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荣成月湖是一个典型天然潟湖,潮间带沉积物中存在多种形态趋磁细菌。通过Roche454高通量测序平台,对沉积物样品(B_S)和磁收样品(B_M)进行16SrRNA基因高通量测序,认识荣成潮间带沉积物的细菌群落结构,并了解趋磁细菌多样性及系统进化地位。研究结果表明沉积物样品中主要的细菌类群为δ-变形菌纲,占总细菌数的26.4%,其次是γ-变形菌纲和α-变形菌纲;而磁收样品中细菌多样性和种类明显降低,以α-变形菌纲占绝对优势,相对比例达72.6%。在磁收样品和沉积物样品分别发现了1 612条和186条reads与趋磁细菌相关,分别占细菌总数的5.76%和0.85%,磁收样品中趋磁细菌数是沉积物样品的6.8倍。对两个样品中获得的趋磁细菌序列进行系统进化分析,发现这些序列多数属于变形菌门的α-变形菌纲,以趋磁球菌占绝对优势,少数属于δ-变形菌纲,与多细胞趋磁原核生物亲缘关系最近。海洋趋磁螺菌属仅在B_M样品中检出,趋磁弧菌属在B_M样品优势度高于B_S样品,而多细胞趋磁原核生物和趋磁螺菌属在B_S样品中优势度更高。通过分析样品间的差异OTUs,认为荣成潮间带沉积物中可能存在大量未知的趋磁细菌新类群。研究结果为下一步培养和开发趋磁细菌这一功能菌群,发现趋磁细菌新类群及趋磁细菌生态功能提供了基础资料。  相似文献   
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趋磁细菌(magnetotactic bacteria,MTB)是一类能够沿着磁力线运动的特殊细菌。MTB在胞内磁小体的导向下借助自身鞭毛进行趋磁趋氧运动,以到达适宜的生境。本研究在青岛潮间带沉积物中发现大量的趋磁球菌,通过光镜与透射电镜对其运动方式与显微结构进行观察。结果显示优势趋磁细菌为卵球形,大小为2.5μm×2.1μm,宽长比为0.85,将其命名为QH-3。QH-3为趋北型(North-seeking)MTB,运动速度88μm/s,细胞内两侧各有一条由棱柱形颗粒组成的磁小体链。QH-3在菌体同一侧有两个由直径62 nm±9 nm的鞘包裹7根鞭毛组成的鞭毛束。这种特殊的鞭毛结构与已报道的致病菌的不同,而与法国地中海趋磁球菌MO-1的相似。  相似文献   
3.
在三亚天涯海角潮间带沉积物中发现了一定量的海洋趋磁细菌,最大丰度可达100个/cm3。透射电子显微镜(TEM)观察发现该区域趋磁细菌绝大多数为趋磁球菌。磁小体形状单一,皆为棱柱形;磁小体排列方式多样,以链状排列为主,包括单链、双链,也有少数成簇排列。高分辨率透射电子显微镜(HRTEM)与X-射线能谱仪(EDXS)结果表明,磁小体成分为Fe3O4。趋磁细菌的铁含量平均为2.05%(0.70%~7.53%)。通过16S r RNA基因文库的构建与测序,在78个阳性克隆中得到了16个趋磁细菌序列,分属9个OTU。系统发育分析结果表明,其中8个OTU属于α-变形菌纲,1个OTU属于γ-变形菌纲。在全部9个OTU中,有8个OTU与已知趋磁细菌序列的相似性低于97%,有5个OTU与已知趋磁细菌序列的相似性低于93%,说明该区域存在可观的趋磁细菌资源。  相似文献   
4.
黄海冷水团附近沉积物中的趋磁细菌及磁小体的特性研究   总被引:3,自引:0,他引:3  
对黄海冷水团附近海域的沉积物进行了富集、荧光显微镜观察、电镜观察,并对其中大小均匀、形状规则的高密度颗粒进行了能谱分析。结果显示,在黄海冷水团附近有趋磁细菌和磁小体的存在。  相似文献   
5.
荣成月湖潮间带单细胞趋磁细菌的多样性研究   总被引:1,自引:0,他引:1  
Marine magnetotactic bacteria were collected from the intertidal sediments of Yuehu Lake(China), where their abundance reached 103–104 ind./cm3. Diverse morphotypes of magnetotactic bacteria were observed, including cocci and oval, vibrio-, spirillum-, rod-, elliptical-, handle- and bar-shaped forms. The magnetococci were the most abundant, and had flagella arranged in parallel within a bundle. The majority of magnetosomes were arranged in one, two or multiple chains, although irregular arrangements were also evident. All the results of high-resolution transmission electron microscopy(HRTEM) analysis show that magnetosome crystals were composed of Fe3O4, and their morphology was specific to particular cell morphotypes. By the 16 S r RNA gene sequence analysis, we found fourteen operational taxonomic units(OTUs) which were related to magnetotactic bacteria. Among these, thirteen belonged to the Alphaproteobacteria and one to the Gammaproteobacteria.Compared with known axenic and uncultured marine magnetotactic bacteria, the 16 S r RNA gene sequences of most magnetotactic bacteria collected from the Yuehu Lake exhibited sequence identities ranging from 90.1% to96.2%(97%). The results indicate that microbial communities containing previously unidentified magnetotactic bacteria occur in the Yuehu Lake.  相似文献   
6.
Magnetospira sp.QH-2是一株分离自黄海潮间带的海洋趋磁螺菌,该菌磁小体排列不整齐,并且磁小体链内某些区域排列疏松,推测与其磁小体岛上的mam K编码的Mam K蛋白相关。mam K开放阅读框大小为1086 bp,编码361个氨基酸,Mam K蛋白属于NBD_sugar-kinase_HSP70_actin超家族,为非跨膜蛋白;此外,还利用生物信息学工具预测Mam K蛋白二级和三级结构。系统进化分析显示Mam K蛋白的系统进化和16S r RNA基因的系统进化有一定差异,推测磁小体岛的获得可能与菌种的进化是独立的两个过程;淡水与海水中的趋磁螺菌虽然形态相似,但系统进化地位有一定差异,可能是两者不同生境下适应性演化的结果。  相似文献   
7.
Magnetotactic bacteria are a group of Gram-negative bacteria that synthesize magnetic crystals, enabling them to navigate in relation to magnetic field lines. Morphologies of magnetotactic bacteria include spirillum, coccoid, rod, vibrio, and multicellular morphotypes. The coccid shape is generally the most abundant morphotype among magnetotactic bacteria. Here we describe a species of giant rod-shaped magnetotactic bacteria(designated QR-1) collected from sediment in the low tide zone of Huiquan Bay(Yellow Sea, China). This morphotype accounted for 90% of the magnetotactic bacteria collected, and the only taxonomic group which was detected in the sampling site. Microscopy analysis revealed that QR-1 cells averaged(6.71±1.03)×(1.54±0.20) m m in size, and contained in each cell 42–146 magnetosomes that are arranged in a bundle formed one to four chains along the long axis of the cell. The QR-1 cells displayed axial magnetotaxis with an average velocity of 70±28 mm/s. Transmission electron microscopy based analysis showed that QR-1 cells had two tufts of fl agella at each end. Phylogenetic analysis of the 16 S r RNA genes revealed that QR-1 together with three other rod-shaped uncultivated magnetotactic bacteria are clustered into a deep branch of A lphaproteobacteria.  相似文献   
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