Carvalho M F, Alves C C T, Ferreira M I M, De Marco P, Castro P M L
Escola Superior de Biotecnologia, Universidade Católica Portuguesa, 4200-072 Porto, Portugal.
Appl Environ Microbiol. 2002 Jan;68(1):102-5. doi: 10.1128/AEM.68.1.102-105.2002.
Fluorinated compounds are known to be more resistant to microbial degradation than other halogenated chemicals. A microbial consortium capable of aerobic biodegradation of fluorobenzene (FB) as the sole source of carbon and energy was isolated by selective enrichment from sediments collected in a drain near an industrial site. A combination of three microbial strains recovered from the enriched consortium was shown to be necessary for complete FB mineralization. Two of the strains (F1 and F3) were classified by 16S rRNA analysis as belonging to the Sphingobacterium/Flavobacterium group, while the third (F4) falls in the beta-Proteobacteria group, clustering with Alcaligenes species. Strain F4 was consistently found in the liquid cultures in a much greater proportion than strains F1 and F3 (86:8:6 for F4, F1, and F3, respectively). Stoichiometric release of fluoride ions was measured in batch and fed-batch cultures. In batch cultures, the consortium was able to use FB up to concentrations of 400 mg liter(-1) and was able to utilize a range of other organic compounds, including 4-fluorophenol and 4-fluorobenzoate. To our knowledge this is the first time biodegradation of FB as a sole carbon source has been reported.
已知含氟化合物比其他卤代化学品更耐微生物降解。通过从一个工业场地附近排水沟收集的沉积物中进行选择性富集,分离出了一个能够以氟苯(FB)作为唯一碳源和能源进行好氧生物降解的微生物群落。结果表明,从富集的群落中回收的三种微生物菌株组合对于FB的完全矿化是必要的。通过16S rRNA分析,其中两种菌株(F1和F3)被归类为鞘氨醇杆菌/黄杆菌属,而第三种(F4)属于β-变形菌纲,与产碱菌属聚集在一起。在液体培养物中,始终发现菌株F4的比例远高于菌株F1和F3(F4、F1和F3的比例分别为86:8:6)。在分批培养和补料分批培养中测量了氟离子的化学计量释放。在分批培养中,该群落能够利用浓度高达400毫克/升的FB,并且能够利用一系列其他有机化合物,包括4-氟苯酚和4-氟苯甲酸盐。据我们所知,这是首次报道将FB作为唯一碳源进行生物降解。