Lu Shipeng, Park Minjeong, Ro Hyeon-Su, Lee Dae Sung, Park Woojun, Jeon Che Ok
Division of Environmental Biotechnology & PMBBRC, Gyeongsang National University, GyeongNam 660-701, Republic of Korea.
J Microbiol. 2006 Apr;44(2):155-61.
Comparative analysis of microbial communities in a sequencing batch reactor which performed enhanced biological phosphorus removal (EBPR) was carried out using a cultivation-based technique and 16S rRNA gene clone libraries. A standard PCR protocol and a modified PCR protocol with low PCR cycle was applied to the two clone libraries of the 16S rRNA gene sequences obtained from EBPR sludge, respectively, and the resulting 424 clones were analyzed using restriction fragment length polymorphisms (RFLPs) on 16S rRNA gene inserts. Comparison of two clone libraries showed that the modified PCR protocol decreased the incidence of distinct fragment patterns from about 63% (137 of 217) in the standard PCR method to about 34% (70 of 207) under the modified protocol, suggesting that just a low level of PCR cycling (5 cycles after 15 cycles) can significantly reduce the formation of chimeric DNA in the final PCR products. Phylogenetic analysis of 81 groups with distinct RFLP patterns that were obtained using the modified PCR method revealed that the clones were affiliated with at least 11 phyla or classes of the domain Bacteria. However, the analyses of 327 colonies, which were grouped into just 41 distinct types by RFLP analysis, showed that they could be classified into five major bacterial lineages: alpha, beta, gamma- Proteobacteria, Actinobacteria, and the phylum Bacteroidetes, which indicated that the microbial community yielded from the cultivation-based method was still much simpler than that yielded from the PCR-based molecular method. In this study, the discrepancy observed between the communities obtained from PCR-based and cultivation-based methods seems to result from low culturabilities of bacteria or PCR bias even though modified culture and PCR methods were used. Therefore, continuous development of PCR protocol and cultivation techniques is needed to reduce this discrepancy.
利用基于培养的技术和16S rRNA基因克隆文库,对序批式反应器中进行强化生物除磷(EBPR)的微生物群落进行了比较分析。分别将标准PCR方案和低PCR循环次数的改良PCR方案应用于从EBPR污泥中获得的16S rRNA基因序列的两个克隆文库,并使用16S rRNA基因插入片段的限制性片段长度多态性(RFLP)对得到的424个克隆进行分析。两个克隆文库的比较表明,改良PCR方案使不同片段模式的发生率从标准PCR方法中的约63%(217个中的137个)降至改良方案下的约34%(207个中的70个),这表明仅低水平的PCR循环(15个循环后5个循环)就能显著减少最终PCR产物中嵌合DNA的形成。对使用改良PCR方法获得的具有不同RFLP模式的81组克隆进行系统发育分析,结果显示这些克隆隶属于细菌域的至少11个门或纲。然而,对327个菌落(通过RFLP分析仅分为41种不同类型)的分析表明,它们可分为五个主要细菌谱系:α、β、γ-变形菌纲、放线菌纲和拟杆菌门,这表明基于培养方法产生的微生物群落仍比基于PCR的分子方法产生的微生物群落简单得多。在本研究中,基于PCR方法和基于培养方法获得的群落之间观察到的差异似乎是由于细菌的低可培养性或PCR偏差导致的,尽管使用了改良的培养和PCR方法。因此,需要不断改进PCR方案和培养技术以减少这种差异。
