共查询到17条相似文献,搜索用时 218 毫秒
1.
一色齿毛菌Cerrena unicolor是分离自野外的一株能够降解木质素的白腐真菌。为明确一色齿毛菌对染料的脱色能力及脱色前后染料毒性的变化,本研究利用一色齿毛菌对固体条件下4种染料进行脱色能力的检测,筛选出较易脱色的染料后,对该染料的脱色条件进行优化,并以3种豆类发芽率为指标测定该染料脱色前后的毒性变化。结果表明,一色齿毛菌对4种染料均可脱色,其中对刚果红的脱色效果最为明显;一色齿毛菌对刚果红脱色条件的优化结果为:20g/L麦芽糖,1g/L硝酸铵,1mmol/L硫酸镁,接种9块直径1cm菌饼,10mg/L染料浓度,pH 7时脱色效果最好;刚果红染料脱色前后毒性测试结果显示:染料脱色前发酵液毒性>染料脱色后发酵液毒性>清水处理毒性,表明刚果红染料存在一定的毒性,但在被一色齿毛菌脱色后,染料毒性有所降低。本研究为一色齿毛菌在染料废水脱色方面的应用及降低染料废水毒性提供一定的参考依据。 相似文献
2.
一株新型苯胺蓝降解菌MP-13的代谢特征 总被引:2,自引:2,他引:0
[背景]三苯甲烷类染料的广泛使用对我国生态环境构成了极大危害,亟待开发一种经济、高效和环境友好型的染料废水处理技术。目前,利用微生物处理染料废水被认为是一种环境友好型的方法。[目的]通过解析菌株MP-13对苯胺蓝的降解特性,为该菌株在染料废水治理中的应用提供核心理论与技术依据。[方法]从食木白蚁肠道中筛选一株苯胺蓝脱色菌,对其进行16S rRNA基因序列分析鉴定,确定其基本生物学特征,然后通过FTIR、GC/MS等分析手段解析该菌对苯胺蓝的降解特征。[结果]菌株MP-13经鉴定为土白蚁特拉布尔希氏菌(Trabulsiella odontotermitis),该菌对苯胺蓝降解的最适温度、pH和转速分别为35℃、8.0和180 r/min,苯胺蓝浓度为200 mg/L时最大脱色率可达97.3%,且对苯胺蓝的耐受浓度可达1 500 mg/L。此外,FTIR和GC/MS的结果表明苯胺蓝被降解为小分子芳香族化合物。[结论]Trabulsiella odontotemitis MP-13对苯胺蓝有较强降解能力和较高耐受性,可作为染料废水生物修复的潜在菌株资源。 相似文献
3.
【目的】评价裂褶菌cfcc7252菌株降解孔雀石绿(Malachite Green,MG)的能力及其潜在的应用价值。【方法】采用单因子液体培养实验,研究了通气、p H、温度、碳源和氮源种类及浓度、金属离子、盐度、染料浓度对该菌降解效果的影响;采用平皿培养实验,利用植物种子萌发和微生物抑菌实验对降解产物进行毒性测试。【结果】研究结果表明,裂褶菌cfcc7252菌株在好氧和厌氧条件下均能高效降解MG。该菌在10.0 g/L葡萄糖,5.0 g/L酵母浸粉,0.01 mmol/L Zn2+,p H为4.0的液体培养基中培养36 h,对350 mg/L的MG降解率达67.8%;连续降解7次后,其降解率还能保持在95.4%以上。此外,该菌在盐度低于10.20%时,其对MG的降解率均达到98%以上。对植物、微生物的毒性测试结果表明,MG降解产物对红豆、豌豆等植物、金黄色葡萄球菌、枯草芽孢杆菌和铜绿假单胞杆菌等微生物基本没有毒性。【结论】裂褶菌cfcc7252菌株在处理以MG为主的染料废水时具有很强的应用潜力。 相似文献
4.
【目的】在无营养条件下,利用白腐真菌绒毛栓孔菌(Trametes pubescens)菌丝体对染料进行脱色可减少试验成本,提高染料处理的实用性。【方法】将该菌株液体培养的菌丝体在无营养条件下对染料进行脱色,并对其中脱色效果较好的偶氮染料刚果红的脱色过程进行分析。在此过程中,测定了该菌株分泌的胞外胞内酶活力,优化影响因子如初始pH值、温度、染料浓度和盐度,同时利用气相色谱-质谱联用技术分析无营养条件下偶氮染料刚果红的降解产物。植物毒性试验测定刚果红经绒毛栓孔菌菌丝体脱色前后的毒性变化。【结果】菌丝体对偶氮染料刚果红有较好的脱色效果,在初始pH值为2.0,温度为30°C,染料浓度为80 mg/L,盐度为2.5%(质量体积比)时,150 r/min转速下培养7 d后脱色率可达80.52%。在此过程中,菌丝体可被连续使用2次,且其所分泌的酶系可降解染料。此外,通过气相色谱-质谱联用分析得到刚果红的降解产物为萘胺、联苯胺和叠氮萘。植物毒性试验显示在无营养条件下的绒毛栓孔菌菌丝体对染料有明显的脱毒作用。【结论】研究发现绒毛栓孔菌菌丝体在无营养条件下的偶氮染料废水处理中具有广阔的应用前景。 相似文献
5.
多孔菌Trichaptum abietinum 1302BG自然条件下对合成染料刚果红和酸性品红的高效降解 总被引:3,自引:1,他引:3
选用杭州竹林土壤分离并筛选能够降解多种类型染料的真菌。经大量筛选发现一株编号为1302BG的真菌能够在固体培养基上分解所测试的全部9种染料(苯胺蓝、刚果红、橙黄G、甲基红、甲基橙、结晶紫、酸性品红、番红花红、碱性品红、甲基紫)。经形态学和分子生物学方法鉴定, 该菌1302BG为冷杉附毛孔菌(Trichaptum abietinum)。在液体培养基中研究了pH、温度、碳源、氮源、碳氮源组合、碳氮源浓度等参数对该菌脱色效果的影响, 以寻找最适最经济的脱色条件。在液体培养基中研究表明, 冷杉附毛孔菌1302BG既能在酸性又能在碱性条件下有效分解2种测试染料(酸性品红和刚果红)。该真菌能以仅含有0.5 g/L淀粉和0.05 g/L硫酸铵的经济、环境友好的培养基为底物, 能在灭菌和非灭菌(自然)的条件下高效脱色, 在24 h内对2种染料的脱色率均在90%以上。紫外/可见光谱及微核试验分析显示, 该菌脱色主要是以生物降解为主, 2种染料经该菌分解后的毒性也同时大大降低。这些优异特点显示了该菌具有非常广阔的工业染料废水处理应用潜力。 相似文献
6.
通过对兔眼蓝莓幼果组织中分离得到的内生真菌G18进行形态特征、ITS序列和系统进化分析鉴定菌株G18为裂褶菌Schizophyllum commune。同时,对菌株G18产生的3种木质素降解酶进行监测,发现G18菌株可以分泌漆酶、木质素过氧化物酶和锰过氧化物酶。为明确裂褶菌G18对染料的脱色能力,利用裂褶菌G18对固体条件下8种染料进行脱色能力的检测,筛选出较易脱色的染料后,对该染料的脱色条件进行优化。结果表明,裂褶菌G18对8种染料均可以脱色,对孔雀石绿染料的脱色效果最好。裂褶菌G18对孔雀石绿的脱色优化结果为pH 7.0、20.0g/L淀粉、1.0g/L尿素、1.0g/L硫酸锌、接菌量9片(d=5.0mm)。 相似文献
7.
锰过氧化物酶(manganese peroxidase,MnP)是白腐真菌降解多种异生物质的主要降解酶之一。本研究对白囊耙齿菌Irpex lacteus产MnP的酶活曲线进行监测,利用单因素和正交试验对I. lacteus产MnP的发酵条件进行优化,同时检测了I. lacteus的MnP粗酶液对5种染料的脱色效果。结果显示,I. lacteus在培养5d时MnP活性较大;I. lacteus产MnP较优的条件为:可溶性淀粉20g/L、尿素1g/L、pH 6.3、CaCl2 1mmol/L、FeCl3 1mmol/L,该条件下MnP活性达29.24U/L,与优化前MnP活性相比提高了1.25倍;I. lacteus的MnP粗酶液对5种染料均可脱色,其中对直接大红和活性红的脱色效果更为明显,脱色5d后的脱色率分别达到82%和81%。 相似文献
8.
白囊耙齿菌Irpex lacteus是分离自倒木上的一株可以分泌漆酶和锰过氧化物酶的白腐真菌。利用I. lacteus对固体条件下的活性黑、活性红、结晶紫、茜素红和孔雀石绿进行脱色能力的检测,通过单因素和正交试验优化I. lacteus对茜素红的脱色条件,并以3种作物发芽率为指标测定茜素红被I. lacteus脱色前后的毒性变化。结果显示,I. lacteus对5种染料均可脱色,其中对茜素红染料的脱色更为彻底;单因素和正交试验优化I. lacteus对茜素红的脱色条件为:pH 7.0、葡萄糖10.0g/L、硫酸铵0.66g/L、接种量2片(Φ=8.0mm)、100.0mL三角瓶装液20.0mL,优化条件下I. lacteus对茜素红脱色10d时的脱色率为88.26%,与未优化前的脱色率相比提高了60.50%;茜素红染料被I. lacteus脱色前后毒性大小排序为:染料原液>染料脱色后>PDB培养基处理,表明茜素红染料存在一定的毒性,I. lacteus脱色茜素红后可以使其毒性减弱。通过本研究,为I. lacteus在茜素红等染料废水脱色以及降低染料废水毒性方面的应用奠定基础。 相似文献
9.
耐盐性毒死蜱降解菌HY-1 的产酶培养基及发酵条件优化 总被引:1,自引:0,他引:1
为了明确生化处理和微生物降解的关系,通过增加耐盐菌的比例可以提高农药废水生化处理效果。从农药厂废水中分离到1株耐盐性毒死蜱降解菌——蜡状芽孢杆菌(Bacillus cereus HY-1),以从该菌中提取到的降解酶比活力为指标,进行产酶培养基和发酵条件的优化研究。通过单一因素试验和正交试验,对细菌HY-1的产酸培养基和发酵条件进行了优化。运用SPSS软件进行结果分析,所获优化培养基配方为:葡萄糖6.0 g/L,胰蛋白胨2.2 g/L,K2HPO4 2.0 g/L,KH2PO4 0.2 g/L,MgSO4.7H2O 0.1 g/L,NaCl 0.1 g/L和微量元素溶液2 mL/L。得到菌株发酵培养的最佳优化条件为:种子液培养时间为16 h,发酵培养时间为18 h,接种量为1%(V/V),发酵培养基初始pH值为7.0。氯化钠浓度为0?30 g/L时降解酶比活力不受影响,这是已报道的耐盐性最强的一株毒死蜱降解菌。 相似文献
10.
《生物技术通报》2020,(8)
以白蚁肠道为菌株来源,富集分离木质素降解细菌,并进一步解析木质素降解过程。从白蚁肠道中筛选木质素降解菌,对其进行16S rRNA基因序列鉴定,通过FTIR和TGA等手段解析了该菌对木质素的降解特性。结果显示,菌株MP-132经鉴定为解鸟氨酸拉乌尔菌,以碱木质素为唯一碳源时,培养7 d后,木质素降解率可达53.2%,漆酶和木质过氧化物酶活力最大分别为32 U/L和105.6 U/L。该菌能够使苯胺蓝和天青B脱色。此外,FTIR和TGA分析结果表明细菌生物处理改变了木质素结构。较为系统揭示了菌株MP-132的木质素降解特性,为木质素资源化利用方面提供优良菌株资源。 相似文献
11.
开放条件下烟管菌XX-2对孔雀石绿染料的高效降解 总被引:1,自引:0,他引:1
[目的]评价白腐真菌Bjerkandera adusta XX-2处理孔雀石绿染料废水的能力,为其在染料废水中的应用提供参考依据.[方法]采用批次实验在开放条件下研究通气、pH、温度、染料初始浓度、培养时间、碳源、氮源、金属离子、盐度等因子对该菌降解孔雀石绿的影响.同时利用植物萌发、微生物抑菌和水生动物致死实验对降解产物进行毒性测试.[结果]B.adusta XX-2菌株在开放的非灭菌条件下也能高效降解孔雀石绿.例如,在初始浓度为120 mg/L且以孔雀石绿为唯一营养源的条件下降解率也能达到60%.静置培养和摇动培养呈现出几乎相同的降解率,这可以为技术应用节约动力成本.最适降解pH与温度分别为7.0和25℃.在上述参数体系的优化基础上,分别进行了碳源、氮源与金属离子的添加优化实验,结果显示低浓度的碳源(如柠檬酸钠)、氮源(如氯化铵)和金属离子(如Zn2+)均可大大提高B.adusta XX-2对孔雀石绿的脱色效率.同时B.adusta XX-2的降解也能在很高的盐浓度下进行.毒性测试表明降解后的染料对植物、微生物、水生生物的毒性大大减少.[结论]B.adusta XX-2菌株在处理染料废水方面具有很大的应用潜力. 相似文献
12.
Yongmin Wu Xiang Xiao Cancan Xu Danming Cao Daolin Du 《Applied microbiology and biotechnology》2013,97(16):7439-7446
In this work, the extracellular decolorization of aniline blue, a sulfonated triphenylmethane dye, by Shewanella oneidensis MR-1 was confirmed. S. oneidensis MR-1 showed a high capacity for decolorizing aniline blue even at a concentration of up to 1,000 mg/l under anaerobic conditions. Maximum decolorization efficiency appeared at pH?7.0 and 30 °C. Lactate was a better candidate of electron donor for the decolorization of aniline blue. The addition of nitrate, hydrous ferric oxide, or trimethylamine N-oxide all could cause a significant decline of decolorization efficiency. The Mtr respiratory pathway was found to be involved into the decolorization of aniline blue by S. oneidensis MR-1. The toxicity evaluation through phytotoxicity and genotoxicity showed that S. oneidensis MR-1 could decrease the toxicity of aniline blue during the decolorization process. Thus, this work may facilitate a better understanding on the degradation mechanisms of the triphenylmethane dyes by Shewanella and is beneficial to their application in bioremediation. 相似文献
13.
随着我国印染工业的发展,废水对生态环境的危害日趋严重,亟需开发一种脱色明显且成本低廉的降解方法。本研究发现毛木耳Auricularia cornea菌株AC5对不同结构的染料均具有一定的降解作用,尤其是三苯甲烷类染料。利用26℃、160r/min振荡培养7d的粗酶液对染料(75.0mg/L)进行12h降解,结果显示三苯甲烷染料孔雀石绿、结晶紫,蒽醌染料活性蓝19和偶氮染料活性蓝222的降解效率分别为83.27%、71.77%、67.81%和63.92%。染料降解实验和酶活力测定结果表明,毛木耳对孔雀石绿的降解率达到最高时漆酶活性最高,为321.0U/mL,木质素过氧化物酶和锰过氧化物酶活性较低。因此,推测在降解过程中漆酶起到主要作用。研究表明利用毛木耳菌丝发酵液降解染料废水成本低且操作方便,为染料废水的降解研究提供了前期基础。 相似文献
14.
Degradation of Tectilon Yellow 2G (TY2G), an azo dye has been studied by hybrid technique involving pretreatment by sonochemical method and further biological treatment by Pseudomonas putida mutant. Pretreatment experiments were carried out by sonolysis of the dye solution at different concentrations (100-1000 mg/L). Wild type Gram-negative P. putida species isolated from the textile effluent contaminated soil, which was found to be effective towards dye degradation, has been acclimatized so as to consume TY2G as the sole source of nutrition. Mutant strain was obtained from the acclimatized species by random mutagenesis using the chemical mutagen ethidium bromide for various time intervals (6-30 min). The optimum mutagenesis exposure time for obtaining the most efficient species for dye degradation was found to be 18 min. An efficient mutant strain P. putida ACT 1 has been isolated and was used for growth experiments. The mutant strain showed a better growth compared to the wild strain. The substrate utilization kinetics has been modeled using Monod and Haldane model equations of which the Haldane model provided a better fit. The enzyme kinetics of the mutant and wild species was obtained using Michaelis-Menten equation. The mutated species showed better enzyme kinetics towards the degradation of TY2G. 相似文献
15.
Removal of azo dyes from the effluent generated by textile industries is rather difficult. Azo dyes represent a major class
of synthetic colorants that are both mutagenic and carcinogenic. Galactomyces geotrichum MTCC 1360, a yeast species, showed more than 96% decolorization of the azo dye Remazol Red (50 mg/L) within 36 h at 30°C
and pH 11.0 under static condition with a significant reduction in the chemical oxygen demand (62%) and total organic carbon
(41%). Peptone (5.0 g/L), rice husk (10 g/L extract), and ammonium chloride (5.0 g/L) were found to be more significant among
the carbon and nitrogen sources used. The presence of tyrosinase, NADH-DCIP reductase, riboflavin reductase and induction
in azo reductase and laccase activity during decolorization indicated their role in degradation. High performance thin layer
chromatography analysis revealed the degradation of Remazol Red into different metabolites. Fourier transform infrared spectroscopy
and high performance liquid chromatography analysis of samples before and after decolorization confirmed the biotransformation
of dye. Atomic absorption spectroscopy analysis revealed a less toxic effect of the metabolites on iron uptake by Sorghum vulgare and Phaseolus mungo than Remazol Red dye. Remazol Red showed an inhibitory effect on iron uptake by chelation and an immobilization of iron,
whereas its metabolites showed no chelation as well as immobilization of iron. Phytotoxicity study indicated the conversion
of complex dye molecules into simpler oxidizable products which had a less toxic nature. 相似文献
16.
以酵母功能性β-1,3/1,6-葡聚糖为对照品,利用苯胺蓝和β-1,3/1,6-葡聚糖特异结合荧光特性,研究了葡聚糖荧光法测定时的各影响因素,建立了荧光法测定食药用菌功能性β-葡聚糖的方法。pH9.6缓冲液,80℃条件下避光反应15min,室温30min冷却后,398nm激发波长,508nm发射波长,20℃下进行荧光测定。在测定浓度2-20μg/mL范围内,荧光强度与浓度具有良好的线性关系(R2=0.9977),其中检出限为45μg/L,测定精密度和加样回收率良好,相对标准偏差(RSD)分别为1.86%和3.40%,并与酶法进行了比对验证,一致性良好,且荧光法更为节约时间和成本,并对灰树花菌、巴氏蘑菇、香菇和鲍氏针层孔菌四种食药用菌β-葡聚糖提取样品进行了葡聚糖纯度和提取率测定。 相似文献
17.
A microbial consortium capable of aerobic degradation of a mixture of azo dyes consisting of two isolated strains (RRL,TVM) and one known strain of Pseudomonas putida (MTCC 1194) was immobilized on laterite stones. The amount of bacterial biomass attached to the laterite stones was 8.64 g per 100 g of the stone on a dry weight basis. The packed bed reactor was filled with these stones and had a total capacity of 850 mL and a void volume of 210 mL. The feed consisted of an equal mixture of seven azo dyes both in water as well as in a simulated textile effluent, at a pH of 9.0 and a salinity of 900 mg/L. The dye concentrations of influent were 25, 50, and 100 microg/mL.The residence time was varied between 0.78 and 6.23 h. It was found that at the lowest residence time 23.55, 45.73, and 79.95 microg of dye was degraded per hour at an initial dye concentration of 25, 50, and 100 microg, respectively. The pH was reduced from 9.0 to 7.0. Simulated textile effluent containing 50 microg/mL dye was degraded by 61.7%. Analysis of degradation products by TLC and HPLC showed that the dye mixture was degraded to nontoxic smaller molecules. The bacteria-coated pebbles were stable, there was no washout even after 2 months, and the reactor was found to be suitable for the aerobic degradation of azo dyes. 相似文献