Mahmood Shahid, Freitag Thomas E, Prosser James I
School of Medical Sciences, Institute of Medical Sciences, University of Aberdeen, Foresterhill, Aberdeen, UK.
FEMS Microbiol Ecol. 2006 Jun;56(3):482-93. doi: 10.1111/j.1574-6941.2006.00080.x.
PCR-based techniques are commonly used to characterize microbial communities, but are subject to bias that is difficult to assess. This study aimed to evaluate bias of several PCR primer-based strategies used to study diversity of autotrophic ammonia oxidizers. 16S rRNA genes from soil- or sediment-DNA were amplified using primers considered either selective or specific for betaproteobacterial ammonia oxidizers. Five approaches were assessed: (a) amplification with primers betaAMO143f-betaAMO1315r; (b) amplification with primers CTO189f-CTO654r; (c) nested amplification with betaAMO143f-betaAMO1315r followed by CTO189f-CTO654r primers; (d) nested amplification with betaAMO143f-betaAMO1315r and CTO189f-Pf1053r primers; (e) nested amplification with 27f-1492r and CTO189f-CTO654r primers. Amplification products were characterized by denaturing gradient gel electrophoresis (DGGE) analysis after further amplification with 357f-GC-518r primers. DGGE profiles of soil communities were heterogeneous and depended on the approach followed. Ammonia oxidizer diversity was higher using approaches (b), (c) and (e) than using (a) and (d), where sequences of the most prominent bands showed similarities to nonammonia oxidizers. Profiles from marine sediments were more consistent, regardless of the approach adopted, and sequence analysis of excised bands indicated that these consisted of ammonia oxidizers only. The study demonstrates the importance of choice of primer, of screening for sequences of nontarget organisms and use of several approaches when characterizing microbial communities in natural environments.
基于聚合酶链式反应(PCR)的技术通常用于表征微生物群落,但容易受到难以评估的偏差影响。本研究旨在评估几种基于PCR引物的策略在研究自养氨氧化菌多样性时的偏差。使用对β-变形菌纲氨氧化菌具有选择性或特异性的引物,扩增土壤或沉积物DNA中的16S rRNA基因。评估了五种方法:(a)用引物betaAMO143f-betaAMO1315r进行扩增;(b)用引物CTO189f-CTO654r进行扩增;(c)先用引物betaAMO143f-betaAMO1315r进行巢式扩增,然后用引物CTO189f-CTO654r进行扩增;(d)先用引物betaAMO143f-betaAMO1315r和CTO189f-Pf1053r进行巢式扩增;(e)先用引物27f-1492r进行扩增,然后用引物CTO189f-CTO654r进行扩增。用引物357f-GC-518r进一步扩增后,通过变性梯度凝胶电泳(DGGE)分析对扩增产物进行表征。土壤群落的DGGE图谱具有异质性,且取决于所采用的方法。方法(b)、(c)和(e)所检测到的氨氧化菌多样性高于方法(a)和(d),其中最突出条带的序列与非氨氧化菌相似。无论采用何种方法,海洋沉积物的图谱都更一致,对切下条带的序列分析表明这些条带仅由氨氧化菌组成。该研究表明,在表征自然环境中的微生物群落时,选择引物、筛选非目标生物序列以及采用多种方法的重要性。
