一株解磷中度嗜盐菌的分离鉴定及解磷特性分析

从四川自贡某盐井壁植物根系土壤中分离得到1株中度嗜盐解磷菌QW1011。该菌细胞呈线状, 大小为0.8 μm×30 μm~100 μm, 革兰氏染色为阳性、最适NaCl生长浓度为10%, NaCl最高耐受浓度15%。好氧生长, 酪素水解、硝酸还原和接触酶阴性。菌株的16S rRNA基因序列(接受号：EF647207)与Bacillus megatherium ATCC 14581的16S rRNA相似性为100%, 其16S-23S rRNA间区(ISR)的PCR扩增片的PAGE指纹图谱与参考菌株Baci     

盐地碱蓬内生中度嗜盐菌的分离与系统发育多样性分析

为了了解东营滨海盐地碱蓬植株内生中度嗜盐菌的多样性,采用传统分离鉴定技术和基于16S rRNA序列分析对样品中可培养细菌的多样性进行研究。根据其生理生化特征、16S rRNA序列测定和系统发育分析,分离获得的15株内生菌可分为4个类群,涉及Halomonadaceae科的Chromohalobacter属、Kushneria属、Halomonas属以及Bacillaceae科的Bacillus属。类群I中4菌株的16S rRNA序列与Chromohalobacter israelensis的最高相似性为95%。类群II共7株菌,归属于Kushneria属,是碱蓬内生中度嗜盐菌中的优势类群。类群III菌株的16S rRNA序列与一株尚无明确分类地位的Gammaproteobacteria亚门耐盐固氮细菌Haererehalobacter sp.JG11的相似性为99%。类群IV中的芽孢杆菌的16S rRNA序列与已知细菌的相似性为96%,很可能代表了Bacillus属的新种。各种水解酶类的分析表明,在分离的15株菌中有3株菌产蛋白酶,14株产酯酶,8株产DNA酶,11株产半乳糖苷酶,14株产脲酶。研究结果揭示,盐地碱蓬中存在较为丰富的中度嗜盐菌多样性和系统发育多样性,并且潜藏着较多的新的微生物类群。     

青藏高原察尔汗盐湖地区可培养中度嗜盐菌的群落结构与多样性

【目的】研究青海察尔汗盐湖地区的可培养中度嗜盐菌的群落结构及多样性。【方法】采用多种选择性培养基进行中度嗜盐菌的分离、培养;通过16S r RNA基因序列扩增、测定,根据序列信息,进行系统进化树构建、群落结构组成分析及多样性指数计算。【结果】从察尔汗盐湖卤水及湖泥中分离到中度嗜盐菌421株,合并重复菌株后共83株中度嗜盐菌。菌株16S rRNA基因序列信息显示,4株中度嗜盐菌为潜在的新分类单元。83株嗜盐细菌分布于3个门的6个科16个属。其中,Bacillus属、Oceanobacillus属和Halomonas属为优势属。多样性结果显示,水样中的菌株多样性高于泥样,而泥样中的菌株优势度高于水样。【结论】察尔汗盐湖中度嗜盐菌具有丰富的遗传多样性,种群种类丰富,优势菌群集中,该盐湖地区存在可分离培养的中度嗜盐菌的疑似新物种。     

新疆两盐湖可培养嗜盐古菌多样性研究

从新疆地区艾比盐湖和艾丁盐湖卤水及泥土样品中分离到86株嗜盐古菌。16S rRNA基因序列分析结果表明,分离自艾比湖的嗜盐古菌分别属于Haloarcula、Halobacterium、Halorubrum、Haloterrigena、Natrinema和Natronorubrum6个属的11个分类单元,而分离自艾丁湖的嗜盐古菌分别属于Haloarcula、Halobiforma、Halorubrum、Haloterrigena、Natrialba、Natrinema6个属的8个分类单元,这一结果表明艾比湖可培养嗜盐古菌生物多样性稍高于艾丁湖。基于16S rRNA基因序列的系统发育分析表明代表菌株ABH15应为Natronorubrum属的中性嗜盐古菌新种,代表菌株ABH07、ABH12、ABH17、ABH19、ABH51和AD30可能是Halobacterium、Halorubrum、Haloterrigena、Haloarcula的新成员。     

耐热嗜盐菌的分离及16S rRNA基因序列分析

从位于西藏自治区澜沧江边一个47℃的盐井中分离筛选到一株耐热嗜盐菌菌株 YJ0238.对其进行了生理生化特性研究,采用PCR方法扩增其16S rRNA基因序列,并进行了测定.基于生理生化特性和16S rRNA基因序列的同源性比较,以及系统发育分析,发现菌株YJ0238是Idiomarina属中成员zobellii的一个亚种,其16S rRNA基因序列已被GenBank数据库收录,序列号为EF693953.迄今为止,国内极少有关高温、高盐环境中微生物研究的报道,本研究可为今后研究同类极端环境中新的物种资源以及微生物多样性提供素材和参考.     

小溪自然保护区非盐环境土壤中嗜盐和耐盐菌多样性

【目的】研究湖南小溪国家级自然保护区普通非盐环境(ordinary non-saline environment)土壤样品中可培养嗜盐及耐盐细菌(含放线菌)多样性。【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嗜盐及耐盐细菌多样性进行研究。【结果】用补充5%-20%(w/v)NaCl的MA、ISP2、ISP5、NA和HAA培养基从土壤样品中分离到114株细菌,其中8株为中度嗜盐菌,19株为轻度嗜盐菌,87株为耐盐菌。根据形态观察和部分生理生化实验结果去冗余,选取61个代表性菌株进行基于16S rRNA基因序列的系统发育多样性分析。结果表明,这些菌株属于细菌域(Bacteria)的3个大的系统发育类群(门;phylum)(Actinobacteria,Firmicutes,Proteobacteria)的16个科、18个属,代表了41个物种。多数菌株属于Firmicutes门(38株,62.3%)和Actinobacteria门(18株,29.5%)。大多数菌株与其系统发育关系最密切的已知物种的典型菌株之间存在一定的遗传差异(16S rRNA基因序列相似性为96.9%-99.8%),其中有7个菌株(JSM070026,JSM081004,JSM081006,JSM081008,JSM083058,JSM083085,JSM084035)代表7个潜在新种(potential novel species)。【结论】研究结果表明,湖南小溪国家级自然保护区普通非盐环境土壤中存在较为丰富的可培养嗜盐及耐盐细菌多样性,并且潜藏着较多新的微生物类群(物种)。     

江苏盐城盐场中度嗜盐菌的分离与鉴定

采用高盐的牛肉膏蛋白胨培养基(盐浓度为8%NaCl),研究江苏省盐城市盐场土壤里中度嗜盐菌的分布情况及种群特征。从盐城市的射阳、新滩、灌东三处盐场土壤中共采集和分离得到13株中度嗜盐菌。通过形态观察、生理生化分析、16S rRNA序列分析和系统进化分析等方法进行初步鉴定,结果表明:分离到的中度嗜盐菌分属3个属,Virgibacillus属4株、Halomonas属7株和Marinobacter属2株。研究结果揭示盐城市的盐场存在较为丰富的中度嗜盐菌,具有较高的研究和利用价值。     

松嫩平原盐碱地中耐(嗜)盐菌的生物多样性

【目的】分离纯化松嫩平原盐碱地中可培养的耐盐菌和嗜盐菌,并分析其生物多样性。【方法】采用纯培养法和定向富集法从该地区盐碱土样中分离耐盐菌和嗜盐菌,然后通过16S rRNA基因同源性比对鉴定所分离细菌的系统发育学地位,从而获取松嫩平原盐碱地中耐盐菌和嗜盐菌的多样性信息。【结果】共分离到细菌40株,分属于细菌域中3个门(Actinobacteria,Firmicutes,γ-Proteobacteria)、8个科、16个属、34个种。其中多数菌株属于厚壁菌门(Firmicutes),最优势属为葡球菌属(Staphylococcus)(8株,占总菌株的20%),其次依次为盐单胞菌属(Halomonas)(5株,12.5%)、芽胞杆菌属(Bacillus)(4株,10%)、大洋芽胞杆菌属(Oceanbacillus)(4株,10%)、库克菌属(Kocuria)(4株,10%)和假单胞菌属(Pseudomonas)(3株,7.5%)等。其中9株细菌的16S rRNA基因序列与最近缘种的同源性在97.2%-99.0%之间,可能为新种。菌株耐盐能力主要在5%-10%之间,其中62.5%的菌株为耐盐菌,其余则为中度嗜盐菌。所有菌株的耐碱能力在pH 9-12之间,其中60%的菌株耐碱能力则高达pH 12,除两株为嗜碱菌,其余均为耐碱菌。【结论】研究结果表明,松嫩平原盐碱地中耐盐菌与嗜盐菌种群丰富,主要以葡萄球菌和盐单胞菌为主,菌株不仅耐盐能力高而且耐碱能力也高,并且该地区可能含有丰富的耐盐菌和嗜盐菌的新物种。     

陕西定边盐湖嗜盐菌A393的分离及其种属鉴定

采用高盐选择性培养基和稀释平板法,从陕西定边盐湖土壤样本中,分离筛选获得嗜盐菌株A393,通过形态学观察、生理生化特征和系统发育学16S rDNA序列分析鉴定嗜盐菌株A393分类学地位。获得的A393最适生产盐浓度在8%～20%。表型特征和16S rDNA序列分析结果初步鉴定其为中度嗜盐菌,属于海球菌属(Marinococcus sp.)菌株。     

巴里坤湖和玛纳斯湖嗜盐菌的分离及功能酶的筛选

目的:了解新疆巴里坤湖与马纳斯湖中嗜盐菌及功能酶的多样性。方法:从两湖中采集水样进行菌种分离,采用PCR方法扩增出其16S rRNA基因(16S rDNA),并测定了基因的序列。对分离菌株进行了蛋白酶、淀粉酶、酯酶、脂肪酶、以及纤维素酶的筛选。结果:从两湖水样共分离得到51株嗜盐菌。基于16SrDNA序列的同源性比较和系统发育学分析,发现从两湖分离获得的中度嗜盐菌分别属于Planococcaceae、Bacillacea、Staphylococcus、Halomonadaceae、Salicolaceae以及Pseudomonadacaeae 6个属。分离得到的极端嗜盐古菌属于Halobacteriaceae属。功能酶筛选结果表明产蛋白酶的嗜盐菌共有15株,产酯酶的共有23株,产淀粉酶的共有8株,未获得产脂肪酶和纤维素酶的嗜盐菌。结论:新疆巴里坤湖和马纳斯湖中有丰富的嗜盐微生物资源及酶资源,有重要的研究意义和应用前景。     

PCR and blot hybridization for rapid identification of Haloferax species

Based on the amplification of a 16S rDNA, a PCR assay for the identification of species of Haloferax to genus level was performed. Two variable regions of the 16S rDNA in Haloferax spp. were selected as genus-specific primers for the PCR assay and hybridization probe. Five genera of halophilic Archaea and Escherichia coli were examined as outside groups. Using this approach, all strains of Haloferax spp. were positive. In contrast, all species belonging to the most closely related genera, including Natrinema, Halorubrum, Halobacterium, and Haloarcula, were negative. In addition, the mass bloom of halophilic Archaea that develops in the El-Mallahet saltern of Alexandria City was positive using the same approach. This assay, which does not require pure cultures of microorganisms, is a specific and rapid method for identifying Haloferax spp. in hypersaline environments.     

Detection of indigenous Halobacillus populations in damaged ancient wall paintings and building materials: molecular monitoring and cultivation

Several moderately halophilic gram-positive, spore-forming bacteria have been isolated by conventional enrichment cultures from damaged medieval wall paintings and building materials. Enrichment and isolation were monitored by denaturing gradient gel electrophoresis and fluorescent in situ hybridization. 16S ribosomal DNA analysis showed that the bacteria are most closely related to Halobacillus litoralis. DNA-DNA reassociation experiments identified the isolates as a population of hitherto unknown Halobacillus species.     

Phylogenetic analyses of some extremely halophilic archaea isolated from Dead Sea water, determined on the basis of their 16S rRNA sequences.

Twenty-two extremely halophilic aerobic archaeal strains were isolated from enrichments prepared from Dead Sea water samples collected 57 years ago. The isolates were phenotypically clustered into five different groups, and a representative from each group was chosen for further study. Almost the entire sequences of the 16S rRNA genes of these representatives, and of Haloarcula hispanica ATCC 33960, were determined to establish their phylogenetic positions. The sequences of these strains were compared to previously published sequences of 27 reference halophilic archaea (members of the family Halobacteriaceae) and two other archaea, Methanobacterium formicicum DSM 1312 and Methanospirillum hungatei DSM 864. Phylogenetic analysis using approximately 1,400 base comparisons of 16S rRNA-encoding gene sequences demonstrated that the five isolates clustered closely to species belonging to three different genera--Haloferax, Halobacterium, and Haloarcula. Strains E1 and E8 were closely related and identified as members of the species Haloferax volcanii, and strain E12 was closely related and identified as a member of the species Halobacterium salinarum. However, strains E2 and E11 clustered in the Haloarcula branch with Haloarcula hispanica as the closest relative at 98.9 and 98.8% similarity, respectively. Strains E2 and E11 could represent two new species of the genus Haloarcula. However, because strains of these two new species were isolated from a single source, they will not be named until additional strains are isolated from other sources and fully characterized.     

Detection of Indigenous Halobacillus Populations in Damaged Ancient Wall Paintings and Building Materials: Molecular Monitoring and Cultivation

Several moderately halophilic gram-positive, spore-forming bacteria have been isolated by conventional enrichment cultures from damaged medieval wall paintings and building materials. Enrichment and isolation were monitored by denaturing gradient gel electrophoresis and fluorescent in situ hybridization. 16S ribosomal DNA analysis showed that the bacteria are most closely related to Halobacillus litoralis. DNA-DNA reassociation experiments identified the isolates as a population of hitherto unknown Halobacillus species.     

Reevaluating the classification of Halobacteroides and Haloanaerobacter species based on sequence comparisons of the 16S ribosomal RNA gene

Abstract The 16S rRNA gene (rDNA) sequence analysis of four halophilic anaerobes: Halobacteroides halobius, H. lacunaris, Haloanaerobacter (Hb.) chitinovorans and H. acetoethylicus confirmed that they were all members of the family Haloanaerobiaceae. H. lacunaris and H. halobius were found to be more closely related to each other and were distantly related to Sporohalobacter lortetti and the members of the genera Haloanaerobium and Halothermothrix . These data are in agreement with their assignment to the genus Halobacteroides . Further analysis indicated that Hb. chitinovorans was closely affiliated to members of the genus Halobacteroides , and therefore we propose to transfer it to the genus Halobacteroides as H. chitinovorans comb. nov. This transfer would invalidate the genus Haloanaerobacter , as Hb. chitinovorans is the only member of this genus. The 16S rDNA sequence analysis of H. acetoethylicum indicated that it was very closely related to members of the genus Haloanaerobium , viz. Haloanaerobium (Ha.) praevalens, Ha. salsugo , and Ha. alcaliphilum , and hence we propose to transfer it to the genus Haloanaerobium as Ha. acetoethylicus comb. nov.     

Ribosomal proteins in halobacteria

The amino acid sequences of 16 ribosomal proteins from archaebacterium Halobacterium marismortui have been determined by a direct protein chemical method. In addition, amino acid sequences of three proteins, S11, S18, and L25, have been established by DNA sequencing of their genes as well as by protein sequencing. Comparison of their sequences with those of ribosomal proteins from other organisms revealed that proteins S14, S16, S19, and L25 are related to both eukaryotic and eubacterial ribosomal proteins, being more homologous to eukaryotic than eubacterial counterparts, and proteins S12, S15, and L16 are related to only eukaryotic ribosomal proteins. Furthermore, some proteins are found to be similar to only eubacterial proteins, whereas other proteins show no homology to any other known ribosomal proteins. Comparisons of amino acid compositions between halophilic and nonhalophilic ribosomal proteins revealed that halophilic proteins gain aspartic and glutamic acid residues and significantly lose lysine and arginine residues. In addition, halophilic proteins seem to lose isoleucine as compared with Escherichia coli ribosomal proteins.     

Culturable halophilic archaeal diversity of Ayakekumu salt lake located in Xinjiang, China

Molecular diversity of halophilic archaea from Ayakekumu salt lake was investigated by the polymerase chain reaction (PCR) amplification and culture methods. 19 water samples and 15 soil samples were taken from 19 sites within Ayakekumu salt lake in winter and spring. Under aerobic culture conditions, some halophilic microorganisms were isolated by five different media. The 16S rRNA gene sequences of 62 red strains were amplified by using PCR, determined by the DNA sequencer and analyzed through the BLASTn program subsequently. Results revealed that all sequences belonged to six genera grouped within the Halobacteriaceae. Mostly 16S rRNA gene sequences related to the genera Halorubrum (47%) and Natrinema (24%) were detected. Subsequent analysis by using Shannon index indicated that cultured halophilic archaeal diversities are not significantly different between winter and spring samplings in Ayakekumu salt lake. Similarity values of haloarchaeal 16S rRNA gene sequences to known sequences were less than 97%, suggesting the presence of two novel taxa. In addition, taxonomic characteristics of Natrinema altunense and Halobiforma lacisalsi isolated from Ayakekumu salt lake had been described previously. The discovery of the novel species provides new opportunity to further examine the diversity of these halophilic microorganisms in Ayakekumu salt lake.     

Culturable halophilic archaeal diversity of Ayakekumu salt lake located in Xinjiang, China

Molecular diversity of halophilic archaea from Ayakekumu salt lake was investigated by the polymerase chain reaction (PCR) amplification and culture methods. 19 water samples and 15 soil samples were taken from 19 sites within Ayakekumu salt lake in winter and spring. Under aerobic culture conditions, some halophilic microorganisms were isolated by five different media. The 16S rRNA gene sequences of 62 red strains were amplified by using PCR, determined by the DNA sequencer and analyzed through the BLASTn program subsequently. Results revealed that all sequences belonged to six genera grouped within the Halobacteriaceae. Mostly 16S rRNA gene sequences related to the genera Halorubrum (47%) and Natrinema (24%) were detected. Subsequent analysis by using Shannon index indicated that cultured halophilic archaeal diversities are not significantly different between winter and spring samplings in Ayakekumu salt lake. Similarity values of haloarchaeal 16S rRNA gene sequences to known sequences were less than 97%, suggesting the presence of two novel taxa. In addition, taxonomic characteristics of Natrinema altunense and Halobiforma lacisalsi isolated from Ayakekumu salt lake had been described previously. The discovery of the novel species provides new opportunity to further examine the diversity of these halophilic microorganisms in Ayakekumu salt lake.     

Diversity of halophilic archaea from six hypersaline environments in Turkey

The diversity of archaeal strains from six hypersaline environments in Turkey was analyzed by comparing their phenotypic characteristics and 16S rDNA sequences. Thirty-three isolates were characterized in terms of their phenotypic properties including morphological and biochemical characteristics, susceptibility to different antibiotics, and total lipid and plasmid contents, and finally compared by 16S rDNA gene sequences. The results showed that all isolates belong to the family Halobacteriaceae. Phylogenetic analyses using approximately 1,388 bp comparisions of 16S rDNA sequences demonstrated that all isolates clustered closely to species belonging to 9 genera, namely Halorubrum (8 isolates), Natrinema (5 isolates), Haloarcula (4 isolates), Natronococcus (4 isolates), Natrialba (4 isolates), Haloferax (3 isolates), Haloterrigena (3 isolates), Halalkalicoccus (1 isolate), and Halomicrobium (1 isolate). The results revealed a high diversity among the isolated halophilic strains and indicated that some of these strains constitute new taxa of extremely halophilic archaea.     

Microbial diversity in Maras salterns, a hypersaline environment in the Peruvian Andes

Maras salterns are located 3,380 m above sea level in the Peruvian Andes. These salterns consist of more than 3,000 little ponds which are not interconnected and act as crystallizers where salt precipitates. These ponds are fed by hypersaline spring water rich in sodium and chloride. The microbiota inhabiting these salterns was examined by fluorescence in situ hybridization (FISH), 16S rRNA gene clone library analysis, and cultivation techniques. The total counts per milliliter in the ponds were around 2 x 10(6) to 3 x 10(6) cells/ml, while the spring water contained less than 100 cells/ml and did not yield any detectable FISH signal. The microbiota inhabiting the ponds was dominated (80 to 86% of the total counts) by Archaea, while Bacteria accounted for 10 to 13% of the 4',6'-diamidino-2-phenylindole (DAPI) counts. A total of 239 16S rRNA gene clones were analyzed (132 Archaea clones and 107 Bacteria clones). According to the clone libraries, the archaeal assemblage was dominated by microorganisms related to the cosmopolitan square archaeon "Haloquadra walsbyi," although a substantial number of the sequences in the libraries (31% of the 16S rRNA gene archaeal clones) were related to Halobacterium sp., which is not normally found in clone libraries from solar salterns. All the bacterial clones were closely related to each other and to the gamma-proteobacterium "Pseudomonas halophila" DSM 3050. FISH analysis with a probe specific for this bacterial assemblage revealed that it accounted for 69 to 76% of the total bacterial counts detected with a Bacteria-specific probe. When pond water was used to inoculate solid media containing 25% total salts, both extremely halophilic Archaea and Bacteria were isolated. Archaeal isolates were not related to the isolates in clone libraries, although several bacterial isolates were very closely related to the "P. halophila" cluster found in the libraries. As observed for other hypersaline environments, extremely halophilic bacteria that had ecological relevance seemed to be easier to culture than their archaeal counterparts.