnken design. The statistical optimization by response surface methodology resulted in a three-fold increase in the production of laccase by S. psammoticus MTCC 7334.     

Effects of various media and supplements on laccase production by some white rot fungi

White rot fungi produce three main extracellular enzymes involved in ligninolysis; laccase, lignin peroxidase and manganese peroxidase. Though all white rot fungi do not produce all three enzymes, laccase occupies an important place in ligninolysis. The present paper reports its production by some white rot fungi; Daedalea flavida, Phlebia brevispora, Phlebia radiata and Polyporus sanguineus under different nutritional conditions. Of the various basal media tested, mineral salts malt extract broth proved to be the best medium for laccase production. Sugarcane bagasse proved to be the best laccase inducer among the various supplements added to different media.     

A new method for screening and isolation of hypersecretion mutants in Aspergillus niger

Although filamentous fungi have a unique property of secreting a large amount of homologous extracellular proteins, the use of filamentous fungi as hosts for the production of heterologous proteins is limited because of the low production levels that are generally reached. Here, we report a general screening method for the isolation of mutants with increased protein production levels. The screening method makes use of an Aspergillus niger strain that lacks the two major amylolytic enzymes, glucoamylase (GlaA) and acid amylase (AamA). The double-mutant strain grows poorly on starch and its growth is restored after reintroducing the catalytic part of the glucoamylase gene (GlaA₅₁₂). We show that the fusion of a heterologous protein, a laccase from Pleurotus ostreatus (Pox2), to the catalytic part of glucoamylase (GlaA₅₁₂–Pox2) severely hampers efficient production of the glucoamylase protein, resulting in a slow-growth phenotype on starch. Laccase-hypersecreting mutants were obtained by isolating mutants that displayed improved growth on starch plates. The mutant with the highest growth rate on starch displayed the highest laccase activity, indicating that increased glucoamylase protein levels are correlated with higher laccase production levels. In principle, our method can be applied to any low-produced heterologous protein that is secreted as a fusion with the glucoamylase protein.     

Dominant spore color mutants of Aspergillus nidulans defective in germination and sexual development.

The ascomycete Aspergillus nidulans produces green conidia (asexual spores). Recessive mutants which produce yellow conidia have been previously isolated from haploid strains and have been shown to be deficient in laccase (diphenol oxidase), an enzyme that requires copper for activity. Using a diploid parent strain, we isolated dominant yellow conidial mutants which, in the haploid state, produced even less laccase activity than a recessive mutant. Three isolates of such mutants behaved similarly and define a single complementation group (yB) on chromosome VIII distinct from the yA locus on chromosome I defined by recessive mutants. Unlike yA mutants, whose only discernable phenotype is their conidial color, yB mutants are pleiotropic: conidial germination was delayed relative to the wild type, and sexual development was blocked at an early stage. The three phenotypes of yB mutants were expressed on yeast extract-glucose medium containing 1.6 microM of added copper. When copper was added to above 5 microM, all three phenotypes were remediated, and near wild-type levels of laccase were produced. We conclude that yB mutants have a reduced availability of copper. The dominance of yB mutants could result, for example, from an alteration in transport or storage of copper. Using an immunological assay, we detected no laccase antigenic cross-reacting material in yB mutants grown on medium of low copper content. We conclude that either the synthesis or the stability of laccase is copper dependent.     

不同搅拌器类型对齿毛菌发酵产漆酶的影响

【目的】白腐菌Cerrena unicolor Y-G07是一种不产孢子的丝状真菌,其漆酶合成与生长相偶联。应用于单细胞微生物发酵的搅拌器并不适用于白腐真菌。在此,综合考虑溶氧效果和剪切力作用,研究不同搅拌器类型对白腐菌Cerrena unicolor Y-G07发酵生产漆酶产量的影响。【方法】针对Y-G07菌株生长过程需氧量大,且对剪切力敏感的特性,订制5种不同类型的搅拌器(径向流、轴向流等),在通气已控制在设备最大量程及转速优化的前提下,研究Y-G07在发酵生产过程中使用不同类型搅拌器对菌丝生长形态、生长速度、溶氧情况、糖代谢和漆酶合成的影响。【结果】Cerrena unicolor Y-G07菌株对不同类型搅拌器产生的发酵液流态性质和剪切力敏感,表现在菌丝体的生长形态、细胞浓度差异较大,且生长周期改变,从而影响漆酶的合成。采用六折叶DT602搅拌器最有利于该菌株形成致密度合适的网状菌丝体,菌丝体细胞浓度高,断裂少、生长状况好,漆酶的单位产量可达690 U/m L,相对于普通使用的六叶平直叶搅拌器(448 U/m L)提高了54%。【结论】选择合适的搅拌器类型有利于好氧但对剪切力敏感的微生物发酵。     

Induction of Neurospora crassa Laccase with Protein Synthesis Inhibitors

Rapidly growing Neurospora crassa does not produce laccase (p-diphenol:oxygen oxidoreductase; EC 1.10.3.2). Low concentrations of cycloheximide induce the production of this enzyme, most of which is secreted into the media. In general, limited inhibition of protein synthesis seems to derepress laccase synthesis since actinomycin D and, to a limited extent, puromycin also induce laccase production. Similarities in the conditions of laccase and tyrosinase induction, plus investigations with two tyrosinase regulatory mutants, suggest that the production of these two phenol oxidases is controlled by the same mechanism. As shown by polyacrylamide gel electrophoresis, most of the 10 to 12 proteins normally present in the medium virtually disappear during cycloheximide treatment. In contrast, the amounts of two proteins that are present in only very minor quantities, if at all, in normal culture filtrates increase dramatically. One of these proteins co-migrates with laccase, whereas the other has not been identified.     

粗毛栓菌(Trametes hirsuta) D2固态发酵山核桃蒲壳产漆酶的营养条件研究

【目的】为提高漆酶产量,降低生产成本,以山核桃蒲壳作为基质,对粗毛栓菌D2固态发酵产漆酶的营养条件进行研究。【方法】对不同碳源、氮源、碳氮比、蒲壳含量对漆酶产量的影响进行分析。【结果】山核桃蒲壳是粗毛栓菌生长的良好载体,能够促进漆酶的合成。粗毛栓菌D2漆酶固态发酵培养基干物质组成为:山核桃蒲壳40%(质量比),玉米粉24%(质量比),菜籽饼粉36%(质量比)。发酵6 d时,漆酶活性为126.8 U/g干基。【结论】粗毛栓菌固态发酵山核桃蒲壳产漆酶具有效率高,生产成本低的优点,具有潜在的工业化应用前景。