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2025年6月28日 周六
首页 > 过刊浏览>2021年第48卷第11期 >4046-4053. DOI:10.13344/j.microbiol.china.210417
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降解1,3-二甲基-2-咪唑烷酮细菌的分离及功能评价
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沧州市科技计划项目(181004002D,142202001D)


Isolation of 1,3-dimethyl-2-imidazolidinone degrading bacteria and evaluation of its function
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    摘要:

    [背景] 1,3-二甲基-2-咪唑烷酮(1,3-Dimethyl-2-Imidazolidinone,DMI)作为一种强极性非质子溶剂,在生产和应用过程的环境中有稳定残留问题,存在安全隐患。[目的] 分离筛选具有降解DMI能力的微生物菌株,为清除环境中残留的DMI提供优良的微生物菌种资源。[方法] 从DMI生产区域土壤采集样品分离DMI抗性微生物,采用形态学及分子生物学鉴定确定其分类地位,并对DMI降解能力进行测定。[结果] 分离到最高能够耐受5%(体积分数) DMI的微生物菌株,形态学及分子生物学鉴定初步表明获得的菌株DT-1和DT-2为贝莱斯芽孢杆菌(Bacillus velezensis);全细胞及细胞提取液均具有降解DMI的能力;其中菌株DT-1及其细胞提取液对1%(体积分数) DMI的降解率分别达到48%和68%。[结论] 从DMI生产区域土壤中分离到具有DMI降解能力的芽孢杆菌,不但可为DMI污染的微生物治理提供优良微生物资源,而且扩展了人们对芽孢杆菌生物学功能的认识。

    Abstract:

    [Background] 1,3-Dimethyl-2-imidazolidinone (DMI) is a nonproton solvent with strong polarity, which remains steadily in waste water from production and application processes and causes potential hazard to people's health. [Objective] Acquisition of DMI degrading microbial strains. [Methods] Isolation and screen of DMI degrading microbial strains from the soil of manufacture plant by DMI tolerance assay. The strains were identified by morphological features and 16S rRNA gene sequence analysis. [Results] Two putative Bacillus velezensis strains tolerant to 5% (V/V) DMI were isolated from the soil samples, which were designated as DT-1 and DT-2 respectively. Both the whole cells and the cell-free extracts could reduce the DMI levels in the reaction systems. The degrading rates of whole cells and cell-free extract of strain DT-1 reached 48% and 68% respectively at 1% (V/V) DMI concentration. [Conclusion] DMI degrading Bacillus strains were obtained, which provided a basis for microbial degradation of DMI in the polluted environments. Moreover, the results in this study expand our knowledge of the biological function of Bacillus.

    参考文献
    [1] Kumar BL, Gopal DVRS. Effective role of indigenous microorganisms for sustainable environment[J]. 3 Biotech, 2015, 5(6):867-876
    [2] Bai R, Hu Y, Lei ZY, Wang XX, Yang M, Huang YY. Application of compound microbial preparation in environmental protection[J]. Applied Chemical Industry, 2017, 46(5):1002-1006(in Chinese)白瑞, 胡阳, 雷振宇, 王晓雪, 杨茗, 黄瑶瑶. 复合微生物制剂在环保领域中的应用[J]. 应用化工, 2017, 46(5):1002-1006
    [3] Huang X, He J, Yan X, Hong Q, Chen K, He Q, Zhang L, Liu XW, Chuang SC, Li SP, et al. Microbial catabolism of chemical herbicides:microbial resources, metabolic pathways and catabolic genes[J]. Pesticide Biochemistry and Physiology, 2017, 143:272-297
    [4] Ruan ZP, Xu XH, Chen K, Qiao WJ, Jiang JD. Recent advances in microbial catabolism of persistent organic pollutants[J]. Acta Microbiologica Sinica, 2020, 60(12):2763-2784(in Chinese)阮哲璞, 徐希辉, 陈凯, 乔文静, 蒋建东. 微生物降解持久性有机污染物的研究进展与展望[J]. 微生物学报, 2020, 60(12):2763-2784
    [5] Heimann AC, Batstone DJ, Jakobsen R. Methanosarcina spp. drive vinyl chloride dechlorination via interspecies hydrogen transfer[J]. Applied and Environmental Microbiology, 2006, 72(4):2942-2949
    [6] Deng DY, Guo J, Sun GP, Chen XJ, Men DQ, Xu MY. Aerobic debromination of deca-BDE:isolation and characterization of an indigenous isolate from a PBDE contaminated sediment[J]. International Biodeterioration & Biodegradation, 2011, 65(3):465-469
    [7] Nzila A. Update on the cometabolism of organic pollutants by bacteria[J]. Environmental Pollution, 2013, 178:474-482
    [8] Mizukami-Murata S, Sakakibara F, De Fujita K, Fukuda M, Kuramata M, Takagi K. Detoxification of hydroxylated polychlorobiphenyls by Sphingomonas sp. strain N-9 isolated from forest soil[J]. Chemosphere, 2016, 165:173-182
    [9] Gao B, Liu WB, Jia LY, Xu L, Xie J. Isolation and characterization of an Alcaligenes sp. strain DG-5 capable of degrading DDTs under aerobic conditions[J]. Journal of Environmental Science and Health, Part B, 2011, 46(3):257-263
    [10] Xing CH, Cai MZ, Yu HB. The application of EM (effective microorganisms) technology in environment protection[J]. Journal of Microbiology, 2007, 27(5):93-97(in Chinese)邢承华, 蔡妙珍, 于洪波. EM有效微生物技术在环境保护中的应用[J]. 微生物学杂志, 2007, 27(5):93-97
    [11] Zhou XF, Tong GT, Mao WC. Improvement for synthesis of 1,3-dimethyl-2-imidazolidinone[J]. Chemical Reagents, 2013, 35(10):954-956(in Chinese)周小锋, 童国通, 毛伟春. 1,3-二甲基-2-咪唑烷酮合成方法的改进[J]. 化学试剂, 2013, 35(10):954-956
    [12] Liu AM, Guo MX, Shi ZN, Liu YB, Liu FG, Hu XW, Yang YJ, Tao WJ, Wang ZW. Physicochemical properties of 1,3-dimethyl-2-imidazolinone-ZnCl2 solvated ionic liquid and its application in zinc electrodeposition[J]. Transactions of Nonferrous Metals Society of China, 2021, 31(3):832-841
    [13] Sambrook J, Russell D. Molecular Cloning:A Laboratory Manual[M]. Cold Spring Harbor, New York:Cold Spring Harbor Laboratory Press, 2001
    [14] Adams A, Gottschling DE, Kaiser CA, Stearns T. Methods In Yeast Genetics:A Cold Spring Harbor Laboratory Course Manual[M]. Cold Spring Harbor, New York:Cold Spring Harbor Laboratory Press, 1997
    [15] Zhang DF, Gao YX, Wang YJ, Liu C, Shi CB. Advances in taxonomy, antagonistic function and application of Bacillus velezensis[J]. Microbiology China, 2020, 47(11):3634-3649(in Chinese)张德锋, 高艳侠, 王亚军, 刘春, 石存斌. 贝莱斯芽孢杆菌的分类、拮抗功能及其应用研究进展[J]. 微生物学通报, 2020, 47(11):3634-3649
    [16] Zhang Q, Sherzad Z, Tang CM. Biocontrol effect of Bacillus velezensis strain SZAD1 on Verticillium dahliae[J]. Cotton Science, 2020, 32(4):329-338(in Chinese)张琼, Zabihullah Sherzad, 唐灿明. 贝莱斯芽孢杆菌SZAD1对大丽轮枝菌的生物防治效果[J]. 棉花学报, 2020, 32(4):329-338
    [17] Cui WH, Chui CM, Sun X, Wei D, Li BG, Liu L. Bacteriostatic effects of Bacillus velezensis on soil borne diseases of fruits and vegetables[J]. Industrial Microbiology, 2020, 50(5):15-20(in Chinese)崔文会, 炊春萌, 孙雪, 魏东, 李保国, 刘莉. 贝莱斯芽孢杆菌对果蔬土传病害的抑菌效果研究[J]. 工业微生物, 2020, 50(5):15-20
    [18] Liu SN, Zhang B, Xiang DC, Zhao ZY, Chang YJ, Sha Q, Zhao YG. Effects of Bacillus velezensis on growth performance, fecal microbiota and metabolites in pigs[J]. Chinese Journal of Animal Nutrition, 2020, 32(12):5622-5635(in Chinese)刘韶娜, 张斌, 相德才, 赵智勇, 常雅洁, 沙茜, 赵彦光. 贝莱斯芽孢杆菌对猪生长性能、微生物群落和代谢产物的影响[J]. 动物营养学报, 2020, 32(12):5622-5635
    [19] Ren JW, Luo YY, Feng YY, Han M, An H, Cui CB, Zhang JT, Li B. Yang Y, An DR. Isolation and identification of Bacillus velezensis RJW-5-5 and gene cluster mining of bacteriocin and RiPPs[J]. Microbiology China, 2021, 48(3):742-754(in Chinese)任建雯, 罗云艳, 冯印印, 韩猛, 安航, 崔传斌, 张家韬, 李斌, 杨洋, 安德荣. 贝莱斯芽孢杆菌RJW-5-5的分离鉴定及细菌素、抗菌肽基因簇挖掘[J]. 微生物学通报, 2021, 48(3):742-754
    [20] Wang MQ, Zhang CS, Yu LN, Gu B, Ding Y, Bi J, Sun J, Chi XY, Zhang JC, Gong KJ, et al. Screening and identification of aflatoxin B1 degradation strain[J]. Science and Technology of Food Industry, 2019, 40(1):105-109(in Chinese)王明清, 张初署, 于丽娜, 顾博, 丁昱, 毕洁, 孙杰, 迟晓元, 张建成, 龚魁杰, 等. 一株黄曲霉毒素B1降解菌的筛选及鉴定[J]. 食品工业科技, 2019, 40(1):105-109
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张树林,韩绍良,张海亮,郭雪娜,程艳飞,何秀萍. 降解1,3-二甲基-2-咪唑烷酮细菌的分离及功能评价[J]. 微生物学通报, 2021, 48(11): 4046-4053

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  • 收稿日期:2021-05-11
  • 录用日期:2021-07-12
  • 在线发布日期: 2021-11-11
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