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1.
【目的】研究不同环境条件对2,4-二硝基甲苯(2,4-DNT)生物降解的影响。【方法】采用光合细菌球形红细菌在温度为30°C的光照培养箱中厌氧降解2,4-DNT,并用高效液相色谱仪测定其浓度。【结果】去除2,4-DNT的最佳条件是初始浓度40 mg/L、初始p H 7.0和接种量15%。另外,2,4-DNT在菌体延滞期被细胞吸收,然后在指数期作为碳源被降解。2,4-DNT的去除率在72 h达到98.8%。从液相色谱图中观察到有2种中间代谢产物,但在120 h内产物被逐渐降解。2,4-DNT的去除动力学符合一级速率模型。【结论】不同条件下2,4-DNT的去除率表明球形红细菌能有效降解2,4-DNT。  相似文献   

2.
【目的】研究Shewanella oneidensis MR-1厌氧生物转化2,4-二硝基甲苯(2,4-DNT)的能力、转化过程和影响因素。【方法】以乳酸钠为电子供体, 2,4-DNT为电子受体, S. oneidensis MR-1为降解菌, 黄素为胞外电子载体, 设立四个不同的对照体系并监测各体系在转化过程中2,4-DNT及其产物的动态变化。同时研究不同2,4-DNT浓度下细胞的生长情况, 以及不同黄素浓度下2,4-DNT的降解情况。【结果】S. oneidensis MR-1菌能够高效还原转化2,4-DNT为4-氨基-2-硝基甲苯(4A2NT)和2-氨基-4-硝基甲苯(2A4NT), 并将其进一步还原为2,4-二氨基甲苯(2,4-DAT), 黄素能加速转化过程。【结论】S. oneidensis MR-1菌具备高效还原转化2,4-DNT的能力, 为实际环境中硝基苯污染的原位修复提供科学依据。  相似文献   

3.
球形红细菌厌氧降解邻二氯苯及其机理研究   总被引:2,自引:0,他引:2  
研究分析光合细菌球形红细菌在厌氧光照条件下降解邻二氯苯的条件和机理.结果表明,在厌氧光照条件下球形红细菌的最佳生长和对邻二氯苯的最佳降解条件为:pH 7.0,温度为30℃,接种量10%.在最佳条件下,邻二氯苯的去除率可达90%以上;其降解中间产物主要有氯苯、4-羟基苯甲酸;根据降解产物的分析,推断球形红细菌降解邻二氯苯的机理主要是按照先脱掉一个氯原子生成氯苯,然后氯苯进一步脱氯并通过4-羟基苯甲酸的代谢途径开环进行.  相似文献   

4.
研究分析光合细菌球形红细菌在厌氧光照条件下降解邻二氯苯的条件和机理。结果表明, 在厌氧光照条件下球形红细菌的最佳生长和对邻二氯苯的最佳降解条件为:pH 7.0, 温度为30℃, 接种量10%。在最佳条件下, 邻二氯苯的去除率可达90%以上; 其降解中间产物主要有氯苯、4-羟基苯甲酸; 根据降解产物的分析, 推断球形红细菌降解邻二氯苯的机理主要是按照先脱掉一个氯原子生成氯苯, 然后氯苯进一步脱氯并通过4-羟基苯甲酸的代谢途径开环进行。  相似文献   

5.
一株养殖水体中亚硝酸盐去除菌的鉴定及其去除条件   总被引:2,自引:0,他引:2  
【目的】从养殖污泥中分离筛选优良亚硝酸盐去除菌,并对其去除条件进行研究。【方法】从养殖污泥中分离亚硝酸盐去除菌,进一步通过测定比较分离菌株对亚硝酸盐的去除率,筛选优良的亚硝酸盐去除菌,通过API ID32GN细菌鉴定系统以及16S rDNA序列分析法对其进行鉴定,并采用单因子法研究其去除亚硝酸盐的条件。【结果】从养殖污泥中分离筛选了一株优良的亚硝酸盐去除菌AQ-3,其对50 mg/L亚硝酸盐的去除率高达99.47%。菌株AQ-3被鉴定为鲍曼氏不动杆菌(Acinetobacter baumannii)(GenBank登录号:JF751054.1),其16S rDNA序列与基因库中不动杆菌属菌株的16S rDNA序列有99%?100%的同源性,而且与鲍曼氏不动杆菌KF714株(GenBank登录号:AB109775)的亲缘关系最近。菌株AQ-3去除亚硝酸盐的最适初始pH范围为7?9,最佳碳源为乙酸钠和丁二酸钠,而且随着初始菌浓度的不断增大,菌株AQ-3对亚硝酸盐的去除率显著升高;随着亚硝酸盐浓度的不断增大,菌株AQ-3对亚硝酸盐的去除率逐渐降低。【结论】在丰富亚硝酸盐去除菌种质资源的同时,为该菌在养殖水体中的实际应用提供了理论基础。  相似文献   

6.
张玉秀  蒙小俊  柴团耀 《微生物学报》2013,53(10):1117-1124
摘要:【目的】酚类物质的去除是焦化废水处理的关键问题,目的是从焦化废水中分离高效的苯酚降解细菌。【方法】以苯酚为唯一碳源筛选纯化降解苯酚细菌,菌株鉴定采用菌落形态和16S rRNA 序列分析方法,并研究其苯酚降解特性和在焦化废水中的除酚作用。【结果】菌落形态和16S rRNA序列比对分析表明分离的P1菌株为红球菌属(Rhodococcus sp.)细菌;其耐酚浓度高达1400 mg/L,苯酚降解的最适条件为32℃-42℃、pH 7.0和0-4%盐;苯酚降解动力学曲线符合Haldane动力学模型,qmax=0.517/h,Ks=77.487 mg/L,Ki=709.965 mg/L;不同重金属对红球菌P1菌株的苯酚降解抑制作用不同,Zn2+、Mn2+和低浓度的Pb2+对菌株降酚没有影响,Cu2+、Ni2+、Cd2+均抑制菌株对酚的降解;红球菌P1菌株2d内可完全降解1/3焦化原水中的279.9 mg/L酚类物质。【结论】P1菌株是1株高效的苯酚降解菌,具有生物处理焦化废水酚类物质的潜力。  相似文献   

7.
二氯喹啉酸降解菌MC-10的筛选、鉴定及其降解特性   总被引:1,自引:0,他引:1  
【目的】为治理稻-烟轮作田块上茬土壤中二氯喹啉酸残留问题,筛选高效降解细菌菌株。【方法】通过富集培养和选择培养,从常年施用二氯喹啉酸的水稻田中筛选可以降解二氯喹啉酸的细菌;对其进行形态学观察、生理生化特征测定和16S r DNA序列系统发育鉴定。【结果】分离的降解菌株MC-10被鉴定为节杆属菌株(Arthrobacter sp.)。菌株MC-10在5%接种量p H 7、28℃时,对初始浓度为20 mg/L二氯喹啉酸7 d可降解90%以上。该降解菌的最佳降解条件为p H 7、30℃,二氯喹啉酸初始浓度在1-100mg/L间均有良好的降解效果;菌株MC-10在土壤中对二氯喹啉酸同样有良好的降解效果,温室内7 d对二氯喹啉酸污染土壤的修复率可达70%。【结论】菌株MC-10在二氯喹啉酸污染土壤和水质治理中具有潜在的应用前景。  相似文献   

8.
【背景】啶虫脒等新烟碱类杀虫剂的残留易对非靶标生物造成伤害,投加高效降解细菌进行生物强化,可促进其快速降解。【目的】从蚯触圈中分离筛选啶虫脒降解菌并优化其降解条件,提高降解效率。【方法】制备蚯触圈基质富集筛选降解菌;通过生理生化特征和16S rRNA基因序列分析对其进行鉴定;利用单因素筛选、Plackett-Burman试验、最陡爬坡试验及Box-Behnken design试验优化菌株降解条件。【结果】分离得到1株啶虫脒降解菌D35,可在72 h内降解55.46%初始浓度为50 mg/L的啶虫脒,将其鉴定为一株假单胞菌(Pseudomonas sp.)。优化得到菌株降解啶虫脒的最佳环境条件为:胰蛋白胨10.19 g/L、温度为30℃、接种量为5.24%,pH 7.0、初始农药浓度50 mg/L,在此条件下72 h内菌株降解率为80.21%,较未优化前提高了24.75%。【结论】本研究对分离筛选新烟碱类杀虫剂降解菌的方法进行了探索,获得的菌株D35可高效降解啶虫脒,为快速消除环境中啶虫脒污染提供了新的微生物资源。  相似文献   

9.
圆红冬孢酵母利用生物乙醇废水-木薯粉水解液发酵产油   总被引:2,自引:0,他引:2  
【目的】获得能够高效降解生物乙醇废水化学需氧量(COD)的圆红冬孢酵母菌株,评估废水初始COD浓度对驯化菌株生长的影响,将木薯粉生产微生物油脂和高浓度有机废水降解过程整合,以生物乙醇废水为水源制备生物乙醇废水-木薯粉水解液培养基,明确产油效率高、生物乙醇废水COD降解率高的初始还原糖浓度。【方法】采用在高浓度的生物乙醇废水中进行多次驯化的方法,获得能够适应废水环境的圆红冬孢酵母菌株;采用双酶水解法对加入乙醇废水中的木薯粉进行水解;采用重量法监测生物量浓度变化,采用酸热法提取油脂,重铬酸钾法监测COD,DNS法测定废水还原糖浓度,凯氏定氮法测定总氮,钼酸铵比色法测定总磷。【结果】通过驯化筛选得到一株能耐受高浓度生物乙醇废水的优势菌株Rhodosporidium toruloides D5。以未稀释的废水为培养基,驯化菌株的最终生物量浓度和COD降解率分别为3.8 g/L和75.0%。采用生物乙醇废水-木薯粉水解液发酵时,控制初始还原糖浓度低于30 g/L时,生物量浓度和油脂浓度随初始还原糖浓度的升高而升高,均在120 h时达到最高COD降解率,初始还原糖浓度对达到的最大COD降解率无明显影响,废水N、P去除率分别达到99%和92%以上。【结论】在未经稀释的高浓度生物乙醇废水中可获得较高的生物量浓度;采用高浓度生物乙醇废水-木薯粉水解液培养基发酵产油,初始还原糖浓度为30 g/L,可在保证高油脂产量的同时,实现废水COD的高效降解,有效回收利用废水中残余的N、P源,从而降低微生物油脂生产和废水处理成本,研究结果可为开发廉价微生物油脂生产技术提供有用的参考。  相似文献   

10.
【目的】研究不同余氯浓度和暴露时间对细菌的去除效果,分析不同余氯条件对细胞ATP的影响。【方法】以河水中微生物群落为试验对象,利用流式细胞术(Flow cytometry,FCM)评估不同余氯浓度和暴露时间的灭活效果,检测不同余氯浓度时细胞内(外)ATP的变化情况。【结果】不同余氯浓度和暴露时间对细菌的去除效果产生不同的结果。在余氯浓度2 mg/L情况下,延长氯暴露时间可以增加细菌的去除效果,在余氯浓度≥2 mg/L条件下,较短氯暴露时间就可以灭活90%细菌。高核苷酸细菌(HNA)和低核苷酸细菌(LNA)表现出不同氯耐受能力,且HNA细菌相比LNA细菌较容易受到氯的损伤。细胞内ATP随余氯浓度增加而减少,在高浓度余氯条件下(≥2 mg/L)细胞外ATP才会增加。【结论】微生物活性随着余氯作用的增加而降低,FCM法和ATP检测法可以用于评估加氯消毒对微生物稳定性的影响。  相似文献   

11.
Growth and degradation of 2,4-dinitrotoluene (2,4-DNT) were compared in liquid cultures in shake flasks for Burkholderia sp. strain DNT and strain DNT engineered to produce Vitreoscilla (bacterial) hemoglobin (strain YV1). Parameters varied included aeration rate, initial 2,4-DNT concentration (50 and 200 ppm), and concentration and type of cosubstrate (yeast extract, succinate, casamino acids, and tryptic soy broth). 2,4-DNT degradation increased with increasing cosubstrate concentration and was greater for strain YV1 than strain DNT under most conditions tested; the greatest advantages of YV1 (up to 3.5-fold) occurred under limited aeration. A third strain (YV1m), derived from YV1 by repeated growth on 2,4-DNT-containing medium, demonstrated increased 2,4-DNT degradation (up to 1.3-fold compared to YV1) at 200 ppm 2,4-DNT. The growth profiles of the three strains with respect to each other were in general similar to those of the degradation patterns of 2,4-DNT.  相似文献   

12.
Basic knowledge of the plant transformation pathways and toxicity of 2,4-dinitrotoluene (2,4-DNT) will assist in the design and assessment of a phytoremediation strategy. This study presents the toxicity and fate of 2,4-DNT and gene expression in response to 2,4-DNT exposure using the model plant Arabidopsis thaliana, an increasingly popular system for genetic and biochemical studies of phytotransformation of explosives. From the results of biomass and root growth assays for toxicity, 2,4-DNT was toxic to the plants at concentrations as low as 1 mg/L. In the uptake study, 95% of the initial 2,4-DNT was removed by 15-day-old seedlings from liquid media regardless of the initial 2,4-DNT concentrations while 30% accounted for the adsorption to the autoclaved plant materials. The mass balance was over 86% using [U-14C]2,4-DNT, and the mineralization by the plants was less than 1% under sterile conditions during 14 days of exposure. The percentage of the bound radioactivity increased from 49% to 72% of the radioactivity in the plants, suggesting transformed products of 2,4-DNT may be incorporated into plant tissues such as lignin and cellulose. Monoaminonitrotoluene isomers and unknown metabolites with short retention times were detected as transformed products of 2,4-DNT by the plants. Most (68%) of the radioactivity taken up by the plants was in the root tissues in nonsterile hydroponic cultures. Glutathione and expression of related genes (GSH1 and GSH2) in plants exposed to 2,4-DNT were 1.7-fold increased compared to untreated plants. Genes of a glutathione S-transferase and a cytochrome P450, which were induced by 2,4,6-trinitrotoluene exposure in previous studies, were upregulated by 10- and 8-fold, respectively. The application of phytoremediation and the development of transgenic plants for 2,4-DNT may be based on TNT phytotransformation pathway characteristics because of the similar fate and gene expression in plants.  相似文献   

13.
Expression of vgb, encoding Vitreoscilla hemoglobin (VHb), in Burkholderia strain YV1 was previously shown to improve cell growth and enhance 2,4-dinitrotoluene (2,4-DNT) degradation compared with control strain DNT, especially under hypoxic conditions. In the work reported here, the ratio of 2,4-DNT degraded to oxygen uptake was approximately 5-fold larger for strain YV1 than for strain DNT. The addition of purified VHb to cytosolic fractions of strain DNT increased 2,4-DNT degradation 1.5-fold, compared with 1.1-fold for control bovine Hb, but increased the 2,4-DNT degradation 2.7-fold when added to partially purified 2,4-DNT dioxygenase, compared with 1.3-fold for bovine Hb. This suggests a direct transfer of oxygen from VHb to the oxygenase. In a bioreactor at high 2,4-DNT concentration (using 100 ml oleyl alcohol containing 2 g 2,4-DNT as the second phase) with 1.5 l culture, both strains could remove 0.8 g 2,4-DNT by 120 h; and, under the same conditions in a fed-batch reactor, the degradation increased to 1 g for strain YV1 but not for strain DNT.  相似文献   

14.
Transformation of 2,4-dinitrotoluene (2,4-DNT) by Alcaligenes JS867 undervarying degrees of oxygen limitation was examined. Complete 2,4-DNT removalwas observed under oxygen excess with near stoichiometric release (83%) of nitrite.Average kinetic parameters were estimated based on a dual-Monod biokinetic modelwith 2,4-DNT and O2 as growth limiting substrates. The negative impact of nitrite accumulation on the reaction rate was adequately described by inclusion of a noncompetitive inhibition term for NO2 -. Under aerobic conditions, max, KsDNT, andKiNO were 0.058(0.004) hr-1, 3.3(±1.3) mg 2,4-DNT/L, and 1.2(±pm0.2) hr-1, respectively. At increasing oxygen limitation, rates of 2,4-DNT disappearance and nitrite production decreased and incomplete removal of 2,4-DNT commenced. JS867 was able to use NO2 - as a terminal electron acceptor whengrown on glucose or succinate under anaerobic conditions. However, during growthon 2,4-DNT and under O2-limited conditions, JS867 did not use released nitrite as electron acceptor. The nearly constant molar ratios of DNT removed over NO2 - released under various degrees of oxygen limitation suggested that oxygenolytic denitration pathways continued. No evidence of nitroreduction was obtained under the examined oligotrophic conditions. JS867 displayed a high affinity for oxygen consumption with KSO2 value of 0.285(±0.198) mg O2/L. Our results indicate thatunder oligotrophic conditions with 2,4-DNT as dominant carbon source, oxygen availability and nitrite accumulation may limit 2,4-DNT biomineralization, but the accumulation of reduced 2,4-DNT transformation products will be small.  相似文献   

15.
The removal of 2,4-dinitrotoluene (2,4-DNT) by simultaneous UV-photo(cata)lysis and biodegradation was explored using intimately coupled photolysis/photocatalysis and biodegradation (ICPB) with two novel porous carriers. First, a porous ceramic carrier was used to attach the photocatalyst (TiO?) on its exterior and accumulate biomass in its interior. UV irradiation alone decomposed 71% of the 2,4-DNT in 60 h, and TiO? catalyst improved the photolysis to 77%. Second, a macroporous sponge carrier was used to strongly adsorb 2,4-DNT and protect microorganisms from 2,4-DNT inhibition and UV irradiation. The main photolytic reactions were reduction of the nitryl to amino and hydrolysis of the amino to release NH??. The main biodegradation reactions were oxidative release of NO?? and accelerated reductive release of NH??. ICPB more thoroughly released inorganic N, with nearly equal amounts being oxidized to nitrate and reduced to ammonium. The genera Burkholderia and Bacillus were found inside the sponge carriers, and they are associated with biodegradation of DNT and its photolysis intermediates. Therefore, using an adsorbent and macroporous biofilm carrier enabled the effective removal of 2,4-DNT by ICPB.  相似文献   

16.
ABSTRACT: BACKGROUND: Gene duplication is a major force that contributes to the evolution of new metabolic functions in all organisms. Rhodobacter sphaeroides 2.4.1 is a bacterium that displays a wide degree of metabolic versatility and genome complexity and therefore is a fitting model for the study of gene duplications in bacteria. A comprehensive analysis of 234 duplicate gene-pairs in R. sphaeroides was performed using structural constraint and expression analysis. RESULTS: The results revealed that most gene-pairs in in-paralogs are maintained under negative selection (omega [less than or equal to] 0.3), but the strength of selection differed among in-paralog gene-pairs. Although in-paralogs located on different replicons are maintained under purifying selection, the duplicated genes distributed between the primary chromosome (CI) and the second chromosome (CII) are relatively less selectively constrained than the gene-pairs located within each chromosome. The mRNA expression patterns of duplicate gene-pairs were examined through microarray analysis of this organism grown under seven different growth conditions. Results revealed that that ~62% of paralogs have similar expression patterns (cosine [greater than or equal to] 0.90) over all of these growth conditions, while only ~7% of paralogs are very different in their expression patterns (cosine < 0.50). CONCLUSIONS: The overall findings of the study suggest that only a small proportion of paralogs contribute to the metabolic diversity and the evolution of novel metabolic functions in R. sphaeroides. In addition, the lack of relationships between structural constraints and gene-pair expression suggests that patterns of gene-pair expression are likely associated with conservation or divergence of gene-pair promoter regions and other coregulation mechanisms.  相似文献   

17.
投加絮凝剂是促使微生物快速形成污泥颗粒的一种有效手段,通过研究在不同絮凝剂下生成的生物絮体的形态和沉降性能,推荐选用聚合氯化铝(PAC)作为促进光合细菌球形红细菌形成污泥颗粒的絮凝剂。PAC的最佳投加量范围为140-160mg/L,其中,PAC投加量150mg/L时,促进污泥颗粒化的效果最好。考察球形红细菌污泥颗粒降解氯苯的环境条件,结果表明球形红细菌污泥颗粒降解氯苯的最佳条件为好氧、pH7.0、30°C。  相似文献   

18.
We previously reported on the mineralization of 2,4-dinitrotoluene (2,4-DNT) and 2,6-dinitrotoluene (2,6-DNT) in an aerobic fluidized-bed bioreactor (FBBR) (Lendenmann et al. 1998 Environ Sci Technol 32:82-87). The current study examines the kinetics of 2, 4-DNT and 2,6-DNT mineralization at increasing loading rates in the FBBR with the goal of obtaining system-independent kinetic parameters. At each steady state, the FBBR was subjected to a set of transient load experiments in which substrate flux in the biofilm and bulk substrate concentrations were measured. The pseudo-steady-state data were used to estimate the biokinetic parameters for 2,4-DNT and 2,6-DNT removal using a mechanistic mathematical biofilm model and a routine that minimized the sum of the squared residuals (RSS). Estimated kinetic parameters varied slightly for each steady-state; retrieved parameters for qm were 0. 83 to 0.98 g DNT/g XCOD d for 2,4-DNT removal and 0.14 to 0.33 g DNT/g XCOD d for 2,6-DNT removal. Ks values for 2,4-DNT removal (0. 029 to 0.36 g DNT/m3) were consistently lower than Ks values for 2, 6-DNT removal (0.21 to 0.84 g DNT/m3). A new approach was introduced to estimate the fundamental biofilm kinetic parameter S*b,min from steady-state performance information. Values of S*b,min indicated that the FBBR performance was limited by growth potential. Adequate performance of the examined FBBR technology at higher loading rates will depend on an improvement in the growth potential. The obtained kinetic parameters, qm, Ks, and S*b,min, can be used to aid in the design of aerobic FBBRs treating waters containing DNT mixtures.  相似文献   

19.
An oxidative pathway for the mineralization of 2,4-dinitrotoluene (2,4-DNT) by Burkholderia sp. strain DNT has been reported previously. We report here the isolation of additional strains with the ability to mineralize 2,4-DNT by the same pathway and the isolation and characterization of bacterial strains that mineralize 2,6-dinitrotoluene (2,6-DNT) by a different pathway. Burkholderia cepacia strain JS850 and Hydrogenophaga palleronii strain JS863 grew on 2,6-DNT as the sole source of carbon and nitrogen. The initial steps in the pathway for degradation of 2,6-DNT were determined by simultaneous induction, enzyme assays, and identification of metabolites through mass spectroscopy and nuclear magnetic resonance. 2,6-DNT was converted to 3-methyl-4-nitrocatechol by a dioxygenation reaction accompanied by the release of nitrite. 3-Methyl-4-nitrocatechol was the substrate for extradiol ring cleavage yielding 2-hydroxy-5-nitro-6-oxohepta-2,4-dienoic acid, which was converted to 2-hydroxy-5-nitropenta-2,4-dienoic acid. 2,4-DNT-degrading strains also converted 2,6-DNT to 3-methyl-4-nitrocatechol but did not metabolize the 3-methyl-4-nitrocatechol. Although 2,6-DNT prevented the degradation of 2,4-DNT by 2,4-DNT-degrading strains, the effect was not the result of inhibition of 2,4-DNT dioxygenase by 2,6-DNT or of 4-methyl-5-nitrocatechol monooxygenase by 3-methyl-4-nitrocatechol.  相似文献   

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