Aguilera Angeles, Gómez Felipe, Lospitao Eva, Amils Ricardo
Centro de Astrobiología (INTA-CSIC), Carretera de Ajalvir Km 4, Torrejón de Ardoz, 28850 Madrid, Spain.
Syst Appl Microbiol. 2006 Nov;29(7):593-605. doi: 10.1016/j.syapm.2006.01.006. Epub 2006 Feb 3.
The diversity of the phytobenthonic community present in six acidophilic microbial mats from Río Tinto (Iberian Pyritic Belt, SW Spain) was analysed by optical microscopy and two molecular techniques, denaturing gradient gel electrophoresis (DGGE) and sequence analysis of 18S rDNA cloned gene fragments. Sixteen DNA isolation protocols as well as two commercial DNA extraction kits were tested and their efficiency compared. Purified DNA extracts were amplified by PCR using universal eukaryotic primers and the PCR products analysed by DGGE. Bead-mill homogenization was found to be superior to the other cell lysis methodologies assayed (sonication or freeze-thawing cycles) as it allowed efficiencies of cell disruption of over 95%. The methods combining bead-mill homogenization in the presence of SDS, treatment with chemical extractants (hexadecylmethylammonium bromide or guanidine isothiocyanate) and phenol extraction resulted in DNA preparations that amplified the same number of bands when analysed by DGGE as the two commercial kits assayed. The phylogenetic affiliations of the DGGE bands were determined by a BLAST search, and nine different species related to the Chlorophyta, Ciliophora, Kinetoplastida, Ascomycota, Streptophyta and Colcochaetales taxonomical groups were identified. Similar levels of diversity were found using cloning procedures. Although not all the species observed under the microscope were detected using molecular techniques, e.g. euglenas, heliozoan, or amoebae, DGGE fingerprints showed rather well the level of diversity present in the samples analysed, with limitations similar to cloning techniques.
通过光学显微镜以及变性梯度凝胶电泳(DGGE)和18S rDNA克隆基因片段序列分析这两种分子技术,对来自西班牙西南部伊比利亚黄铁矿带力拓河的六个嗜酸微生物垫中存在的植物底栖生物群落多样性进行了分析。测试了16种DNA分离方案以及两种商业DNA提取试剂盒,并比较了它们的效率。使用通用真核引物通过PCR扩增纯化的DNA提取物,并通过DGGE分析PCR产物。发现珠磨匀浆法优于所检测的其他细胞裂解方法(超声处理或冻融循环),因为它能实现超过95%的细胞破碎效率。将珠磨匀浆法与SDS存在下的化学提取剂(十六烷基甲基溴化铵或异硫氰酸胍)处理和苯酚提取相结合的方法,所得到的DNA制剂经DGGE分析时扩增出的条带数量与所检测的两种商业试剂盒相同。通过BLAST搜索确定了DGGE条带的系统发育归属,鉴定出了与绿藻门、纤毛虫纲、动质体目、子囊菌门、链形植物门和鞘毛藻目分类群相关的9个不同物种。使用克隆程序也发现了相似的多样性水平。尽管使用分子技术未检测到显微镜下观察到的所有物种,例如裸藻、太阳虫或变形虫,但DGGE指纹图谱相当好地显示了所分析样品中的多样性水平,其局限性与克隆技术类似。