苯酚降解菌的分离及培养特性研究

对南充市郊炼油厂活性污泥进行富集,驯化筛选得到2株能以苯酚作为唯一碳源和能源生长的菌株,编号为S1,S2,两菌株可耐10,000mg/L左右的苯酚浓度,实验得出其最佳生长条件为pH7-8,温度25℃-30℃,在适宜条件下,对苯酚有较好的降解能力,而且苯对两菌株的生长表现为抑制作用。     

好氧活性污泥体系中磺胺类抗生素生物降解的研究进展

磺胺类抗生素(Sulfonamides,SAs)是一类被广泛应用于医疗和畜禽养殖的抗菌药物,但其在人和动物肠道中的可降解性较差,会通过人及畜禽粪便和尿液的排放进入污水处理系统。目前,污水处理厂中的好氧活性污泥(Aerobic activated sludge,AAS)被证实能够有效转化SAs。文中基于对国内外文献的调研,总结了好氧活性污泥体系中SAs生物降解的研究进展,对生物降解机理、主要的生物降解途径和影响降解效率的环境因素进行了梳理与回顾,并针对现有研究的不足提出展望,以期为优化污水处理厂中SAs的生物降解提供科学依据。     

Purification and characterization of reaction centers from the obligate aerobic phototrophic bacteria Erythrobacter litoralis,Erythromonas ursincola and Sandaracinobacter sibiricus

Reaction centers (RC) from the species Erythrobacter (Eb.) litoralis, Erythromonas (Em.) ursincola and Sandaracinobacter (S.) sibiricus have been purified by LDAO treatment of light-harvesting-reaction center complexes and DEAE chromatography. The content and overall organisation of the RCs' chromophores, determined by linear dichroism (LD) and absorption spectroscopy, are similar to those isolated from anaerobic photosynthetic bacteria. The redox properties of the primary electron donor are pH-independent and very similar to those determined for anaerobic photosynthetic bacteria with midpoint potential values equal to 445 (± 10), 475 and 510 mV for Eb. litoralis, S. sibiricus and Em. ursincola, respectively. The RC purified from Eb. litoralis does not contain bound cytochrome (cyt), whereas RCs isolated from S. sibiricus and Em. ursincola possess a tetraheme cyt c. Each of these tetraheme cyts contains two high potential hemes and two low potential hemes. Their redox properties are very similar, with midpoint potentials equal to 385 (± 10), 305, 40, -40 mV for Em. ursincola and 355, 285, 30, -48 mV for S. sibiricus. At physiological pH, the midpoint potential of the primary electron acceptor (Q_A) varies with a slope of -60 mV/pH unit. The reduced form of Q_A presents pK values of 9, 9.8, 10.5 for S. sibiricus, Em. ursincola and Eb. litoralis, respectively. The main difference observed between RCs isolated from anaerobic photosynthetic and from obligate aerobic bacteria is the _Emvalues of Q_A which are 65 to 120 mV higher in the last case. This difference is proposed to be a major reason for the inability of these species to grow under anaerobic photosynthetic conditions.     

甲醇降解菌的分离及性质研究

对氮肥厂活污泥进行驯化筛选得到3株甲醇降解菌,可耐10,000mg/L左右的甲醇浓度,实验得出其最佳生长条件为：pH7-8、温度30℃－35℃、通气,在适宜条件下,对甲醇有较好的降解能力。     

两株苯酚降解菌的分离及降解特性的初步研究

从南昌钢铁公司焦化污水处理厂的活性污泥中分离出64株能降解苯酚的细菌,通过耐受性试验从中筛选出2株降解活性较高的苯酚降解菌,编号为F-38和F-64。研究表明:F-38和F-64都为G—菌,苯酚浓度越高,生长延滞期越长;两株菌降解苯酚基本发生在对数期,其对苯酚降解适宜条件为温度30℃,pH值8-9,通气有利于苯酚的降解。     

Isolation and characterization of thermophilic bacteria capable of degrading dehydroabietic acid.

Using a semi-continuous enrichment method, we isolated two thermophilic bacterial strains, which could completely degrade abietane resin acids, including dehydroabietic acid (DhA). Strain DhA-73, isolated from a laboratory-scale bioreactor treating bleached kraft mill effluent at 55 degrees C, grew on DhA as sole carbon source; while DhA-71, isolated from municipal compost, required dilute tryptic soy broth for growth on DhA. DhA-71 grew on DhA from 30 degrees C to 60 degrees C with maximum growth at 50 degrees C; while, DhA-73 grew on DhA from 37 degrees C to 60 degrees C with maximum growth at 55 degrees C. At 55 degrees C, the doubling times for DhA-71 and DhA-73 were 3.3 and 3.7 h, respectively. DhA-71 and DhA-73 had growth yields of 0.26 and 0.19 g of protein per g of DhA, respectively. During growth on DhA, both strains converted DhA to CO2, biomass, and dissolved organic carbon. Analyses of the 16S-rDNA sequences of these two strains suggest that they belong to two new genera in the Rubrivivax subgroup of the beta subclass of the Proteobacteria. Strains DhA-71 and DhA-73 are the first two bacteria isolated and characterized that are capable of biodegradation of resin acids at high temperatures. This study provided direct evidence for biodegradation of resin acids and feasibility for biotreatment of pulp mill effluent at elevated temperatures.     

Isolation and characterization of Bradyrhizobium sp. 224 capable of degrading sulfanilic acid

A bacterial strain (strain 224), which has the ability to utilize sulfanilic acid as a sole source of carbon, was isolated from soil. 16S rRNA gene sequence obtained from strain 224 exhibited 100% identical to that of species in the genus Bradyrhizobium. Strain 224 degraded 4.7 mM of sulfanilic acid and released almost the same molar concentration of sulfate ion     

中华通草蛉越冬成虫肠道可培养好氧细菌多样性分析

本研究以昆虫微生态学原理为指导探究中华通草蛉Chrysoperla sinica(Tjeder)的肠道菌群构成,为中华通草蛉的营养生理研究及人工繁殖利用提供理论依据和技术基础。采用无菌解剖及纯培养分离检测技术,从雌、雄成虫肠道环境中分离、纯化、培养,获得10个细菌菌株,对菌体形态、染色反应、培养形状、生理生化反应进行系统研究。结果表明,上述10个菌株分别属于摩根氏菌属(Morganella)、短小芽孢杆菌(Bacillus pumilus)、地杆菌属(Terrabacter)、爱德华氏菌属(Edwardsiella)、色杆菌属(Chromobacterium)、热黄杆菌(Flavobacterium thoupophilum)、放线杆菌属(Actinobacillus)、棍状杆菌属(Clavibacter)、邻单胞菌属(Plesiomonas)、预研菌属(Yokenella);越冬期雌、雄成虫肠道细菌的种类和数量存在较大差异,可能与雌、雄成虫不同的营养和生理需求有关,两者关系还需进一步研究。     

好氧氨氧化菌的种群生态学研究进展

好氧氨氧化菌是一类能够在好氧条件下将NH4^＋转化为NO2^-的化能无机自养型细菌,其活动将直接或间接影响土壤养分循环、水体富营养化、温室气体（N2O）和生态系统的功能。现代分子生物学技术的发展促进了人们对好氧氨氧化菌种群生态学的研究。介绍了近年来基于16SrRNA和氨单加氧酶amoA基因序列分析的好氧氨氧化菌的系统发育研究,比较了两种基因序列分析在好氧氨氧化菌遗传多样性研究中存在的差异;概述了环境条件诸如铵浓度、酸度、氧的可利用性、温度、盐度等对好氧氨氧化菌种类、数量及其种群生态分布的影响;阐述了好氧氨氧化菌对铵、氧饥饿的响应特征及其在酸性环境中的生存机制;并对今后好氧氨氧化菌的应用生态学研究及其主要方向进行了展望。     

帕米尔高原可培养需氧冷适应细菌及古菌多样性

【目的】帕米尔高原是贫营养、高辐射、干燥的冷环境,可能蕴藏丰富的冷适应微生物资源。本研究基于分离培养技术,探究帕米尔高原不同海拔梯度及不同培养条件下的冷适应微生物多样性。【方法】针对采集自帕米尔高原1000-2000m、2000-3000m、3000-4000m和4 000-5 000 m四个海拔梯度的土壤样品,选用TSA和R2A两种培养基于4°C进行冷适应细菌的分离培养,NOM和F6两种培养基于4°C和15°C进行冷适应古菌的分离培养。根据16S rRNA基因序列同源性对分离菌株进行鉴定,分析不同海拔梯度和不同培养条件的物种多样性及之间的差异性。【结果】本研究从帕米尔高原共分离得到419株需氧原核微生物,16S rRNA基因测序鉴定结果表明,分离菌株隶属于2个域、5个门、8个纲、18个目、28个科、49个属及118个种,为115种冷适应细菌及3种古菌。冷适应细菌中,γ-变形菌纲(Gammaproteobacteria)为第一优势纲,放线菌纲(Actinobacteria)中物种多样性最为丰富。高海拔地区的冷适应细菌物种多样性存在差异,海拔1 000-4 000 m的优势菌群均为γ-变...     

育龄妇女妊娠期需氧菌性阴道感染发病调查

目的 调查分析育龄妇女妊娠期需氧菌性阴道感染的发病率.方法 采用Donders高倍镜湿片镜检法联合细菌预成酶快速检测法对长兴县妇幼保健医院产前门诊常规孕检的育龄孕妇的阴道分泌物进行检查.结果 201例育龄孕妇中,共检出需氧菌性阴道感染患者36例,占总人数的17.9％.其中,孕早期、孕中期及孕晚期孕妇需氧菌增殖例数分别为5(占7.2％,5/69)、4(占7.4％,4/54)及6(占7.7％,6/78);孕早期、孕中期及孕晚期孕妇需氧菌阴道炎例数分别为7(占10.1％,7/69)、6(占11.1％,6/54)及8(占10.3％,8/78).结论 在妊娠早、中及晚期均会出现需氧菌性阴道感染,临床医生应采取合理有效的措施进行及时治疗,防止阴道上行感染的发生.     

Selection and isolation of bacteria capable of degrading dinoseb (2-sec-buty-4,6-dinitrophenol)

Dinoseb (2-sec-butyl-4,6-dinitrophenol) has been a widely used herbicide that persists in some contaminated soils, and has been found in groundwaters, causing health and environmental hazards. Persistence in some soils may stem from a lack of dinoseb-degrading organisms. We established a chemostat environment that was strongly selective for aerobic (liquid phase) and anaerobic (sediment phase) bacteria able to degrade dinoseb. The chemostat yielded five taxonomically diverse aerobic isolates that could transform dinoseb to reduced products under microaerophilic or denitrifying conditions, but these organisms were unable to degrade the entire dinoseb molecule, and the transformed products formed multimeric material. The chemostat also yielded an anaerobic consortium of bacteria that could completely degrade dinoseb to acetate and CO₂ when the Eh of the medium was less than-200 mV. The consortium contained at least three morphologically different bacterial species. HPLC analysis indicated that dinoseb was degraded sequentially via several as yet unidentified products. Degradation of these intermediates was inhibited by addition of bromoethane sulfonic acid. GC-MS analysis of metabolites in culture medium suggested that regiospecific attacks occurred non-sequentially on both the nitro groups and the side-chain of dinoseb. The consortium was also able to degrade 4,6-dinitro-o-cresol, 3,5-dinitrobenzoic acid, 2,4-dinitrotoluene, and 2,6-dinitrotoluene via a similar series of intermediate products. The consortium was not able to degrade 2,4-dinitrophenol. To our knowledge, this is the first report of strictly anaerobic biodegradation of an aromatic compound containing a multicarbon, saturated hydrocarbon side chain.Abbreviations BESA bromoethane sulfonic acid - RAMM reduced anaerobic mineral medium     

Isolation and characterization of lignin‐degrading bacteria from rainforest soils

The deconstruction of lignin to enhance the release of fermentable sugars from plant cell walls presents a challenge for biofuels production from lignocellulosic biomass. The discovery of novel lignin‐degrading enzymes from bacteria could provide advantages over fungal enzymes in terms of their production and relative ease of protein engineering. In this study, 140 bacterial strains isolated from soils of a biodiversity‐rich rainforest in Peru were screened based on their oxidative activity on ABTS, a laccase substrate. Strain C6 (Bacillus pumilus) and strain B7 (Bacillus atrophaeus) were selected for their high laccase activity and identified by 16S rDNA analysis. Strains B7 and C6 degraded fragments of Kraft lignin and the lignin model dimer guaiacylglycerol‐β‐guaiacyl ether, the most abundant linkage in lignin. Finally, LC–MS analysis of incubations of strains B7 and C6 with poplar biomass in rich and minimal media revealed that a higher number of compounds were released in the minimal medium than in the rich one. These findings provide important evidence that bacterial enzymes can degrade and/or modify lignin and contribute to the release of fermentable sugars from lignocellulose. Biotechnol. Bioeng. 2013; 110: 1616–1626. © 2013 Wiley Periodicals, Inc.     

Effects of microwave and alkali induced pretreatment on sludge solubilization and subsequent aerobic digestion

Individual and combined effects of microwave (MW) and alkali pretreatments on sludge disintegration and subsequent aerobic digestion of waste activated sludge (WAS) were studied. Pretreatments with MW (600 W-85 °C-2 min), conventional heating (520 W-80 °C-12 min) and alkali (1.5 g NaOH/L - pH 12-30 min) achieved 8.5%, 7% and 18% COD solubilization, respectively. However, combined MW-alkali pretreatment synergistically enhanced sludge solubilization and achieved 46% COD solubilization, 20% greater than the additive value of MW alone and alkali alone (8.5 + 18% = 26.5%). Moreover, the results of the batch aerobic digestion study on MW-alkali pretreated sludge showed 93% and 63% reductions in SCOD and VSS concentrations, respectively, at 16 days of SRT. The VSS reduction was 20% higher than that of WAS without pretreatment.     

Isolation and characterization of surfactant degrading bacteria in a marine environment

Abstract Sea water and sediment samples taken near the coasts of Hyeres bay (France) were used for anionic surfactant titrations with surface and bottom waters and the finest part of sediments. The capacity for surfactant degradation by the 'in situ' microflora was evaluated. By using a selective plating technique 26 strains able to utilize anionic surfactant were isolated from the selected bacterial communities. Their ability to degrade anionic surfactant was verified according to the biodegradation standard method. Isolated strains were characterized by morphological and physiological properties using API 20 NE micro-method. All tested strains were Gram negative, strictly aerobic, rod or helical shaped. Their weak utilization of phenolic substrates suggests that they degrade preferentially the alkyl chain of the surfactant molecule. Biodegradation was more efficient with bacterial communities rather than with any isolated strains. Such observations indicate that complete mineralization involves several other so far non-isolated strains which complete the degradation initiated by the isolated strains.     

好氧反硝化聚磷菌的筛选及菌群构建优化

【背景】近年来,随着海水养殖规模的扩大,养殖产品产生的排泄物与残留的饲料大量积累,导致养殖水域的氮磷元素含量上升,水体富营养化加剧并对环境造成危害。【目的】从红树林人工湿地中筛选出好氧反硝化聚磷菌株并研究各菌株的最佳除氮除磷效率,随后通过响应面法构建菌群,进一步强化菌株去除污染物的能力。【方法】将前期筛选出的5株耐盐异养硝化-好氧反硝化菌通过异染颗粒染色和聚-β-羟基丁酸(poly-β-hydroxybutyricacid,PHB)染色进行好氧反硝化聚磷菌的筛选,通过单因素试验明确各菌株的最佳除氮除磷条件,并利用Design-Expert软件和Box-Benhnken响应面法进行配比试验。【结果】经过筛选获得3株耐盐好氧反硝化聚磷菌,分别为肺无色杆菌(Achromobacter pulmonis) strain E43、氧化木糖无色杆菌(Achromobacterxylosoxidans)strainJ1和食油假单胞菌(Pseudomonasoleovorans)strain F2,发现菌株E43具有聚磷功能,确定了耐盐好氧反硝化聚磷菌群的最优降解投加比例为E43:J1:F2=1:1:...     

贫营养好氧反硝化菌群的水库原位投菌脱氮特性北大核心CSCD

【目的】分析水深和温度对好氧反硝化菌群的影响并探索其脱氮特性,以期为微污染水库水生物脱氮提供依据。【方法】从微污染水源水库表层沉积物中富集、驯化、筛选得到贫营养好氧反硝化混合菌群;应用好氧反硝化混合菌进行硬质瓶子和软质瓶子水库原位投菌实验分析其脱氮性能。【结果】实验结果表明:硬质瓶子系统(无水压影响)各个水深下的硝氮完全去除,软质瓶子(有水压影响)在0.5、5.0 m达到90.66%和100%,其余水深最大为99.61%、80.55%、67.01%和64.73%;亚硝氮并没有出现积累;氨氮由于实验后期菌体的死亡略有上升;水深0.5、5.0、7.5、10.0、12.5、15.0 m下的总氮在实验结束时,硬质瓶子的去除率达到50.11%、61.49%、56.24%、44.50%、36.80%和38.73%,软质瓶子达到33.47%、60.61%、43.98%、36.28%、27.52%和28.57%;OD_(600)与p H都出现先升后降的变化,DO在3–8 mg/L。混合菌在11–30°C表现出很好的脱氮能力,并随着温度上升而增加;水压对脱氮有不利影响。【结论】该混合菌温度适应性很强,静水压对其脱氮过程有抑制作用。     

Bioremediation potential of hydrocarbon degrading bacteria: isolation,characterization, and assessment

Oil contamination is a worldwide concern now. However, oil contaminated environment is enriched with microorganisms that can utilize petroleum oil and use hydrocarbon for their growth, nutrition and metabolic activities. In the present study, bacteria present in the oil contaminated soil were isolated by enrichment culture technique using Minimal Salt (MS) media supplemented with diesel oil and burned engine oil as a sole carbon source. The isolated bacteria were characterized by morphological and biochemical tests and identified by molecular tool through cycle sequencing method. Three isolates were morphologically characterized as gram-negative, cocci shaped and 16S rRNA sequence analysis revealed that the isolates are closely related to Pseudomonas sp., Acinetobacter sp., and Enterobacter sp. respectively. Growth condition was optimized at pH 7.0 and temperature 37 °C. All the isolates were susceptible to several antibiotics and they have no antagonistic effect with soil beneficial bacteria. Three isolates were grown in two different concentrations of diesel oil and burned engine oil (4% v/v and 8%, v/v) respectively. Study revealed that with increasing the concentration of diesel oil in the media the growth rate of all the isolates were decreased. In contrast, the growth rates of all the three isolates were increased, with increasing concentration of burned engine oil. In our study, all the isolates showed their degradation efficacy in 4% v/v diesel oil and in 8% v/v burned engine oil. So, our research clearly shows that the isolates could be potentially used for bioremediation purposes for cleaning up petroleum polluted area.