Van Dyke M I, McCarthy A J
School of Biological Sciences, University of Liverpool, Liverpool L69 7ZB, United Kingdom.
Appl Environ Microbiol. 2002 Apr;68(4):2049-53. doi: 10.1128/AEM.68.4.2049-2053.2002.
Primer sets specific for 16S rRNA genes were designed for four phylogenetic groups of clostridia known to contain mesophilic cellulolytic species. Specific amplification of these groups from landfill leachate DNA extracts demonstrated the widespread occurrence of clostridia from the Clostridium thermocellum and C. leptum groups. In contrast, the C. botulinum group was never detected, and the C. coccoides-C. lentocellum group was only occasionally detected. Amplification products were analyzed by temporal thermal gel electrophoresis to generate profiles of the clostridial groups and to identify dominant bands. Sequence analysis of 17 landfill clones confirmed that the primers were specific for the clostridial subgroups and that the cloned sequences had a close relationship with known cellulose-degrading clostridia. The primers have therefore been authenticated for use in the rapid identification of clostridia in anaerobic environments.
针对已知含有嗜温性纤维素分解菌的梭菌四个系统发育组,设计了用于16S rRNA基因的引物对。从垃圾渗滤液DNA提取物中对这些组进行特异性扩增,结果表明来自热纤梭菌属和纤细梭菌组的梭菌广泛存在。相比之下,从未检测到肉毒梭菌组,而球状梭菌-迟缓梭菌组仅偶尔被检测到。通过时间热凝胶电泳分析扩增产物,以生成梭菌组的图谱并鉴定优势条带。对17个垃圾填埋场克隆的序列分析证实,这些引物对梭菌亚组具有特异性,并且克隆序列与已知的纤维素降解梭菌有密切关系。因此,这些引物已被验证可用于快速鉴定厌氧环境中的梭菌。