新疆沙湾冷泉沉积物中免培养古菌多样性初步研究

【目的】了解新疆沙湾冷泉沉积物的古菌组成及多样性。【方法】采用免培养法,液氮研磨提取冷泉沉积物总DNA,使用古菌通用引物进行16S rRNA基因扩增,构建16S rRNA基因文库。对阳性克隆进行HhaI限制性酶切分型,选出具有不同酶切图谱的序列进行测序,将所得序列与GenBank数据库中序列比对并构建16S rRNA基因系统发育树。【结果】从冷泉沉积物古菌16S rRNA基因文库中随机挑选了121个阳性克隆,共得到22个不同的可操作分类单元,BLAST结果表明全部克隆子归属于泉古菌门(Crenarchaeote)中免培养类群。系统发育分析归类为Soil-Freshwater-subsurface group和MarinegroupI,2个亚群并且各占整个文库的50%。其中40%左右的克隆子与具有无机碳和硝酸盐同化能力的泉古菌有高的相似性。此外还发现40%的克隆子与低温泉古菌类群具有很高的相似性。【结论】新疆沙湾冷泉沉积物中古菌类群多样性较低,但存有大量高度适应此低温、贫营养环境的泉古菌类群。     

新疆艾比湖和伊吾湖可培养嗜盐古菌多样性

新疆地区盐湖密布,蕴藏着丰富的微生物资源。为保护和利用微生物物种与基因资源,作者从新疆准噶尔盆地的艾比湖和天山山间盆地的伊吾湖分离纯化嗜盐微生物。采用PCR方法扩增其中65株嗜盐古菌16SrRNA基因序列。序列分析表明,分离的嗜盐古菌分属6个属,艾比湖以Haloterrigena和Natrinema属的菌株为主,伊吾湖由Haloarcula和Halorubrum两个属的菌株构成。通过多样性指数、丰富度指数、均匀度指数和物种相对多度模型对分离的菌株进行多样性分析和比较,结果表明,盐湖嗜盐古菌的多样性指数、丰富度指数和均匀度指数具有一定相关性,艾比湖可培养嗜盐古菌的多样性高于伊吾湖。研究发现了一些新的物种资源,表明新疆盐湖中孕育的特色微生物资源亟待保护与利用。     

新疆顿巴斯他乌盐湖沉积物免培养古菌多样性

【目的】了解新疆顿巴斯他乌盐湖沉积物免培养古菌组成及多样性。【方法】利用免培养法直接从顿巴斯他乌盐湖沉积物样品中提取环境总DNA,采用古菌通用引物对16S rRNA基因进行扩增,构建基因克隆文库。对随机挑选的59个阳性克隆进行HaeⅢ限制性酶切分型并测序、BLAST比对及构建16S rRNA基因系统发育树。【结果】文库覆盖率为89%,Shannon-Wiener指数为2.69,共得到21个不同的可操作分类单元,分属于广古菌门(Euryarchaeota,92%)和泉古菌门(Crenarchaeota,8%),其中多数为盐杆菌科(Halobacteriaceae,88%)的盐杆菌属(Halobacterium,24%)、盐盒菌属(Haloarcula,18%)、盐碱红菌属(Natronorubrum,14%)、盐红菌属(Halorubrum,8%)等,与海盐环境(thalassohaline)获得的16S rRNA基因序列相似性最高(﹥95%);整个文库中约11%的克隆与可培养古菌多个属的相似性小于97%。【结论】顿巴斯他乌盐湖古菌多样性略低于同类高盐环境,组成较为一致,只是各类群所占百分比稍有不同,且可能存在一些潜在新物种或新类群。     

引物应用策略：基于2对古菌16S rRNA基因通用引物对环境样品古菌多样性分析

【目的】找到适宜的16S rRNA基因通用引物应用策略,应对复杂环境微生物多样性调查,尤其目前高速发展的高通量测序技术带来的巨大挑战。【方法】用Oligocheck软件分别将两对应试的古菌16S rRNA基因通用引物与RDP(Ribosomal database project)数据库中古菌16S rRNA基因序列进行匹配比对。用两对应试引物分别构建海洋沉积物样品的古菌16S rRNA基因文库。【结果】软件匹配结果显示引物f109/r958与目的基因的匹配程度高于引物f21/r958。该结果与古菌16S rRNA基因文库RFLP分析、古菌多样性指数分析结果相吻合。数据还表明,2对引物的综合文库能更好满足该沉积物样品的古菌多样性分析。【结论】选用与数据库中目的基因匹配性高的通用引物和多个引物的联合使用,可以有效提高环境样品微生物多样性调查的分辨率。     

西藏米拉山土壤古菌16S rRNA及amoA基因多样性?分析

摘要：【目的】硝化作用在全球土壤氮循环中具有重要的作用,虽然细菌一度被认为单独负责催化这个过程的限速步骤,但是最近一些研究结果表明泉古菌具有氨氧化的能力。本文通过构建古菌16S rRNA 基因克隆文库和氨氧化古菌amoA基因文库,分析西藏米拉山高寒草甸土壤中古菌及氨氧化古菌群落结构组成情况,为揭示青藏高原高寒草甸土壤古菌的多样性提供理论基础。【方法】采用未培养技术直接从土壤中提取微生物总DNA,分别利用通用引物构建古菌16S rRNA 基因和氨氧化古菌amoA基因克隆文库。【结果】通过构建系统发育树,表明古菌16S rRNA 基因克隆文库包括泉古菌门和未分类的古菌两大类,并且所有泉古菌均属于热变形菌纲。氨氧化古菌amoA基因克隆文库中序列均为泉古菌。通过DOTUR软件分析,古菌16S rRNA基因和古菌amoA基因克隆文库分别包括64个OTUs和 75个OTUs。【结论】西藏米拉山高寒草甸土壤中古菌多样性比较丰富,表明古菌在高寒草甸土壤的氮循环中可能具有重要的作用。所获得的一些序列与已知环境中土壤、淡水及海洋沉积物中获得的一些序列具有很高的相似性,其古菌及氨氧化古菌来自不同环境的可能性比较大,可能与青藏高原的地质历史变迁过程有关。米拉山古菌及氨氧化古菌与陆地设施土壤中相似性最高,说明与西藏米拉山高寒草甸土壤的退化有关。     

新疆乌鲁木齐10号冷泉古菌群落结构多样性

[目的]探究新疆地震断裂带含硫冷泉泉水古菌群落组成及多样性.[方法]利用酶解法直接从冷泉泉水样品中提取环境总DNA,采用古菌通用引物对16S rRNA基因进行扩增,构建16S rRNA基因克隆文库,通过Alu Ⅰ和AfaⅠ两种限制性内切酶对随机挑选的115个阳性克隆子进行酶切分型,将不同酶切带型对应的克隆子送样测序,测序结果与GenBank序列进行比对并构建16S rRNA基因系统发育树.[结果]古菌克隆文库中共得到44个不同的酶切带型,BLAST序列比对和系统发育分析将它们划分于广古菌门(Euryarchaeota,94.78％)和奇古菌门(Thaumarchaeota,4.35％).奇古菌门克隆与Nitrosopumilus.sp序列相似性达到了93％;而广古菌门类群较为多样,其中,42.61％的克隆子属于RC-V cluster,20.87％与13.91％的克隆子分别属于LDS cluster和Methanomicrobiales,4.35％的克隆子与甲烷厌氧氧化相关的类群(ANME-1a-FW)具有较高的的相似.另外,13.05％的克隆子属于广古菌门中的未知类群.[结论]乌鲁木齐10号泉水体中广古菌类群多样,可能蕴藏有大量潜在的古菌新类群.     

利用小亚基核糖体RNA 技术分析温室黄瓜近根土壤古菌和真菌多样性

土壤古菌和真菌在温室生态系统是仅次于细菌的微生物,具有类似于细菌的重要生态功能。通过构建古菌16S rRNA和真菌18S rRNA基因克隆文库,分析温室黄瓜近根土壤古菌和真菌群落结构组成,为开发利用温室这一特殊的生态环境中丰富的微生物资源以及理解微生物与植物间的互作提供参考依据。采用研磨-冻融-溶菌酶-蛋白酶K-SDS热处理以及CTAB处理等理化方法,提取和纯化微生物总DNA,构建古菌16S rRNA和真菌18S rRNA基因克隆文库。利用DOTUR软件将古菌和真菌序列按照相似性97％的标准分成若干个可操作分类单元 (OTUs)。土壤古菌克隆文库主要包括泉古菌门和未分类的古菌两大类,并有少部分广域古菌类群,所有泉古菌均属于热变形菌纲,共45个OTUs;真菌克隆文库包括真菌门的大多数亚门真菌,共24个OTUs,未发现担子菌亚门真菌。古菌多样性比较丰富,且发现少量的广域古菌 (甲烷菌),这一情况可能与温室长期高温高湿,高有机质含量,土壤处于缺氧环境有关;土壤真菌的优势种群为子囊菌,占到土壤真菌的80％以上,这可能与绝大多数植物真菌性病害属于土传病害,通过菌丝体、菌核或子囊壳在土壤病残体中越冬有一定的关系。     

云南黑井古盐矿可培养极端嗜盐古菌初步研究*

从云南禄丰县黑井古镇古盐矿采集30多个盐土样品,用6种极端嗜盐古菌的培养基进行分离,共挑选出425株嗜盐菌。经过盐浓度耐受等实验筛选并去除可能重复菌株后共有79株极端嗜盐菌,选出15株进行了16S rRNA基因序列测定,结果显示,其中11株为极端嗜盐古菌。对这11株菌进行初步系统发育分析发现,它们广泛分布在极端嗜盐古菌科至少4个不同属中,其中16S rRNA基因和已有效发表种间的序列相似性在97％以上的有6株,分布在Halorubrum,Natronococcus,Natrialba,Halalkalicoccus4个属中;序列相似性低于97％的有5株：菌株YIM-ARC 0032,YIM-ARC 0036,YIM-ARC 0037,YIM-ARC 0050,它们的分类地位有待进一步确定。实验初步显示出了云南黑井盐矿极端嗜盐古菌的多样性和丰富度,值得深入研究。     

海洋古菌多样性研究进展

海洋古菌是海洋微生物中的一个大的类群,然而绝大多数的古菌不能分离培养.近年来分子生物学的方法广泛地应用于微生物多样性的研究中,研究发现,海洋古菌广泛地生活在各类海域环境中,而不仅仅是生活在极端的环境中.海洋古菌为海洋生态系统中主要的原核细胞成分,在海洋生态系统中的物质与能量循环中扮演着重要角色.主要阐述了生活在海洋不同环境中海洋古菌的多样性,有海洋浮游古菌的多样性、海底环境及海洋沉积物中古菌的多样性、附着或寄共生古菌多样性等的研究状况,以及研究海洋古菌多样性的分子生物学的主要方法.     

新疆艾丁湖中度嗜盐苯酚降解菌多样性研究

高盐含酚废水属于极难处理的废水之一,筛选具有生物学降解能力的嗜盐菌有助于解决这一难题。从新疆艾丁湖盐湖中分离筛选能够降解苯酚的中度嗜盐菌,了解盐湖中度嗜盐苯酚降解菌的多样性组成和降解能力。研究结果表明,10%(质量分数)的盐浓度条件下,分离得到166株嗜盐菌,通过以苯酚为唯一碳源的培养基进行降解活性筛选后得到45株阳性菌,根据细菌16S rRNA基因序列系统进化分析,这45株菌分别归类到3个门,5个科,9个属。其中拟诺卡氏菌属(Nocardiopsis)是优势菌,占总量的68.8%,其余菌分布于Bacillus、Gracilibacillus、Pontibacillus、Halobacillus、Marinococcus和Halomonas属。在含100 mg/L苯酚的液体培养基,经过10 d培养后,这45株菌降解效率为1%~17%。本研究为工业应用提供了嗜盐微生物种质资源,极具进一步发掘和研究价值。     

内蒙古锡林浩特地区嗜盐古菌多样性的研究

从内蒙古锡林浩特地区3个不同的盐湖中共分离到165株古菌,通过ARDRA分析后得到不同的类群,从各个类群中随机选取1~2个代表菌株进行16S rDNA序列测定和系统发育的分析。结果表明分离的菌株分布在Halorubrum,Natronococcus,Natronorubrum,Haloterrigena,Halorhabdus,Halobiforma,Haloarcula,Haloferax8个属和另外两个分支中,表现了锡林浩特地区嗜盐古菌的多样性。部分菌株的16S rDNA序列同源性低于97%,可能是潜在的新属或新种,代表了该地区嗜盐古菌的独特类型。     

Detection of Ammonia-Oxidizing Archaea in Fish Processing Effluent Treatment Plants

Ammonia oxidation is the rate limiting step in nitrification and thus have an important role in removal of ammonia in natural and engineered systems with participation of both ammonia-oxidizing archaea (AOA) and ammonia-oxidizing bacteria (AOB). However, their relative distribution and activity in fish processing effluent treatment plants (FPETPs) though significant, is hitherto unreported. Presence of AOA in sludge samples obtained from FPETPs was studied by amplification and sequencing of thaumarchaeal ammonia monooxygenase subunit A (AOA-amoA) gene. Different primer sets targeting 16S rRNA and AOA-amoA gene were used for the detection of AOA in FPETPs. Phylogenetic analysis of the gene revealed that the AOA was affiliated with thaumarchaeal group 1.1a lineage (marine cluster). Quantitative real time PCR of amoA gene was used to study the copy number of AOA and AOB in FPETPs. The AOA-amoA and AOB-amoA gene copy numbers of sludge samples ranged from 2.2 × 10⁶ to 4.2 × 10⁸ and 1.1 × 10⁷ to 8.5 × 10⁸ mg⁻¹ sludge respectively. Primer sets Arch-amoAF/Arch-amoAR and 340F/1000R were found to be useful for the sensitive detection of AOA-amoA and Archaeal 16S rRNA genes respectively in FPETPs. Their presence suggests the widespread occurrence and possible usefulness in removing ammonia from FPETPs which is in line with reports from other waste water treatment plants.

Electronic supplementary material

The online version of this article (doi:10.1007/s12088-014-0484-6) contains supplementary material, which is available to authorized users.     

西南地区高山湖泊中可培养细菌多样性及其所产胞外活性物质的特性

【目的】研究西南不同地区的高山湖泊中可培养细菌的多样性及其产胞外蛋白酶、纤维素酶和胞外多糖的能力。【方法】以西南4个不同地区的高山湖泊:雷波的马湖(LB)、中缅边境的凯邦亚湖(ZM)、沙德的莲花湖(SD)、腾冲的青海湖(TC)的水样为研究对象,利用稀释涂布平板方法对可培养细菌进行分离筛选,然后通过对可培养细菌的生理生化指标和16S r RNA基因序列进行分析,初步确定细菌属别;对分离得到的菌株进行产胞外蛋白酶和纤维素酶活性测定和产胞外多糖能力检测。【结果】从西南地区4个湖泊中共分离筛选得到41株细菌,其中LB 15株、ZM 13株、SD 7株、TC 6株。根据16S r RNA基因序列的系统进化分析,4个地区可培养细菌的组成和丰度存在明显差异,其中LB和ZM的优势菌属是芽孢杆菌属(Bacillus),其次是气单胞菌属(Aeromonas)和假单胞菌属(Pseudomonas),分离的TC菌株全部属于芽孢杆菌属(Bacillus),分离的SD菌株特异性较强。进一步酶活性和胞外多糖检测表明,分离得到的41株细菌中有28株菌的发酵产物具有蛋白酶活性,6株具有纤维素酶活性,17株可产胞外多糖(Exopolysaccharides,EPS)。其中有2株细菌同时产蛋白酶、纤维素酶和胞外多糖,10株细菌同时产蛋白酶和胞外多糖,2株细菌同时产蛋白酶和纤维素酶,1株细菌同时产纤维素酶和胞外多糖。【结论】西南4个高山湖泊中存在丰富的微生物菌种资源,且4个湖泊中筛选的可培养细菌受所处环境的影响大。其中莲花湖由于高海拔和较偏僻等特点,人为干扰小,分离得到的细菌类群与其他湖泊相比明显不同;而马湖、凯邦亚湖和青海湖3个湖泊的海拔相对较低,受人类活动影响较大,分离得到的细菌均较常见。此外高山湖泊中的可培养细菌具有分泌多种胞外活性物质特性,为工业化应用奠定了资源基础,极具更深入的开发和研究价值。     

Phylogenetic diversity of endolithic bacteria in Bole granite rock in Xinjiang

The endolithic environment is a ubiquitous microbial habitat for microorganisms, such as lichens, Cyanobacteria and fungi, and it provides mineral nutrients and growth surfaces. In extremely environments, such as hot and cold desert, endolithic communities are often the main form of life. More recently, endolithic microbial communities have been observed inhabiting a variety of rock types ranging from hard granite to porous rocks such as basalt, dolomite, limestone, sandstone and granites. Regardless of geographic location and rock type, each of these habitats is characterized by a subsurface microclimate that prevents endolithic microorganisms growth. Photosynthesis-based endolithic microbial communities commonly inhabit the outer millimeters to centimeters of rocks exposed to the surface. The ability to fix carbon dioxide and in some cases atmospheric dinitrogen, gives the Cyanobacteria a clear competitive advantage over heterotrophic bacteria, so it is been called the main primary producer. Light quality and intensity appear to be the main determinant of the maximum depth to which growth occurs in endolithic phototrophic communities. Valleys of Fantastic Rocks in Bole is close to Alashankou Port of Xinjiang which belongs to extreme continental climate. In order to investigate the structure, composition and diversity of endolithic bacterial community in exposed granitic porphyry in the Valleys of Fantastic Rocks, environmental DNA was directly extracted from granite rock, the 16S rRNA genes were amplified from the total DNA by PCR with bacterial-specific primers, and an endolithic bacterial clone library was constructed. Positive clones were randomly selected from the library and identified by Restriction Fragment Length Polymorphism (RFLP). The unique rRNA types clones were sequenced, analysised and then constructed phylogenetic tree. In total, 129 positive clones were screened and grouped into 46 operational taxonomic unites (OTUs). The clone coverage C value was 89.15%, indicating that most of the estimated endolithic bacterial diversity was sampled. BLAST analysis indicated that 46 OTUs were divided into seven phyla (Acidobacteria, Actinobacteria, Bacteroidetes, Chloroflexi, Cyanobacteria, Planctomycetes, Proteobacteria) and five unknown groups. Cyanobacteria (43%), especially the Gp I, form the functional basis for an endolithic bacteria community which contain a wide spectrum species of chemotrophic bacteria (33%) with mainly Actinobacteria, α-Proteobacteria, Acidobacteria. Additionally, most clones that derived from the endolithic bacteria clone library showed high similarity to the sequence deposited in GenBank database with 97%–99%. Besides, 35% of the clones showed less than 97% of sequence similarity, of which 12% sequences were affiliated to genus Rubrobacter. The results suggested that endolithic bacteria in Valleys of Fantastic Rocks in Xinjiang were highly diverse in species richness, and maybe have a diversity of potential novel species and lineages.     

Molecular diversity analysis of rumen methanogenic Archaea from goat in eastern China by DGGE methods using different primer pairs

Aims:  To screen a pair of primers suitable for denaturing gradient gel electrophoretic (DGGE) analysis of ruminal methanogenic Archaea and to detect the archaeal communities in the rumen of goat.
Methods and Results:  Nine primer pairs for 16S rDNA of methanogenic Archaea , including six for directed polymerase chain reaction (PCR) and three for nested PCR were first evaluated by PCR amplification of the total DNA from rumen fluids and bacteria. The DGGE analysis of rumen fluids was then conducted with three primer sets (344fGC/915r, 1106fGC/1378r and 519f/915rGC) of the nine pairs tested. Good separation and quality of patterns were obtained in DGGE analysis with primer pairs 1106fGC/1378r and 519f/915rGC. A total of 40 DNA fragments were excised from the DGGE gels and their sequences were determined. All fragments belonged to methanogenic Archaea while primer pair 519f/915rGC had better amplification ranges than the other two primer pairs.
Conclusions:  The procedure of DGGE analysis with primer pair 519f/915rGC was more suitable for investigating methanogenic archaeal community in the rumen. The dominant methanogenic Archaea in the rumen of goat was Methanobrevibacter sp. and an unidentified methanogenic Archaea .
Significance and Impact of the Study:  One pair of primers suitable for DGGE analysis of ruminal methanogenic Archaea was obtained and the molecular diversity of ruminal methanogenic Archaea in goat was investigated by PCR-DGGE.