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啤酒腐败有害片球菌生物被膜形成活的不可培养状态研究 被引量:1
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作者 刘丽 王增艳 +1 位作者 王佳阳 邓阳 《食品与生物技术学报》 CAS CSCD 北大核心 2023年第2期51-57,共7页
有害片球菌是啤酒酿造环境中较为常见且危害较大的腐败菌。作者比较了啤酒腐败有害片球菌生物被膜和浮游细胞进入活的不可培养(VBNC)状态的能力差异。将5种有害片球菌的浮游细胞和生物被膜细胞在啤酒中于26℃下进行培养,结果发现,生物... 有害片球菌是啤酒酿造环境中较为常见且危害较大的腐败菌。作者比较了啤酒腐败有害片球菌生物被膜和浮游细胞进入活的不可培养(VBNC)状态的能力差异。将5种有害片球菌的浮游细胞和生物被膜细胞在啤酒中于26℃下进行培养,结果发现,生物被膜细胞和浮游细胞均可以被诱导进入VBNC状态,但形成VBNC状态的时间有所不同。生物被膜细胞进入VBNC状态至少需要70 d,而浮游细胞进入VBNC状态的时间为126~189 d。作者还用单叠氮丙啶与PCR相结合来扩增16S rDNA和horA基因,以证实生物被膜中VBNC细胞的存在。另外,与浮游细胞相比,生物被膜细胞对0.025 mol/L NaOH具有更强的抵抗力,而VBNC状态生物被膜又比同样状态下的浮游细胞具有更强的耐受力。综上所述,在啤酒酿造过程中,相比于浮游细胞,有害片球菌生物被膜在低pH、高浓度的啤酒花苦味物质、乙醇等压力条件下更易被诱导进入VBNC状态,而且还拥有更强的碱耐受力。 展开更多
关键词 啤酒腐败菌 有害片球菌 生物被膜 活的不可培养状态 碱耐受力
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Intensified inactivation of model and environmental bacteria by an atmospheric-pressure air-liquid discharge plasma compared with chlorination 被引量:1
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作者 Mingli Shao Chengsong Ye +3 位作者 Ting Li Jiaming Gan Xin Yu Lei Wang 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2022年第7期80-90,共11页
Water-borne pathogenic bacteria are always the top priority to be removed through disinfection process in water treatment due to their threat to human health. It was necessary to develop novel disinfection methods sin... Water-borne pathogenic bacteria are always the top priority to be removed through disinfection process in water treatment due to their threat to human health. It was necessary to develop novel disinfection methods since the conventional chlorine disinfection was inefficient in inactivating chlorine-resistant bacteria, inducing the viable but non-culturable(VBNC) bacteria and forming disinfection by-products(DBPs). In this study, the inactivation of four model strains including Gram-negative(G), Gram-positive(G) and environmental samples by atmospheric-pressure air-liquid discharge plasma(ALDP) was assessed systematically. The results showed that ALDP was superior in inactivating all of the samples compared with chlorination. During 10 min ALDP treatment, the Gbacteria were completely inactivated, and the Gone was inactivated by more than 4.61 logs. The inactivation of bacteria from a campus lake and a wastewater treatment plant effluent exceeded 99.82% and 97.78%, respectively. For G-bacteria, ALDP resulted in a much lower(10~2~10~3 times) levels of VBNC cells than chlorination. ALDP could effectively remove the chlorine-resistant bacteria. More than 96.41% of the intracellular DNA and 99.99% of the extracellular DNA were removed, whereas it was only 56.35% and 12.82% for chlorination. ALDP had a stronger ability to destroy cell structure than chlorination, presumably due to the existence of ROS( ·OH, ~1Oand O). GC-MS analysis showed that ALDP produced less DBPs than chlorination. These findings provided new insights for the application of discharge plasma in water disinfection, which could be complemental or alternative to the conventional disinfection methods. 展开更多
关键词 Air-liquid discharge plasma Pathogenic bacteria viable but non-culturable state Intracellular-and extracellular genes Disinfection mechanism
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