We aimed to investigate the composition and phylogenetic rela-tionships of the viable but non-culturable (VBNC) state bacteria in pharmaceutical wastewater. [Method] Soil filter was used for constructing bioreactor....We aimed to investigate the composition and phylogenetic rela-tionships of the viable but non-culturable (VBNC) state bacteria in pharmaceutical wastewater. [Method] Soil filter was used for constructing bioreactor. Based on the resuscitation- and growth-promoting function of Resuscitation Promoting Factor (Rpf) for VBNC bacteria, VBNC bacteria were isolated by most probable number (MPN) method and dilution-plating method and 16S rRNA gene phylogenetic analysis was carried out. [Result] In MPN culture system, Rpf could promote the resuscitation and growth of some bacteria. There were VBNC advantage floras that sensitive to Rpf in pharmaceutical wastewater. The culturable VBNC bacteria in pharmaceutical wastewater consisted of high-GC gram-positive actinomycetes including genera Mi-crobacterium, Gordonia and Leucobacter, and gram-negative bacteria including gen-era Candidimonas, Xanthobacter and Aminobacter. Four strains (ZYM1, ZYM3, ZYZR4, ZYXR1) could be potential novel species. [Conclusion] This research re-vealed there were VBNC bacteria in pharmaceutical wastewater. These results could provide important ideas and methods for further studies on VBNC bacteria in the pharmaceutical wastewater, especial y the formation mechanism and recovery mech-anism of VBNC bacteria and the advanced degradation process improvement of pharmaceutical wastewater.展开更多
文摘【目的】旨在阐明3个DSF/Rpfxoo信号系统成员RpfFxoo、RpfCxoo和RpfGxoo在水稻白叶枯病菌(Xanthomonas oryzae pv.oryzae,Xoo)毒性表达中的功能。【方法】用标记置换法缺失突变rpfFxoo、rpfCxoo和rpfGxoo基因,测定突变体及其互补菌株的DSF(diffusible signal factor)信号分子产生、胞外多糖(EPS)产生及其对水稻的致病性。【结果】从野生型菌株PXO99A基因组中克隆了推测与DSF信号生成和传导有关的基因rpfFxoo、rpfCxoo和rpfGxoo,获得了相应的单基因或双基因缺失突变体。与PXO99A产生DSF相比,ΔrpfFxoo、ΔrpfF+Cxoo和ΔrpfF+Gxoo均不产生DSF,ΔrpfCxoo过量产生,ΔrpfGxoo产量降低;rpfFxoo、rpfCxoo和rpfGxoo可以分别互补Xoo和Xcc的相应基因突变体,恢复DSF产生表型。除ΔrpfFxoo的EPS产生无明显变化外,其余突变体的均显著减少。所有突变体对水稻的致病性均显著下降。【结论】RpfFxoo、RpfCxoo和RpfGxoo调控了Xoo的DSF信号生成、EPS产生和致病性。
基金Supported by Zhejiang Provincial Natural Science Foundation of China(LY13C010002)Zhejiang Provincial Design and Research Institute of Environmental Science(2013F50005)~~
文摘We aimed to investigate the composition and phylogenetic rela-tionships of the viable but non-culturable (VBNC) state bacteria in pharmaceutical wastewater. [Method] Soil filter was used for constructing bioreactor. Based on the resuscitation- and growth-promoting function of Resuscitation Promoting Factor (Rpf) for VBNC bacteria, VBNC bacteria were isolated by most probable number (MPN) method and dilution-plating method and 16S rRNA gene phylogenetic analysis was carried out. [Result] In MPN culture system, Rpf could promote the resuscitation and growth of some bacteria. There were VBNC advantage floras that sensitive to Rpf in pharmaceutical wastewater. The culturable VBNC bacteria in pharmaceutical wastewater consisted of high-GC gram-positive actinomycetes including genera Mi-crobacterium, Gordonia and Leucobacter, and gram-negative bacteria including gen-era Candidimonas, Xanthobacter and Aminobacter. Four strains (ZYM1, ZYM3, ZYZR4, ZYXR1) could be potential novel species. [Conclusion] This research re-vealed there were VBNC bacteria in pharmaceutical wastewater. These results could provide important ideas and methods for further studies on VBNC bacteria in the pharmaceutical wastewater, especial y the formation mechanism and recovery mech-anism of VBNC bacteria and the advanced degradation process improvement of pharmaceutical wastewater.
