Casamayor E O, Schäfer H, Bañeras L, Pedrós-Alió C, Muyzer G
Departament de Biologia Marina i Oceanografia, Institut de Ciències del Mar-CSIC, E-08039 Barcelona, Spain.
Appl Environ Microbiol. 2000 Feb;66(2):499-508. doi: 10.1128/AEM.66.2.499-508.2000.
The microbial assemblages of Lake Cisó and Lake Vilar (Banyoles, northeast Spain) were analyzed in space and time by microscopy and by performing PCR-denaturing gradient gel electrophoresis (DGGE) and sequence analysis of 16S rRNA gene fragments. Samples obtained from different water depths and at two different times of the year (in the winter during holomixis and in the early spring during a phytoplankton bloom) were analyzed. Although the lakes have the same climatic conditions and the same water source, the limnological parameters were different, as were most of the morphologically distinguishable photosynthetic bacteria enumerated by microscopy. The phylogenetic affiliations of the predominant DGGE bands were inferred by performing a comparative 16S rRNA sequence analysis. Sequences obtained from Lake Cisó samples were related to gram-positive bacteria and to members of the division Proteobacteria. Sequences obtained from Lake Vilar samples were related to members of the Cytophaga-Flavobacterium-Bacteroides phylum and to cyanobacteria. Thus, we found that like the previously reported differences between morphologically distinct inhabitants of the two lakes, there were also differences among the community members whose morphologies did not differ conspicuously. The changes in the species composition from winter to spring were also marked. The two lakes both contained sequences belonging to phototrophic green sulfur bacteria, which is consistent with microscopic observations, but these sequences were different from the sequences of cultured strains previously isolated from the lakes. Euryarchaeal sequences (i.e., methanogen- and thermoplasma-related sequences) also were present in both lakes. These euryarchaeal group sequences dominated the archaeal sequences in Lake Cisó but not in Lake Vilar. In Lake Vilar, a new planktonic population related to the crenarchaeota produced the dominant archaeal band. The phylogenetic analysis indicated that new bacterial and archaeal lineages were present and that the microbial diversity of these assemblages was greater than previously known. We evaluated the correspondence between the abundances of several morphotypes and DGGE bands by comparing microscopy and sequencing results. Our data provide evidence that the sequences obtained from the DGGE fingerprints correspond to the microorganisms that are actually present at higher concentrations in the natural system.
通过显微镜检查、聚合酶链反应-变性梯度凝胶电泳(DGGE)以及16S rRNA基因片段序列分析,对西班牙东北部巴尼奥莱斯的西索湖和比拉尔湖的微生物群落进行了时空分析。分析了从不同水深以及一年中两个不同时间(冬季全混合期和早春浮游植物大量繁殖期)采集的样本。尽管这两个湖具有相同的气候条件和水源,但湖沼学参数不同,显微镜下计数的大多数形态可辨的光合细菌也是如此。通过进行比较16S rRNA序列分析,推断出主要DGGE条带的系统发育关系。从西索湖样本获得的序列与革兰氏阳性菌以及变形菌门成员相关。从比拉尔湖样本获得的序列与噬纤维菌-黄杆菌-拟杆菌门成员以及蓝细菌相关。因此,我们发现,如同之前报道的两个湖形态不同的生物之间存在差异一样,形态没有明显差异的群落成员之间也存在差异。从冬季到春季,物种组成的变化也很显著。两个湖都含有属于光合绿色硫细菌的序列,这与显微镜观察结果一致,但这些序列与之前从湖中分离出的培养菌株的序列不同。广古菌序列(即与产甲烷菌和嗜热栖热菌相关的序列)在两个湖中也都存在。这些广古菌群落在西索湖的古菌序列中占主导地位,但在比拉尔湖中并非如此。在比拉尔湖,一个与泉古菌相关的新浮游生物种群产生了主要的古菌条带。系统发育分析表明存在新的细菌和古菌谱系,并且这些群落的微生物多样性比之前所知的更大。通过比较显微镜检查和测序结果,我们评估了几种形态类型的丰度与DGGE条带之间的对应关系。我们的数据提供了证据,表明从DGGE指纹图谱获得的序列对应于自然系统中实际以较高浓度存在的微生物。
