FORMATION OF VIABLE BUT NON-CULTURABLE STATE OF RHODOCOCCUS ERYTHROPOLIS KB1 INDUCED BY HIGH CONCENTRATION BENZENE AND CHARACTERISTICS ITS RESUSCITATED CELLS
-
摘要: 为研究高浓度苯诱导石油降解菌红平红球菌KB1形成的活的非可培养状态(VBNC)及VBNC状态细胞复苏后的生理特性和石油降解能力,采用LB培养基和基础培养基培养红平红球菌KB1,通过紫外分光光度法、扫描电镜和透射电镜观测苯诱导下红平红球菌KB1的VBNC状态形成过程及特征,用红外分光光度法测定复苏后细胞石油降解能力。结果表明,高浓度苯对红平红球菌KB1生长有明显抑制作用,在苯浓度2.5%培养液中6 h后红平红球菌KB1进入VBNC状态,细胞形态发生变化,但结构完整。VBNC状态的细胞在一定条件下复苏为可培养形式,复苏细胞保持了良好环境适应能力和较高石油降解能力。
-
关键词:
- 红平红球菌 /
- 苯 /
- 活的非可培养状态(VBNC) /
- 复苏
Abstract: To study the inducing effects of different concentrations of benzene on the oil-degrading bacterium R. erythropolis KB1, characterize the benzene-induced VBNC state of the bacterial cells, and physiological and biochemical characteristics of bacterial cells, and petroleum degradation ability of the resuscitated R. erythropolis cells, R. erythropolis KB1 was cultured in LB medium and basal medium. The formation of the VBNC state of R. erythropolis KB1 cells induced by benzene was observed by spectrophotometry, scanning electron microscopy, and transmission electron microscopy, and the oil degradation abilities of the resuscitated bacterial cells were determined by infrared spectrophotometry. The results showed that when the concentration of benzene in the culture medium was 2.5% above, the growth of R. erythropolis KB1 could be effectively inhibited. After being cultured for 6 h, R. erythropolis KB1 cells entered the VBNC state. The VBNC cells could be resuscitated into the culturable state under certain conditions. The resuscitated bacterial cells showed good adaptabilities to the environments, and their oil degradation ability was not changed obviously.-
Key words:
- Rhodococcus /
- benzene /
- VBNC /
- resuscitation
-
[1] 孔德辉,刘东,郭书海,等.石油污染土壤热解修复反应规律与机制研究.[J].环境科学学报,2021,41 (8):3339-3348. [2] 郑瑾,付雅丽,宋权威,等.微生物强化修复石油污染土壤的研究进展.[J].生物工程学报,2021,37(10):3622-3635. [3] OSSAI I C,AHMED A,HASSAN A,et al.Remediation of soil and water contaminated with petroleum hydrocarbon:a review[J].Environmental Technology & Innovation,2020,17:100526. [4] LIU H,YANG G,JIA H,et al.Impact of long-term cultivation with crude oil on wetland microbial community shifts and the hydrocarbon degradation potential[J].Energy Sources,Part A:Recovery,Utilization,and Environmental Effects,2021:1-13. [5] ZHU X.Application of microbial remediation in the treatment of offshore oil pollution;proceedings of the IOP conference series:earth and environmental science,F[C].IOP Publishing,2021,781(5):052008. [6] ULRICH N,NAGLER K,LAUE M,et al.Experimental studies addressing the longevity of Bacillus subtilis spores-The first data from a 500-year experiment[J].PLoS one,2018,13(12):e0208425. [7] ZHANG X,AHMAD W,ZHU X,et al.Viable but nonculturable bacteria and their resuscitation:implications for cultivating uncultured marine microorganisms[J].Marine Life Science & Technology,2021,3(2):189-203. [8] DAâSSI D,QABIL ALMAGHRIBI F.Petroleum-contaminated soil:environmental occurrence and remediation strategies[J].3 Biotech,2022,12(6):1-17. [9] GENG S,XU G,YOU Y,et al.Occurrence of polycyclic aromatic compounds and interdomain microbial communities in oilfield soils[J].Environmental Research,2022,212:113191. [10] ALVAREZ P J,ANID P J,VOGEL T M.Kinetics of aerobic biodegradation of benzene and toluene in sandy aquifer material[J].Biodegradation,1991,2(1):43-51. [11] FAHY A,BALL A S,LETHBRIDGE G,et al.High benzene concentrations can favor Gram-positive bacteria in groundwaters from a contaminated aquifer[J].FEMS Microbiology Ecology,2008,65(3):526-533. [12] WEI Y,CHEN J,WANG Y,et al.Bioremediation of the petroleum contaminated desert steppe soil with Rhodococcus erythropolis KB1 and Its effect on the bacterial communities of the soils[J].Geomicrobiology Journal,2021,38(10):842-849. [13] DING T,XUAN X T,LI J,et al.Disinfection efficacy and mechanism of slightly acidic electrolyzed water on Staphylococcus aureus in pure culture[J].Food Control,2016,60:505-510. [14] ZHANG L,JIANG L,NIE X,et al.Factors affecting the occurrence of viable but non-culturable state in Salmonella,Escherichia coli and Staphylococcus aureus during thermosonication and prevent it with sodium pyruvate[J].International Journal of Food Science & Technology,2021,56(5):2244-2254. [15] DONG K,PAN H,YANG D,et al.Induction,detection,formation,and resuscitation of viable but non-culturable state microorganisms[J].Comprehensive Reviews in Food Science and Food Safety,2020,19(1):149-183. [16] LIN H,YE C,CHEN S,et al.Viable but non-culturable E.coli induced by low level chlorination have higher persistence to antibiotics than their culturable counterparts[J].Environmental Pollution,2017,230:242-249. [17] MAERTENS L,MATROULE J Y,VAN HOUDT R.Characteristics of the copper-induced viable-but-non-culturable state in bacteria[J].World Journal of Microbiology and Biotechnology,2021,37(3):1-9. [18] MORISHIGE Y,FUJIMORI K,AMANO F.Use of flow cytometry for quantitative analysis of metabolism of viable but non-culturable (VBNC) Salmonella[J].Biological and Pharmaceutical Bulletin,2015:38:1255-64. [19] CHEN S,LI X,WANG Y,et al.Induction of Escherichia coli into a VBNC state through chlorination/chloramination and differences in characteristics of the bacterium between states[J].Water Research,2018,142:279-288. [20] SHAHRYARI S,ZAHIRI H S,HAGHBEEN K,et al.High phenol degradation capacity of a newly characterized Acinetobacter sp.SA01:bacterial cell viability and membrane impairment in respect to the phenol toxicity[J].Ecotoxicology and Environmental Safety,2018,164:455-466. [21] XIE M,XU L,ZHANG R,et al.Viable but nonculturable state of yeast Candida sp.strain LN1 induced by high phenol concentrations[J].Applied and Environmental Microbiology,2021,87(18):e01110-e01121. [22] FIDA T T,MORENO-FORERO S K,HEIPIEPER H J,et al.Physiological and transcriptome response of the polycyclic aromatic hydrocarbon degrading Novosphingobium sp.LH128 after inoculation in soil[J].Environ Sci Technol 2017,51:1570-1579. [23] PAWLOWSKI D R,METZGER D J,RASLAWSKY A,et al.Entry of Yersinia pestis into the viable but nonculturable state in a low-temperature tap water microcosm[J].PLoS One,2011,6(3):e17585. [24] FAN J,JIA Y,XU D,et al.Anaerobic condition induces a viable but nonculturable state of the PCB-degrading Bacteria Rhodococcus biphenylivorans TG9[J].Science of the Total Environment,2021,764:142849. [25] 郑玉玺,黄利华,贾强,等.次氯酸钠诱导肠炎沙门氏菌活的非可培养状态形成及复苏过程研究.[J].食品安全质量检测学报,2021,12(14):5546-5552. [26] ZHANG J,WANG L,SHI L,et al.Survival strategy of Cronobacter sakazakii against ampicillin pressure:induction of the viable but nonculturable state[J].International Journal of Food Microbiology,2020,334:108819. [27] PINTO D,ALMEIDA V,ALMEIDA SANTOS M,et al.Resuscitation of Escherichia coli VBNC cells depends on a variety of environmental or chemical stimuli[J].Journal of Applied Microbiology,2011,110(6):1601-1611. [28] SUN F,CHEN J,ZHONG L,et al.Characterization and virulence retention of viable but nonculturable Vibrio harveyi[J].FEMS Microbiology Ecology,2008,64(1):37-44. [29] SU X,ZHANG S,MEI R,et al.Resuscitation of viable but non-culturable bacteria to enhance the cellulose-degrading capability of bacterial community in composting[J].Microbial Biotechnology,2018,11(3):527-536. [30] SU X,LI S,XIE M,et al.Enhancement of polychlorinated biphenyl biodegradation by resuscitation promoting factor (Rpf) and Rpf-responsive bacterial community[J].Chemosphere,2021,263:128283.
点击查看大图
计量
- 文章访问数: 70
- HTML全文浏览量: 10
- PDF下载量: 3
- 被引次数: 0