角蛋白酶生产菌株的分离筛选与鉴定

【目的】分离筛选具有高效脱毛能力的野生角蛋白酶生产菌株,开发无硫制革生物脱毛剂。【方法】以贮备原料皮的特定环境中的污水样品为菌株源、在含诱导物脱脂羊毛粉的培养基中的富集、筛选与评估其发酵液脱毛能力的多相筛选方法分离选育高产角蛋白酶野生菌株。通过形态学、生理生化特征,Biolog全自动分析以及16SrDNA基因序列分析等方法多尺度地鉴定目的菌株。【结果】定向筛选得到了一株高活力,无硫脱毛效率高的菌株。鉴定结果表明,该菌株为地衣芽孢杆菌属,故命名为地衣芽孢杆菌(Bacillus licheniformis)X-47。【结论】应用多相定位选育技术筛选出的菌株地衣芽孢杆菌(Bacillus licheniformis)X-47,产角蛋白酶活力高,脱毛效率高,对胶原作用力弱的特点,具有开发无硫脱毛生物助剂的潜力。     

好氧反硝化菌的选育及其初步应用

采用间歇曝气、极限稀释和酸碱指示剂培养基相结合的办法,从池塘底泥中成功分离到好氧反硝化菌株H2,经生理生化和16S rDNA序列分析,初步判断为芽孢杆菌属(Bacillus sp.).在室内模拟养殖水体中,菌株H2在15 d中对亚硝酸盐和硝酸盐的最高降解速率分别达到0.885 mg/L·d和0.46 mg/L·d,试验结束时,总氮去除率达到45.2%.结果表明,菌株H2具有应用于养殖水体生物脱氮领域的巨大潜力.     

两株好氧反硝化聚磷菌的筛选、鉴定及水质净化研究

旨在从环境样品中筛选对富营养化水体具有良好脱氮除磷效果的好氧反硝化菌。采集福州某养猪场污水处理池中的水样。通过反硝化细菌培养基培养、BTB培养基平板分离、硝酸盐还原试验和蓝白斑筛选法、异染颗粒以及聚-β-羟基丁酸(PHB)颗粒染色试验,筛选获得两株具有脱氮除磷特性的菌株,命名为N1和N2。经16S r RNA基因序列分析,N1和N2分别属于无色杆菌属(Achromobacter.sp)和短波单胞菌属(Brevundimonas.sp)。将菌株N1和N2复配,获得脱氮除磷复合菌FIM-1。考察了菌株对人工合成污水和富营养化水体脱氮除磷的效果。结果表明,两株菌在含磷量较低的水体中,对磷的去除率较高,相对于单菌,复合菌表现出更佳的脱氮除磷效果。     

一株高效去除亚硝酸氮细菌的分离鉴定及其脱氮特性研究

【目的】从南美白对虾养殖塘中分离到高效去除亚硝酸氮的细菌, 对其分类和脱氮特性进行了研究。【方法】 以除亚硝酸氮为主要指标, 取养殖塘底层水样分离筛选菌株; 依据16S rRNA基因序列和生理生化特征初步鉴定菌株; 研究不同碳源、碳氮比、起始pH、温度、摇床转速和氯化钠浓度对反硝化除亚硝酸氮的影响, 并考查了菌株对硝酸氮和氨氮的利用情况。【结果】得到的菌株中菌株FP6活性最高, 初步鉴定菌株FP6属于地衣芽孢杆菌。菌株FP6的生长最适脱氮碳源为蔗糖, 菌株FP6去除亚硝酸氮有高活性的条件范围为: C/N值15?25、起始pH 7.0?10.0、温度20 °C?37 °C、摇床转速0?200 r/min和氯化钠浓度0?40 g/L。菌株FP6对硝酸氮和氨氮都有一定的去除能力, 利用硝酸氮时不积累亚硝酸氮。【结论】地衣芽孢杆菌FP6具有优良的除亚硝氮特性, 适宜的温度、pH和盐度范围较宽。     

一株异养脱硫反硝化菌株的筛选及其生物脱硫脱氮特性研究

【目的】从生物脱硫脱氮EGSB-DSR反应器的污泥中分离筛选出具有生物脱硫脱氮特性的细菌,并对其生物脱硫脱氮的性能进行研究。【方法】采用Hungate厌氧滚管技术筛选功能微生物,从稳定运行的生物脱硫脱氮EGSB-DSR反应器的污泥中分离筛选出一株高效的生物脱硫脱氮细菌A2。【结果】经过16S rRNA基因序列鉴定,菌株A2为固氮弧菌属(Azoarcus sp.)。其典型特征为能够以有机碳作为电子供体,将亚硝酸盐或者硝酸盐转化为氮气的同时还能将硫化物氧化为硫单质。因此具备了高效同步代谢有机碳、NO3–和S2–的特征。这是首次关于固氮弧菌属能够进行反硝化脱硫的相关报道。对菌株A2的生物脱硫脱氮能力的分析表明,在硫化物S2–浓度200 mg/L,NO3?浓度87.5 mg/L,乙酸根离子浓度200 mg/L的条件下,菌株A2在20 h内完成对碳、氮、硫的脱除。菌株对于碳、氮去除率均达到99%,对于硫的去除率达到95%。【结论】结果表明固氮弧菌属A2具有高效的生物脱硫脱氮功能,将有望成为强化生物脱硫脱氮工艺的潜在微生物资源。     

北戴河海洋沉积物中L-半胱氨酸脱硫细菌的多样性及其特性

【背景】脱硫细菌对有机硫的脱硫作用在硫的生物地球化学循环以及脱硫工业中都起着重要的作用。【目的】了解海洋沉积物中可分解有机物产生硫化氢的细菌多样性。【方法】对我国北戴河海洋沉积物中可培养的L-半胱氨酸脱硫细菌进行分离与筛选,通过对其16SrRNA基因序列测定与分析,构建系统发育树,并对其脱硫、脱氮能力进行检验。【结果】从海洋沉积物中分离得到97株细菌,从以L-半胱氨酸为硫源的培养基中筛选出62株有机脱硫专一型细菌。根据脱硫细菌的形态及其特征,从中选取12株作为典型代表做进一步分析,它们分别属于芽孢杆菌属(Bacillus)、赖氨酸芽孢杆菌属(Lysinibacillus)、动性球菌属(Planococcus)和红球菌属(Rhodococcus)。结果表明,这12株细菌均可产生半胱氨酸脱巯基酶,能够将半胱氨酸分解为丙酮酸、硫化氢和氨,即同时具备脱硫与脱氮的能力。其中有5株菌脱硫能力较强,分别属于赖氨酸芽孢杆菌属、动性球菌属和芽孢杆菌属。【结论】海洋沉积物中存在着丰富的L-半胱氨酸脱硫细菌,为进一步研究海洋中硫的生物地球化学循环提供了素材。     

芽孢杆菌脱氮作用的研究

对废水处理生物膜中的优势菌种芽孢杆菌(Bacillus)经纯化和驯化培养，对其脱氮性能进行了单纯性脱氮试验研究，并对其生长周期进行了分析。     

甘草内生细菌的分离及拮抗菌株鉴定

从乌拉尔甘草健康植株的根茎叶中共分离到内生细菌98株,经初步鉴定芽孢杆菌属(Bacillus sp.)为优势种群,约占30%;从不同生长年份甘草的根、茎、叶组织中分离内生细菌种群密度从5.0×104cfu/g~2.9×107cfu/g鲜重不等。采用平板对峙方法筛选出6株对植物病原菌有明显体外拮抗活性的菌株,通过菌落、菌体形态观察、生理生化反应及16S rDNA序列分析,同时结合Biolog细菌自动鉴定系统验证,鉴定这6株拮抗菌分属萎缩芽孢杆菌(Bacillus atrophaeus)、多粘类芽孢杆菌(Paenibacillus polymyxa)、枯草芽孢杆菌(Bacillus subtilis)、Paenibacillus ehimensis。     

脱氮硫杆菌对硫酸盐还原菌生长的抑制作用

为了研究脱氮硫杆菌(Thiobacillus denitrificans,TDN)对硫酸盐还原菌(sulfate-reducing bacteria,SRB)生长的影响,将从污水中分离到的硫酸盐还原菌和从pH为2~3的酸性土壤中分离到的脱氮硫杆菌(TDN)用于含适当浓度硫酸盐和硝酸盐的模拟污水的处理,并测定单菌或混菌培养后系统中硫酸盐、硝酸盐浓度的变化以及硫化氢的产量。结果表明,在仅接种硫酸盐还原菌的培养系统中,硫酸盐和硝酸盐的含量分别降低4.8%和1.0%;而在同时接种脱氮硫杆菌和硫酸盐还原菌的系统中硫酸盐的含量升高了4.7%,但硝酸盐氮含量降低了25%,这一作用随着培养基中硝酸盐起始浓度的提高而得到加强。另外,混菌培养系统的硫化氢浓度比单一硫酸盐还原菌培养系统降低了65.93%。由此推断,在混菌培养系统中,脱氮硫杆菌通过其反硝化过程产生的代谢产物使硫酸盐还原菌的生长环境条件发生改变,从而抑制其生长并减少了硫化氢的产生。这对预防硫酸盐还原菌带来的不利影响提供了有效的措施。     

Bacillus cereus CH2对茄子黄萎病的田间防治效果研究以及对根围微生态群落结构的影响

拟对Bacillus cereus CH2菌株在田间条件下,对茄子黄萎病的防治效果及其对茄子根围土壤微生物群落结构和功能的影响进行研究。田间试验显示蜡状芽孢杆菌Bacillus cereus CH2对茄子黄萎病有60.6%的防治效果。对菌剂和清水对照处理小区茄子根围土壤的Biolog分析显示,CH2的使用不会对根围土壤原有微生物群落结构和功能多样性产生显著影响,同时对六大类碳源利用能力的分析结果显示,CH2的使用能在植株生长前期提高根围土壤微生物群体对除酚类化合物的五大类碳源的利用能力。     

两株棉花立枯病拮抗菌MH1和MH25的筛选与鉴定

从棉花根际分离了1277个细菌分离物, 以棉花立枯病病原真菌立枯丝核菌(Rhizoctonia solani Kuhn)为靶标菌, 通过平板对峙法获得25个具有拮抗性能的分离物, 其中MH1和MH25具有较强的拮抗性能, 且拮抗性能稳定, 具有较好的生防潜力。经过形态观察、生理生化特征分析及16S rDNA序列分析, MH1为短芽孢杆菌(Brevibacillus brevis), MH25为枯草芽孢杆菌(Bacillus subtilis)。MH1和MH25的16S rDNA序列在GenBank中注册号分别为: EF488102, EF488103。     

两株棉花立枯病拮抗菌MH1和MH25的筛选与鉴定

从棉花根际分离了1277个细菌分离物,以棉花立枯病病原真菌立枯丝核菌(Rhizoctonia solani Kuhn)为靶标菌,通过平板对峙法获得25个具有拮抗性能的分离物,其中MH1和MH25具有较强的拮抗性能,且拮抗性能稳定,具有较好的生防潜力.经过形态观察、生理生化特征分析及16S rDNA序列分析,MH1为短芽孢杆菌(Brevibacillus brevis),MH25为枯草芽孢杆菌(Bacillus subtilis).MH1和MH25的16S rDNA序列在GenBank中注册号分别为:EF488102,EF488103.     

Aerobic nitrate respiration in a nitrite-oxidising bioreactor

The ability of heterotrophic bacteria in a nitrite-oxidising bioreactor to respire with nitrate as an electron acceptor was examined. Approximately 70% of 1000 heterotrophic isolates were able to express a nitrate reductase. A detailed survey of 15 isolates showed that five expressed the azide-insensitive nitrate reductase encoded by the napA gene. A two-round PCR amplification of the napA gene using degenerate PCR primers and DNA sequence analysis of these products confirmed the presence of this gene in the positive isolates. Partial 16S rDNA products and napA products were amplified from the biomass in the bioreactor and denaturing gradient gel electrophoresis of these products identified 21 distinct ribotypes and 12 distinct napA sequences. The results show that the ability to respire with nitrate as an electron acceptor under aerobic conditions is widespread among the heterotrophic population of this bioreactor.     

Metabolic characterization of lactic acid bacterium Lactococcus garvieae sk11, capable of reducing ferric iron, nitrate, and fumarate

A lactic acid bacterium capable of anaerobic respiration was isolated from soil with ferric iron-containing glucose basal medium and identified as L. garvieae by using 16S rDNA sequence homology. The isolate reduced ferric iron, nitrate, and fumarate to ferrous iron, nitrite, and succinate, respectively, under anaerobic N2 atmosphere. Growth of the isolate was increased about 30-39% in glucose basal medium containing nitrate and fumarate, but not in the medium containing ferric iron. Specifically, metabolic reduction of nitrate and fumarate is thought to be controlled by the specific genes fnr, encoding FNR-like protein, and nir, regulating fumarate-nitrate reductase. Reduction activity of ferric iron by the isolate was estimated physiologically, enzymologically, and electrochemically. The results obtained led us to propose that the isolate metabolized nitrate and fumarate as an electron acceptor and has specific enzymes capable of reducing ferric iron in coupling with anaerobic respiration.     

Activity of sulfate-reducing bacteria in human periodontal pocket

Samples of subgingival dental tissues were examined for the presence of sulfate-reducing bacteria (SRB). Using enrichment cultures, SRBs were detected in 9 of 17 individuals. A pure culture of SRB was obtained from one sample collected from a patient with type IV periodontal disease. The characterization of this isolate showed that it belongs to the genus Desulfovibrio. The isolate used pyruvate, lactate, glucose, fructose, and ethanol as the sole source of carbon. However, the isolate was unable to use acetate and methanol as a carbon source, indicating it as an incomplete oxidizer unable to carry out the terminal oxidation of substrates. Apart from using sulfate as electron acceptor, the isolate also used thiosulfate and nitrate as an electron acceptor. It has the ability to use a variety of nitrogen sources, including ammonium chloride, nitrate, and glutamate. The optimum growth temperature of the isolate was 37 degrees C and the optimum pH for growth was 6.8. The SRB isolate contained the electron carrier desulfoviridin. The numbers of SRB in the mouth are assumed to be limited by sulfate. Potential sources of sulfate in the subgingival area include free sulfate in pocket fluid and glycosaminoglycans and sulfur-containing amino acids from periodontal tissues.     

Isolation, characterization, and U(VI)-reducing potential of a facultatively anaerobic, acid-resistant Bacterium from Low-pH, nitrate- and U(VI)-contaminated subsurface sediment and description of Salmonella subterranea sp. nov

A facultatively anaerobic, acid-resistant bacterium, designated strain FRCl, was isolated from a low-pH, nitrate- and U(VI)-contaminated subsurface sediment at site FW-024 at the Natural and Accelerated Bioremediation Research Field Research Center in Oak Ridge, Tenn. Strain FRCl was enriched at pH 4.5 in minimal medium with nitrate as the electron acceptor, hydrogen as the electron donor, and acetate as the carbon source. Clones with 16S ribosomal DNA (rDNA) sequences identical to the sequence of strain FRCl were also detected in a U(VI)-reducing enrichment culture derived from the same sediment. Cells of strain FRCl were gram-negative motile regular rods 2.0 to 3.4 micro m long and 0.7 to 0.9 microm in diameter. Strain FRCl was positive for indole production, by the methyl red test, and for ornithine decarboxylase; it was negative by the Voges-Proskauer test (for acetylmethylcarbinol production), for urea hydrolysis, for arginine dihydrolase, for lysine decarboxylase, for phenylalanine deaminase, for H(2)S production, and for gelatin hydrolysis. Strain FRCl was capable of using O(2), NO(3)(-), S(2)O(3)(2-), fumarate, and malate as terminal electron acceptors and of reducing U(VI) in the cell suspension. Analysis of the 16S rDNA sequence of the isolate indicated that this strain was 96.4% similar to Salmonella bongori and 96.3% similar to Enterobacter cloacae. Physiological and phylogenetic analyses suggested that strain FRCl belongs to the genus Salmonella and represents a new species, Salmonella subterranea sp. nov.     

Isolation and characterization of a Geobacillus thermoleovorans strain from an ultra-deep South African gold mine

A thermophilic facultative bacterial isolate was recovered from 3.2km depth in a gold mine in South Africa. This isolate, designated GE-7, was cultivated from pH 8.0, 50 degrees C water from a dripping fracture near the top of an exploration tunnel. GE-7 grows optimally at 65 degrees C and pH 6.5 on a wide range of carbon substrates including cellobiose, hydrocarbons and lactate. In addition to O(2), GE-7 also utilizes nitrate as an electron acceptor. GE-7 is a long rod-shaped bacterium (4-6microm longx0.5microm wide) with terminal endospores and flagella. Phylogenetic analysis of GE-7 16S rDNA sequence revealed high sequence similarity with G. thermoleovorans DSM 5366(T) (99.6%), however, certain phenotypic characteristics of GE-7 were distinct from this and other previously described strains of G. thermoleovorans.     

Isolation and characterization of diverse halobenzoate-degrading denitrifying bacteria from soils and sediments

Denitrifying bacteria capable of degrading halobenzoates were isolated from various geographical and ecological sites. The strains were isolated after initial enrichment on one of the monofluoro-, monochloro-, or monobromo-benzoate isomers with nitrate as an electron acceptor, yielding a total of 33 strains isolated from the different halobenzoate-utilizing enrichment cultures. Each isolate could grow on the selected halobenzoate with nitrate as the terminal electron acceptor. The isolates obtained on 2-fluorobenzoate could use 2-fluorobenzoate under both aerobic and denitrifying conditions, but did not degrade other halobenzoates. In contrast, the 4-fluorobenzoate isolates degraded 4-fluorobenzoate under denitrifying conditions only, but utilized 2-fluorobenzoate under both aerobic and denitrifying conditions. The strains isolated on either 3-chlorobenzoate or 3-bromobenzoate could use 3-chlorobenzoate, 3-bromobenzoate, and 2- and 4-fluorobenzoates under denitrifying conditions. The isolates were identified and classified on the basis of 16S rRNA gene sequence analysis and their cellular fatty acid profiles. They were placed in nine genera belonging to either the alpha-, beta-, or gamma-branch of the Proteobacteria, namely, Acidovorax, Azoarcus, Bradyrhizobium, Ochrobactrum, Paracoccus, Pseudomonas, Mesorhizobium, Ensifer, and Thauera. These results indicate that the ability to utilize different halobenzoates under denitrifying conditions is ubiquitously distributed in the Proteobacteria and that these bacteria are widely distributed in soils and sediments.     

分离自蜜蜂(Apis mellifera)的三株螺原体的基本特性

【目的】调查我国蜜蜂螺原体的种类,研究它们的基本生物学特性,初步确定其分类地位,为研究螺原体在自然界中的传播途径提供依据。【方法】螺原体的分离、培养方法,应用暗视野显微镜和透射电子显微镜观察螺原体形态,运用分子生物学方法(选16S rDNA、ITS、rpoB基因进行系统发育分析)和血清学方法(生长抑制试验、代谢抑制试验、菌体变形试验)研究螺原体分离菌株可能的分类地位。【结果】从健康的意蜂(Apis mellifera)体内分离到3株螺原体MF0903、MF0904、MF0905。3株螺原体都呈典型的螺旋状,但菌株MF0905的菌体短小,螺旋数较少;MF0903和MF0904菌落呈规则的圆形,MF0905菌落近圆形、较大;它们都能利用葡萄糖、D-果糖作为碳源,不能利用尿素;菌株MF0903、MF0904能强烈代谢精氨酸、不能利用蔗糖作为碳源,而MF0905不能代谢精氨酸、能利用蔗糖作为碳源;根据16S rDNA、ITS、rpoB基因序列构建系统发育树显示,分离菌株MF0903、MF0904与Spiroplasma melliferum聚类较近,而MF0905与Spiroplasma clarkii聚类较近。生长抑制试验、代谢抑制试验、菌体变形试验结果均表明标准菌株Spiroplasma melliferum CH-1的抗血清对菌株MF0905没有抑制作用,而能抑制菌株MF0903和MF0904生长。【结论】分离菌株MF0903、MF0904属于Spiroplasma melliferum,而MF0905可能是Spiroplasma clarkii,这表明我国蜜蜂中存在的螺原体不仅仅是Spiroplasma melliferum。     

A simple method to isolate biofilm-forming Bacillus subtilis and related species from plant roots

A novel method was developed to isolate pure cultures of wild-type Bacillus subtilis and related species from plant roots, even roots washed free of adhering soil. The method uses casein digest-mannitol agarose (CM) media that promote rapid dendritic growth (low K+ ion) or profuse surface film formation (high K+ ion) of Bacillus species at 40 degrees C. Inoculation from the tips of surface growth on agarose leads to self-purification and streaking on CM agar plates (hard agar and high K+) leads to characteristic colony morphology. Phenotypic and 16S rDNA analysis revealed that most root isolates obtained by this method are spore-forming Bacillus species, with enrichment for B. subtilis and its close relatives. Of particular interest is the finding that the majority of these Bacillus isolates and the B. subtilis Marburg strain also form adhering biofilms on inert surfaces. Thus the methods presented may be useful in isolation of biofilm-forming Bacillus and investigation of their role on plant roots.