Development of genus‐specific primers for better understanding the diversity and population structure of Sphingomonas in soils

Genus Sphingomonas has received increasing attentions due to its somewhat unique metabolic versatilities in the contaminated environment. However, due to the lack of genus‐specific primers, the ecological significance of Sphingomonas in polluted soils has been rarely documented by 16S rDNA finger‐printing methods. In this study, three genus‐specific primer sets targeted at the 16S rRNA gene of Sphingomonas were developed and their specificities were tested with four contaminated soils from Shenfu petroleum‐wastewater irrigation zone by constructing clone libraries, amplified ribosomal DNA restriction analysis (ARDRA) and sequencing the represented ARDRA patterns. Meanwhile, the newly designed primer sets and a previously reported primer set were compared, and the results showed that the newly developed primer set SA/429f‐933r could detect a larger spectrum (90%) of Sphingomonas strains with higher specificity. Despite the superiority of primer set SA/429f‐933r in specifically detecting Sphingomonas from contaminated soils, we cannot blink the fact that different primer sets preferentially amplified different dominant species. Therefore, two or more primer sets are recommended for evaluating the diversity and population structure of genus Sphingomonas . Additionally, a proportion (9.7%) of the cloned sequences discovered in this study were different from known Sphingomonas sequences, suggesting that new Sphingomonas sequences might present in soils from Shenfu irrigation zone.