一株海洋产电菌Shewanella sp. S2的筛选和产电分析

以厦门白城海域的潮间带表面沉积物为菌种来源筛选得到一株具有电催化活性的菌株S2,该菌株的16S rRNA和gyrB基因发育树与Shewanella oneidensis MR-1同支,相似性分别为98.5%和87%,葡萄糖、木糖、半乳糖等碳源利用及最佳生长的NaCl浓度与S.oneidensis MR-1有显著差别,因此初步鉴定为Shewanella属菌株,命名为Shewanella sp.S2。初步研究了菌株S2产电活性,在以乳酸作为碳源产电时,电压最高为150mV,相应的电流密度为66.1mA/m2。     

4株高效产电菌的电化学活性及其生物学特征

采用循环伏安法对从湖南省吉首大田湾污水处理厂曝气池活性污泥中富集和筛选的37株产电菌的电化学活性进行考察。结果发现,4株菌株（F012、F015、F021、F026）的电化学活性较为显著,其中F026的电化学活性最好。对4株产电菌的系统发育分析表明,菌株F012属于Dyella属,与Dyella marensis CS5-B2^T系统发育关系最为密切（相似性为97.22%）;菌株F015属于Paludibacterium属,与该属的Paludibacterium yongneupense 5YN8-15^T系统发育关系最为密切（相似性为97.70%）;菌株F021和F026都属于Pseudomonas属,分别与该属的Pseudomonas simiae OLi^T和Pseudomonas otitidis MCC10330^T系统发育关系最为密切（相似性分别为99.60%和98.62%）。生物学特性研究表明,电化学活性最好的产电菌F026的生长温度范围为20~40 ℃,最适宜生长温度为30~35 ℃;生长pH范围为5~9,最适pH生长范围为8~9,适合作为微生物燃料电池的高效产电菌。     

一株耐盐产电菌Shewanella algae E-1的分离及其产电特性分析

【背景】产电微生物的种类和电化学活性机制对微生物燃料电池的产电性能有着重要的影响。【目的】从海水中分离获得一株耐盐产电微生物,研究其产电特性并鉴定种属信息。【方法】以取自南海的海水为接种液启动并运行阳极液中含有不同盐浓度的微生物燃料电池,从富集的阳极生物膜上分离得到一株纯培养的微生物菌株,命名为E-1。通过接种于阳极液中添加不同盐浓度的微生物燃料电池中对其产电特性进行分析,并利用形态学观察、Biolog分析和16SrRNA基因序列比对相结合的方法进行种属鉴定。【结果】菌株E-1在无外源添加和外源添加6.6%NaCl条件下产生的功率密度分别为51.69 m W/m2和26.56 m W/m2,这与其良好的耐盐能力相关。菌株E-1被鉴定为海藻希瓦氏菌(Shewanella algae),表现出多样的底物利用能力,生长的温度范围为25-40°C,pH范围为5.0-10.0。【结论】这是首次对Shewanella algae种内微生物产电性能及其在微生物燃料电池中应用的报道,丰富了产电微生物的多样性,菌株E-1能够在较高盐浓度条件下表现出良好的产电性能,为微生物燃料电池在海水资源化处理方面的应...     

微生物燃料电池中假单胞菌F026的产电性能研究

基于微生物燃料电池的反应装置,从污水处理厂曝气池的污泥中通过富集,筛选和基于16S rRNA基因序列的系统发育分析等手段驯化出1株高效产电假单胞菌F026。以F026为阳极产电菌制作微生物燃料电池,考察了底物种类、温度和p H值等因素对微生物燃料电池产电性能的影响。结果表明,F026最适合在以可溶性淀粉为底物,p H为中性偏碱性,温度在30~35℃的环境下生长。在此条件下,微生物燃料电池的最高电压达到500 m V,体积功率密度达到2 W/m3。     

微生物燃料电池中产电微生物的系统发育分析及筛选

对污水处理厂曝气池的产电微生物进行富集并利用纯培养法筛选,采用基于16S rRNA基因序列的系统发育分析方法研究了产电微生物的生物多样性,并基于三电极体系绘制出的循环伏安曲线鉴别出产电性能较强的纯菌株。结果表明,菌株F003、F042和F050与其系统发育关系最密切的有效发表种的典型菌株的16S rRNA基因序列存在较大差异,分别代表新的分类单元。之后又对所获得的38株菌株进行电化学测试活性,得出4株活性较强的菌株,其中菌株F010和F017的电化学活性比菌株F007和F051更为显著。     

产电微生物及微生物燃料电池最新研究进展

新型产电微生物(Electricigens)的发现,使得微生物燃料电池概念的内涵发生了根本性的变化,展现了广阔的应用前景。这种微生物能够以电极作为唯一电子受体,把氧化有机物获得的电子通过电子传递链传递到电极产生电流,同时微生物从中获得能量而生长。这种代谢被认为是一种新型微生物呼吸方式。以这种新型微生物呼吸方式为基础的微生物燃料电池可以同时进行废水处理和生物发电,有望可以把废水处理发展成一个有利可图的产业,是MFC最有发展前景的方向。     

微生物燃料电池中阳极产电微生物的研究进展

微生物燃料电池（MFC）是利用阳极产电微生物为催化剂降解有机废物直接将化学能转化为电能的装置。在MFC系统中,产电微生物是影响产电性能的核心要素之一。介绍了MFC中产电微生物的最新研究现状,详细讨论了产电微生物的种类、产电机理和产电能力．为产电微生物的富集、驯化、改造和多种菌种优化组合提供思路。     

“共轭聚合物-产电菌”复合生物电极构建及其在微生物燃料电池中的应用

微生物燃料电池(Microbial fuel cell,MFC)作为一种生物电化学装置,在可再生能源生产和废水处理方面的巨大潜力已引起广泛关注。然而MFC面临输出功率低、欧姆内阻高以及启动时间长等问题,极大限制了其在实际工程中的应用。MFC中阳极是微生物附着的载体,对电子的产生及传递起着关键作用,开发优质的生物电极已发展成为改善MFC性能的有效途径。共轭聚合物具有成本低、电导率高、化学稳定性及生物相容性好等优点,利用共轭聚合物修饰生物电极结构,可以实现大比表面积、缩短电荷转移路径,从而实现高效生物电化学性能。同时,纳米级共轭聚合物包覆细菌,可以使细菌产生的电子有效地传递到电极。文中综述了最近报道的共轭聚合物在MFC中的应用,重点介绍了共轭聚合物修饰的MFC阳极,系统分析了共轭聚合物的优点及局限性,以及这些高效复合生物电极如何解决MFC应用中存在的低输出功率、高欧姆内阻及长启动时间等问题。     

微生物燃料电池中产电微生物的研究进展

产电微生物是微生物燃料电池系统的核心组成, 本文从生物学角度介绍了几种产电微生物的分类学地位、形态特征、生理生化特征及在微生物燃料电池中的产电机理和产电能力, 分析了利用产电微生物进行废水处理同时生物发电的应用前景, 提出产电微生物在MFC系统中的进一步研究方向为微生物的富集、驯化、改造和多种菌种优化组合等。     

一株产酸蜡样芽孢菌的筛选鉴定及发酵条件优化

从牛粪中分离得到一株产酸芽孢菌GF1,经鉴定为蜡样芽孢杆菌,该菌株发酵最低pH值可达到4.25,发酵最终芽孢率可达到90%以上,对该菌株液体发酵培养发现GF1具有良好的生长性能,通过优化培养条件和培养基中的C源、N源,最终确定GF1发酵条件为:发酵液初始pH值7.5,摇床转速220 r/min,培养温度35℃,培养时间48 h,配方为:酵母膏0.5%,蛋白胨0.6%,葡萄糖1.0%,K2HPO4 0.5%,MgSO4 0.02%,MnSO40.08%.     

Anode microbial communities produced by changing from microbial fuel cell to microbial electrolysis cell operation using two different wastewaters

Conditions in microbial fuel cells (MFCs) differ from those in microbial electrolysis cells (MECs) due to the intrusion of oxygen through the cathode and the release of H₂ gas into solution. Based on 16S rRNA gene clone libraries, anode communities in reactors fed acetic acid decreased in species richness and diversity, and increased in numbers of Geobacter sulfurreducens, when reactors were shifted from MFCs to MECs. With a complex source of organic matter (potato wastewater), the proportion of Geobacteraceae remained constant when MFCs were converted into MECs, but the percentage of clones belonging to G. sulfurreducens decreased and the percentage of G. metallireducens clones increased. A dairy manure wastewater-fed MFC produced little power, and had more diverse microbial communities, but did not generate current in an MEC. These results show changes in Geobacter species in response to the MEC environment and that higher species diversity is not correlated with current.     

Isolation and characterization of polycyclic aromatic hydrocarbons-degrading Sphingomonas sp. strain ZL5

A bacterial strain ZL5, capable of growing on phenanthrene as a sole carbon and energy source but not naphthalene, was isolated by selective enrichment from crude-oil-contaminated soil of Liaohe Oil Field in China. The isolate was identified as a Sphingomonas sp. strain on the basis of 16S ribosomal DNA analysis. Strain ZL5 grown on phenanthrene exhibited catechol 2,3-dioxygenase (C23O) activity but no catechol 1,2-dioxygenase, gentisate 1,2-dioxygenase, protocatechuate 3,4-dioxygenase and protocatechuate 4,5-dioxygenase activities. This suggests that the mode of cleavage of phenanthrene by strain ZL5 could be meta via the intermediate catechol, which is different from the protocatechuate way of other two bacteria, Alcaligenes faecelis AFK2 and Nocardioides sp. strain KP7, also capable of growing on phenanthrene but not naphthalene. A resident plasmid (approximately 60 kb in size), designated as pZL, was detected from strain ZL5. Curing the plasmid with mitomycin C and transferring the plasmid to E. coli revealed that pZL was responsible for polycyclic aromatic hydrocarbons degradation. The C23O gene located on plasmid pZL was cloned and overexpressed in E. coli JM109(DE3). The ring-fission activity of the purified C23O from the recombinant E. coli on dihydroxylated aromatics was in order of catechol > 4-methylcatechol > 3-methylcatechol > 4-chlorocatechol > 3,4-dihydroxyphenanthrene > 3-chlorocatechol.     

高抑菌活性乳酸杆菌的筛选及性质

从自酿酸奶中分离得到1株高抑菌活性菌株,经16S rDNA测序后鉴定为Lactobacillus sp.FSZ。以大肠杆菌、金黄色葡萄球菌为指示菌,取得良好抑菌效果。经组分分析及蛋白酶降解,抑菌活性物质确定为蛋白物质,推测其由一些高分子的蛋白类物质和低分子的多肽类物质组成。抑菌活性物质在酸性条件下显示出良好的抑菌活性,发酵液经60℃处理30 min后,活性基本没有下降,经100℃处理30 min仍保留83.9%的活性,表现出良好的热稳定性。     

一株高产表面活性剂的南极土地杆菌的分离及其特性

【背景】生物表面活性剂具有毒性低、生物兼容性好和可降解等优点,是化学表面活性剂的优良替代物。目前产生物表面活性剂的微生物多为常温菌,从低温环境中挖掘高产新型生物表面活性剂的生产菌株具有重要的意义。【目的】从南极土壤中筛选产表面活性剂的低温微生物,对其表面活性剂进行纯化和结构解析并评估其性能。【方法】采用排油圈法对分离自南极菲尔德斯半岛土壤样品中的细菌菌株进行筛选,获得一株在菌苔表面产白色固体颗粒的菌株,对菌株进行形态观察和16SrRNA基因序列分析以确定该菌株系统发育地位。利用高效液相色谱法(high performance liquid chromatography, HPLC)分离产物,并用核磁共振波谱(nuclear magnetic resonance,NMR)技术对产物的化学结构进行鉴定。采用单因素试验和响应面设计方法对发酵培养基进行优化。此外,对产物的乳化性能及其对柴油的降解能力进行评估。【结果】得到了一株高产生物表面活性剂的耐冷土地杆菌属(Pedobacter)GW9-17,其最优发酵培养基(g/L)组成为：可溶性淀粉18.0、胰蛋白胨9.0、C3H3NaO3 4.4、K...     

Isolation and characterization of alkane-utilizing Nocardioides sp. strain CF8

A butane-utilizing bacterial strain CF8 was isolated and identified as a member of the genus Nocardioides from chemotaxonomic and 16S rDNA sequence analysis. Strain CF8 grew on alkanes ranging from C(2) to C(16) in addition to butane and various other substrates including primary alcohols, carboxylic acids, and phenol. Butane degradation by strain CF8 was inactivated by light, a specific inactivator of copper-containing monooxygenases. The unique thermal aggregation phenomenon of acetylene-binding polypeptides was also observed for strain CF8. These results suggest that butane monooxygenase in strain CF8 is a third example of the copper-containing monooxygenases previously described in ammonia oxidizers and methanotrophs.     

Isolation and characterization of heterocysts from Anabaena sp. strain CA

A comparative study has been made on the pigment composition and nitrogenase activity of whole filaments and isolated beterocysts from a mutant strain of Anabaena CA. The whole cell absorption spectra of intact filaments and isolated heterocysts showed close resemblance especially between 550–700 nm region. On a quantitative basis the chlorophyll a content was found almost equal between the vegetative cell and heterocyst but the c-phycocyanin content in the heterocyst was about 1/2 that of the vegetative cell. The purification of the phycobiliprotein on DEAE-cellulose showed the presence of c-phycocyanin (_max 615 nm) and allophycocyanin (_max 645 nm, shoulder 620 nm). Isolated heterocysts under H₂ showed acetylene reduction rates of 57 nmol C₂H₄/mg dry wt·min (342 mol C₂H₄/mg chl a·h), whereas intact filaments reduced at the rate of 18 nmol C₂H₄/mg dry wt·min (108 mol C₂H₄/mg chl a·h). This rate accounts for 30% recovery of nitrogenase activity in isolated heterocysts compared to whole filaments. The activity was strictly light dependent and was linear under H₂ for more than 3 h. Addition of as little as 5% H₂ under argon stimulated the C₂H₂ reductionseveral fold. The acetylene reduction (nitrogenase activity) also showed tolerance to 5% added O₂ either under H₂ or argon. The results suggest that the heterocyst of Anabaena CA-V is different in some characteristics (viz., higher endogenous C₂H₂ reduction rate, prolonged activity and higher levels of phycobiliproteins) than those reported in other Anabaena species.     

Isolation and characterization of an atrazine-degrading Rhodococcus sp. strain MB-P1 from contaminated soil

Aims:  The aim of this study is to isolate and characterize organisms capable of utilizing high concentration atrazine from the contaminated sites.
Methods and Results:  A selective enrichment was used for isolating atrazine-degrading organisms from the contaminated sites resulting in isolation of an efficient atrazine-degrading organism designated as strain MB-P1. On the basis of 16S rRNA gene sequencing, total cellular fatty acid analysis and physiological and biochemical tests, strain MB-P1 was identified as a member of genus Rhodococcus . High performance liquid chromatography was performed to identify the atrazine degradation intermediates demonstrating that the degradation proceeds via formation of 'de-ethylatrazine' and 'de-isopropylatrazine'. Further, plasmid curing by SDS method showed atrazine-degrading gene(s) to be plasmid-encoded.
Conclusions:  We have successfully isolated a Rhodococcus sp. strain MB-P1 which is capable of utilizing atrazine as sole source of carbon and energy at very high concentrations of 1000 ppm. The pathway for degradation of atrazine has also been determined. The metabolic gene(s) responsible for atrazine degradation was found to be plasmid-encoded.
Significance and Impact of the Study:  Rhodococcus sp. strain MB-P1 could be used as an ideal model system for in-situ degradation and restoration of ecological niches which are heavily contaminated with atrazine.     

Isolation, characterization and antioxidative activity of C-phycocyanin from Limnothrix sp. strain 37-2-1

C-phycocyanin (C-PC) is a blue colored accessory photosynthetic pigment found in cyanobacteria. Some of the medicinal properties of Spirulina have been attributed to this pigment, which includes anticancer, antioxidant, and anti-inflammatory activity. We have screened cyanobacteria isolated from freshwater habitats in Florida for their high content of C-PC. Of 125 strains tested, one filamentous strain identified as Limnothrix sp. was selected for further research. This strain produced 18% C-PC of total dry biomass. Here we describe a simple method for obtaining C-PC of high purity without the use of ion exchange chromatography. The procedure is based on pigment precipitation from the cell lysate with an appropriate concentration of ammonium sulfate, then purification with activated carbon and chitosan, followed by a sample concentration using tangential flow filtration. We have shown that when the lower concentration of ammonium sulfate was used, C-PC with higher purity index was recovered. Characterization of C-PC from Limnothrix showed that it had an absorbance maximum at 620nm and fluorescence at 639nm. The molecular mass of intact C-PC was estimated to be ~50kDa with α and β subunits forming dimmers. When C-PC content per unit biomass was compared to that of marketed Spirulina powder, we found that Limnothrix was superior. C-phycocyanin from Limnothrix had an antioxidative activity on DPPH free radicals similar to that found in a natural antioxidant - rutin.