地衣芽孢杆菌16S rRNA基因的TD-PCR扩增及系统发育分析

运用16SrRNA基因序列分析了中国工业微生物菌种保藏管理中心(CICC)保存的30株地衣芽孢杆菌的系统发育关系,结果显示:24株菌株位于地衣芽孢杆菌系统发育分支;3株菌株位于蜡状芽孢杆菌-苏云金芽孢杆菌系统发育分支;1株菌株位于枯草芽孢杆菌系统发育分支;2株菌株与其它地衣芽孢杆菌菌株间序列同源性为96.4%~97.4%,明显低于其它地衣芽孢杆菌菌株间同源性,分类地位不明确,有待进一步讨论。通过比较分析16SrRNA基因5′端500bp、3′端500bp以及其全基因的系统发育树,表明16SrRNA基因5′端500bp可以很好的代表全基因序列进行系统发育研究,可用于区分地衣芽孢杆菌、枯草芽孢杆菌以及蜡状芽孢杆菌分支。     

环己酮降解细菌的筛选和系统发育分析

通过以环己酮为唯一碳源的选择培养基富集培养和细菌环己酮降解能力的测定,从巴陵石化公司环己酮生产车间排水口的污泥样品中分离到12株降解环己酮性能强的细菌菌株。根据形态观察、部分生理生化试验和16SrRNA基因序列的比对分析,初步确定这些菌株代表8个物种,属于3个大的系统发育类群/门(Actinobacteria,Proteobacteria,Bacteroidetes)的5个科、7个属;大多数菌株与其系统发育关系最密切的典型菌株之间存在一定的遗传差异。结果表明降解环己酮性能强的细菌具有较丰富的系统发育多样性。     

几株细菌的重金属抗性水平和吸附量

从堆积时间为80～100a的铅锌矿渣中分离了6株细菌,通过测定部分16S rRNA基因序列确定了它们的系统发育地位。结果表明有3株细菌属于节杆菌属(Arthrobacter),同A．nicotinovorans和A．histidinolovorans两个种关系密切。另外3株属于壤霉菌属(Agromyces),同Ag．mediolanus具有较近的亲缘关系。总体来看,这些菌株都对检测的5种重金属有高的最低抑菌浓度(minimal inhibitory concentration,MIC)。节杆菌对Zn、Co的耐受明显高于壤霉菌。此外,这些重金属高抗性菌株也对重金属有较强的吸附能力。在环境中有单一重金属离子的情况下,冻干的节杆菌对Ph的吸附率平均达到了约400mg／g干菌体,对Cd和zn的吸附也分别达到了近177和80mg/g干菌体,具有进一步开发为重金属吸附剂的潜力。     

云南个旧锡矿区可培养细菌多样性及其重金属抗性

摘要:【目的】揭示个旧锡矿区尾矿库和矿坑土壤中可培养细菌的多样性;发掘一批锡矿区土壤细菌菌株并对其Pb2+、Cd2+耐受性进行评价。【方法】采用纯培养法和基于16S rRNA基因序列的系统发育分析对样品中可培养细菌多样性进行研究,平板法评价代表菌株对Pb2+、Cd2+的耐受性。【结果】使用2种培养基从尾矿库和矿坑土壤中分离到214 株细菌,对其中107株代表菌株的16S rRNA基因序列系统发育分析结果显示,菌株分属细菌域的5个门、12个目、25个科、42个属;其中变形菌门(Proteobacteria)是优势类群,占总菌株数的69.2%;假单胞菌属(Pseudomonas)菌株是优势物种,占24.8%;2株菌代表了2个潜在新类群。对105株代表性菌株的重金属耐受性研究表明,耐受浓度1000 mg/LPb2+或Cd2+的菌株分别占73.3%和8.6%,菌株对Pb2+的耐受性明显好于Cd2+;分离自锡尾矿库的菌株耐受不同浓度Pb2 +和Cd2 +菌株比例明显高于矿坑来源的菌株;分离自锡尾矿区的2 株菌(DT47-2A 和DT50-1)对1000 mg/L浓度Pb2+和Cd2+均具耐受性。【结论】个旧锡矿区土壤可培养细菌具有丰富的多样性,而且蕴含着不少潜在新类群;该环境中含有大量Pb2+、Cd2+耐受菌株,并对Pb2+、Cd2+具有较强的抗性或适应性。     

新疆棉田土壤固氮菌遗传多样性分析

利用ERIC-PCR和16SrDNA全序列测定方法,研究了新疆棉田土壤中分离获得的58株固氮菌的遗传多样性及系统发育。采用平均连锁法(UPGMA)分析ERIC-PCR的聚类结果表明在Watson距离为0.65左右时可以将供试菌株分为9个大群。选取ERIC-PCR各群中代表菌株进行16SrRNA全序列测定分析,结果表明这些菌株分别属于Enterobacter、Bacillus、Acinetobacter、Pseudomonas、Serratia和Yersinia6个属。     

硇洲岛潮汐带牡蛎相关可培养细菌多样性

[目的]了解南海硇洲岛潮汐带香港巨牡蛎(Crassostrea hongkongensis)相关可培养细菌的多样性.[方法]应用纯培养法分离样品中的细菌(含放线菌),采用基于16S rRNA基因序列的系统发育分析方法研究这些分离菌株的生物多样性.[结果]用补充0-25％(W/V) NaC1的MA、MH和NA培养基从样品中分离到102株细菌,在形态观察和部分生理生化实验结果的基础上去冗余,选取74个代表性菌株进行基于16S rRNA基因序列的系统发育分析.结果表明,这些菌株归为38个物种,属于4个大的系统发育类群(Gamma-Proteobacteria,Alpha-Proteobacteria,Bacteroidetes,Firmicutes)的16个科、18个属.大多数菌株属于Gamma-Proteobacteria亚门(45株,60.8％),其余依次是Firmicutes门(12株,16.2％)、Bacteroidetes门(11株,14.9％)和Alpha-Proteobacteria亚门(6株,8.1％).大多数菌株与其系统发育关系最密切的有效发表种典型菌株之间(16S rRNA基因序列相似性为94.3％-99.8％)存在一定的遗传差异,其中JSM 111069可能代表Carnobacteriaceae科的潜在新属;菌株JSM 111039和JSM 111085可能分别代表Bacillus属的两个新物种,菌株JSM 111020、JSM 111072和JSM 111090可能分别代表Pseudoalteromonas、Proteus和Idiomarina属的新物种.[结论]南海硇洲岛潮汐带牡蛎中存在较为丰富的原核生物多样性,并潜藏着一定数量的微生物新类群(物种).     

将云南原小单孢菌转入纤维化纤维菌的多相分类研究

对中国普通微生物菌种保藏中心(CGMCC)保藏的云南原小单孢菌(Promicromonospora yunnanensis)AS4.1333进行的多相分类研究表明,菌株AS4.1333与纤维化纤维菌(Cellulosimicrobium cellulans)DSM43879T关系密切,它们的16S rRNA基因序列相似性为99.6%,DNA同源性为89.3%。胞壁组分、枝菌酸、甲基萘醌、磷酸类脂和DNAG Cmol%测定等化学分类结果支持了上述结论。在形态和生理生化特性上,菌株AS4.1333与CellulosimicrobiumcellulansDSM43879T之间也表现出非常相似的性状。根据系统发育分析、化学分类、形态和生理生化特性、DNA同源性测定等研究结果,对菌株AS4.1333的分类地位做了修正,将其从原小单孢菌属中排除,认为菌株AS4.1333与Cellulosimicrobium cellulansDSM43879T是同一个种,建议将菌株AS4.1333由云南原小单孢菌(Promicromonosporayunnanensis)转入纤维化纤维菌(Cellulosimicrobium cellulans)。     

几株细菌的重金属抗性水平和吸附量*

从堆积时间为80~100 a的铅锌矿渣中分离了6株细菌,通过测定部分16S rRNA基因序列确定了它们的系统发育地位。结果表明有3株细菌属于节杆菌属(Arthrobacter),同A.nicotinovorans和A.histidinolovorans两个种关系密切。另外3株属于壤霉菌属(Agromy-ces),同Ag.m ediolanus具有较近的亲缘关系。总体来看,这些菌株都对检测的5种重金属有高的最低抑菌浓度(minimal inhibitory conc     

香樟产芽孢内生细菌的系统发育多样性

为了解香樟产芽孢内生细菌的多样性,采用改良的NA培养基分离、去除冗余及芽孢染色,得到40株产芽孢内生细菌,占分离所得内生细菌总数的29.9%,其中根、茎、叶中分别分离到25、5和10株。16SrRNA序列系统发育分析结果表明,这40株菌分属于Bacillus、Lysinibacillus、Paenibacillus和Brevibacillus属的12个种;7株菌的16SrRNA部分序列与数据库中模式菌株对应序列相似性小于97%,代表着潜在新类群的存在。同时,3个部位分离出的产芽孢内生细菌既呈现出一定程度的细菌区系相似性,又表现出细菌区系的器官特异性。     

基于16S rRNA和HSP60基因序列分析粘细菌孢囊杆菌亚目形态分类的种属之间的亲缘关系

[目的]利用16S rRNA和HSP60基因分子标记分析鉴定形态分类特征不稳定的粘细菌种属.[方法]利用粘细菌的传统分离纯化方法从土壤中分离粘细菌,根据菌株的形态特征进行分类,PCR方法扩增菌株的16S rRNA和HSP60基因序列并进行系统发育关系分析.[结果]根据形态特征,分离得到的15株粘细菌菌株归入孢囊杆菌亚目(Cystobacterineae)的2个科3个属.其中11株粘细菌具有典型的所在种属的子实体结构,而菌株0085-4、0121-3、NM03和Myx9736的子实体结构发生了不同程度退化.15株粘细菌的16S rRNA基因序列的相似性在95.4%到99.5%之间.而HSP60基因序列差异较大.[结论]在属水平上,粘细菌形态分类特征和16S rRNA基因系统进化关系具有很好的一致性;在揭示粘细菌种间系统发育关系中,HSP60基因序列更为适用.     

Evaluation of the coal-degrading ability of Rhizobium and Chelatococcus strains isolated from the formation water of an Indian coal bed

The rise in global energy demand has prompted researches on developing strategies for transforming coal into a cleaner fuel. This requires isolation of microbes with the capability to degrade complex coal into simpler substrates to support methanogenesis in the coal beds. In this study, aerobic bacteria were isolated from an Indian coal bed that can solubilize and utilize coal as the sole source of carbon. The six bacterial isolates capable of growing on coal agar medium were identified on the basis of their 16S rRNA gene sequences, which clustered into two groups; Group I isolates belonged to the genus Rhizobium, whereas Group II isolates were identified as Chelatococcus species. Out of the 4 methods of whole genome fingerprinting (ERIC-PCR, REP-PCR, BOX-PCR, and RAPD), REPPCR showed maximum differentiation among strains within each group. Only Chelatococcus strains showed the ability to solubilize and utilize coal as the sole source of carbon. On the basis of 16S rRNA gene sequence and the ability to utilize different carbon sources, the Chelatococcus strains showed maximum similarity to C. daeguensis. This is the first report showing occurrence of Rhizobium and Chelatococcus strains in an Indian coal bed, and the ability of Chelatococcus isolates to solubilize and utilize coal as a sole source of carbon for their growth.     

Phenotypic and genotypic characterization of rhizobia associated with Acacia saligna (Labill.) Wendl. in nurseries from Algeria

Twenty seven rhizobial strains associated with Acacia saligna grown in northern and southern Algeria were characterized, including generation time, host-range, the 16S rRNA gene and 16S–23S rRNA intergenic spacer restriction patterns, 16S rRNA gene sequence analysis and tolerance to salinity and drought. Cross inoculation tests indicated that 11 slow-growing isolates from northern nurseries were able to nodulate introduced Australian acacias exclusively, whereas 16 fast-growing isolates, mainly from southern nurseries, were capable of also nodulating native acacias. Restriction patterns and sequence analysis of the 16S rRNA gene showed that strains of the first group belonged to Bradyrhizobium while strains of the second group were related to Sinorhizobium meliloti and Rhizobium gallicum. Interestingly, five strains of the first group formed a distinct cluster phylogenetically close to Bradyrhizobium betae, a non-nodulating species causing tumour-like deformations in sugar beet roots. Bradyrhizobium strains were in general more sensitive to NaCl and PEG than the S. meliloti and R. gallicum representatives. Among the latter, strains S. meliloti BEC1 and R. gallicum DJA2 were able to tolerate up to 1 M NaCl and 20% PEG. This, together with their wide host-range among Acacia species, make them good candidates for developing inoculants for A. saligna and other acacia trees growing in arid areas.     

Novel magnetite-producing magnetotactic bacteria belonging to the Gammaproteobacteria

Two novel magnetotactic bacteria (MTB) were isolated from sediment and water collected from the Badwater Basin, Death Valley National Park and southeastern shore of the Salton Sea, respectively, and were designated as strains BW-2 and SS-5, respectively. Both organisms are rod-shaped, biomineralize magnetite, and are motile by means of flagella. The strains grow chemolithoautotrophically oxidizing thiosulfate and sulfide microaerobically as electron donors, with thiosulfate oxidized stoichiometrically to sulfate. They appear to utilize the Calvin–Benson–Bassham cycle for autotrophy based on ribulose-1,5-bisphosphate carboxylase/oxygenase (RubisCO) activity and the presence of partial sequences of RubisCO genes. Strains BW-2 and SS-5 biomineralize chains of octahedral magnetite crystals, although the crystals of SS-5 are elongated. Based on 16S rRNA gene sequences, both strains are phylogenetically affiliated with the Gammaproteobacteria class. Strain SS-5 belongs to the order Chromatiales; the cultured bacterium with the highest 16S rRNA gene sequence identity to SS-5 is Thiohalocapsa marina (93.0%). Strain BW-2 clearly belongs to the Thiotrichales; interestingly, the organism with the highest 16S rRNA gene sequence identity to this strain is Thiohalospira alkaliphila (90.2%), which belongs to the Chromatiales. Each strain represents a new genus. This is the first report of magnetite-producing MTB phylogenetically associated with the Gammaproteobacteria. This finding is important in that it significantly expands the phylogenetic diversity of the MTB. Physiology of these strains is similar to other MTB and continues to demonstrate their potential in nitrogen, iron, carbon and sulfur cycling in natural environments.     

Phylogenetic diversity of Flavobacteria isolated from the North Sea on solid media

Flavobacteria are abundant in the North Sea, an epeiric sea on the continental shelf of Europe. However, this abundance has so far not been reflected by the number of strains in culture collections. In this study, Flavobacteria were isolated from pelagic and benthic samples, such as seawater, phytoplankton, sediment and its porewater, and from surfaces of animals and seaweeds on agar plates with a variety of carbon sources. Dilution cultivation with a new medium, incubation at low temperatures and with long incubation times, and colony screening by a Flavobacteria-Cytophagia-specific PCR detecting 16S rRNA gene sequences led to a collection of phylogenetically diverse strains. Two strains affiliated with Flammeovirgaceae and seven strains affiliated with Cyclobacteriaceae, whereas within the Flavobacteriaceae 20 isolated strains presumably represented seven novel candidate genera and 355 strains affiliated with 26 of 80 validly described marine Flavobacteriaceae genera, based on a genus boundary of 95.0% 16S rRNA gene sequence identity. The majority of strains (276) affiliated with 37 known species in 16 genera (based on a boundary of 98.7% 16S rRNA gene sequence identity), whereas 79 strains likely represented 42 novel species in 22 established Flavobacteriaceae genera. Pigmentation, iridescence, gliding motility, agar lysis, and flexirubin as a chemical marker supported the taxonomy at the species level. This study demonstrated the culturability on solid medium of phylogenetically diverse Flavobacteria originating from the North Sea.     

Identification of a new steroid transforming strain of mycobacteria as Mycobacterium neoaurum

The ability to utilize sterols as a sole source of carbon was studied in 80 strains and consortia of hydrocarbon-oxidizing bacteria. One of the strains, which efficiently transformed both individual sterols and their mixtures, was identified as Mycobacterium neoaurum, based on the analysis of the sequence of the 16S rRNA gene.     

我国南北大豆产区慢生大豆根瘤菌的遗传多样性和系统发育研究

利用16S rRNA基因RFLP、16S rRNA基因序列分析以及16S-23S rRNA IGS PCR RFLP技术对分离自我国南北大豆产区的慢生大豆根瘤菌进行了群体遗传多样性和系统发育研究。16S rRNA基因PCR RFLP分析以及16S rRNA基因序列分析结果表明:所有供试慢生大豆根瘤菌可分为B.japonicum和B.elkanii两个类群,其中属于B.japonicum的为优势种群,占供试菌株的91%,属于B.elkanii的仅占9%,多样性水平较低。16S-23S rRNA IGS PCRRFLP研究结果表明:属于B.japonicum的慢生根瘤菌具有较丰富的遗传多样性,在69%的相似性水平上可分为群Ⅰ和群Ⅱ两大类群。群I的菌株以分离自黑龙江和河北等北部区域的菌株为代表,群Ⅱ的菌株以分离自广西和江苏等南部地域的菌株为代表,反映出明显的地域特征。两群菌株在系统发育上均与USDA6、USDA110和USDA122等B.japonicum的模式或代表菌株有差异。     

Identification of a New Steroid-Transforming Strain of Mycobacteria as Mycobacterium neoaurum

The ability to utilize sterols as a sole source of carbon was studied in 80 strains and consortia of hydrocarbon-oxidizing bacteria. One of the strains, which efficiently transformed both individual sterols and their mixtures, was identified as Mycobacterium neoaurum based on the analysis of the sequence of the 16S rRNA gene.     

Genetic characterization of fast-growing rhizobia able to nodulate Prosopis alba in North Spain

Prosopis is a Mimosaceae legume tree indigenous to South America and not naturalized in Europe. In this work 18 rhizobial strains nodulating Prosopis alba roots were isolated from a soil in North Spain that belong to eight different randomly amplified polymorphic DNA groups phylogenetically related to Sinorhizobium medicae, Sinorhizobium meliloti and Rhizobium giardinii according to their intergenic spacer and 16S rRNA gene sequences. The nodC genes of isolates close to S. medicae and S. meliloti were identical to those of S. medicae USDA 1,037(T) and S. meliloti LMG 6,133(T) and accordingly all these strains were able to nodulate both alfalfa and Prosopis. These nodC genes were phylogenetically divergent from those of the isolates close to R. giardinii that were identical to that of R. giardinii H152(T) and therefore all these strains formed nodules in common beans and Prosopis. The nodC genes of the strains isolated in Spain were phylogenetically divergent from that carried by Mesorhizobium chacoense Pr-5(T) and Sinorhizobium arboris LMG 1,4919(T) nodulating Prosopis in America and Africa, respectively. Therefore, Prosopis is a promiscuous host which can establish symbiosis with strains carrying very divergent nodC genes and this promiscuity may be an important advantage for this legume tree to be used in reforestation.