对引物和探针与细菌小亚基rRNA序列杂交潜力的计算机分析。
A computer analysis of primer and probe hybridization potential with bacterial small-subunit rRNA sequences.
作者信息
Brunk C F, Avaniss-Aghajani E, Brunk C A
机构信息
Biology Department, University of California, Los Angeles 90024-1606, USA.
出版信息
Appl Environ Microbiol. 1996 Mar;62(3):872-9. doi: 10.1128/aem.62.3.872-879.1996.
Abstract
Analysis of restriction fragment length polymorphism of bacterial small-subunit (SSU) rRNA sequences represents a potential means for characterizing complex bacterial populations such as those found in natural environments. In order to estimate the resolution potential of this approach, we have examined the SSU rRNA sequences in the Ribosomal Database Project bank using a computer algorithm which simulates hybridization between DNA sequences. Simulated hybridizations between a primer or probe sequence and an SSU rRNA sequence yield a value for each potential hybridization. This algorithm has been used to evaluate sites for PCR primers and hybridization probes used for classifying SSU rRNA sequences. Our analysis indicates that length variation in terminal restriction fragments of PCR products from the SSU rRNA sequences can identify a wide spectrum of bacteria. We also observe that the majority of restriction fragment length variation is the result of insertions and deletions rather than restriction site polymorphisms. This approach is also used to evaluate the relative efficiency and specificity of a number of published hybridization probes.
摘要
分析细菌小亚基(SSU)rRNA序列的限制性片段长度多态性是表征复杂细菌群体(如自然环境中发现的细菌群体)的一种潜在方法。为了评估这种方法的分辨潜力,我们使用一种模拟DNA序列间杂交的计算机算法,检查了核糖体数据库项目库中的SSU rRNA序列。引物或探针序列与SSU rRNA序列之间的模拟杂交为每个潜在杂交产生一个值。该算法已用于评估用于分类SSU rRNA序列的PCR引物和杂交探针的位点。我们的分析表明,来自SSU rRNA序列的PCR产物末端限制性片段的长度变化可以识别广泛的细菌。我们还观察到,大多数限制性片段长度变化是插入和缺失的结果,而不是限制性位点多态性。这种方法还用于评估许多已发表的杂交探针的相对效率和特异性。
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