Genetic Diversity Analysis on Rep-PCR Genomic Fingerprinting and 16S rDNA Sequences of Desulfurization Bacteria

Genetic Diversity Analysis on Rep-PCR Genomic Fingerprinting and 16S rDNA Sequences of Desulfurization Bacteria

下载PDF

导出

摘要 In order to reduce deleterious effect on environment,human health and facilities caused by original sulfides, more attention should be paid to biodesulfurization studying for fossil fuels. In this work, eight isolates were characterized by several DNA-based methods such as BOX element polymerase chain reaction( BOX-PCR), enterobacterial repetitive intergenic consensus( ERIC)-PCR and random amplification of polymorphic DNA( RAPD)-PCR. The desulfurization performance was determined by micro-coulometric method,Gibb's assay and barium sulfate test. It was found out that ERIC-PCR displays a much higher inter-strain heterogeneity compared with using BOX. The length of the primer didnot play the most important role in bacterial classification. The combination of the analysis of repetitive-sequence-based polymerase chain reaction ngerprinting and 16 S r DNA was able to provide more effective way in the separation and identification of bacteria.According to the analysis of 16 S r DNA,the more efficient desulfurization strain should belong to Klebsiella variicola. In order to reduce deleterious effect on environment,human health and facilities caused by original sulfides, more attention should be paid to biodesulfurization studying for fossil fuels. In this work, eight isolates were characterized by several DNA-based methods such as BOX element polymerase chain reaction（ BOX-PCR）, enterobacterial repetitive intergenic consensus（ ERIC）-PCR and random amplification of polymorphic DNA（ RAPD）-PCR. The desulfurization performance was determined by micro-coulometric method,Gibb＇s assay and barium sulfate test. It was found out that ERIC-PCR displays a much higher inter-strain heterogeneity compared with using BOX. The length of the primer didnot play the most important role in bacterial classification. The combination of the analysis of repetitive-sequence-based polymerase chain reaction ngerprinting and 16 S r DNA was able to provide more effective way in the separation and identification of bacteria.According to the analysis of 16 S r DNA,the more efficient desulfurization strain should belong to Klebsiella variicola.

作者吕英海祝加伟张雨晴蔡晓青郭凯周仕学

机构地区 College of Chemical and Environmental Engineering

出处《Journal of Donghua University(English Edition)》 EI CAS 2016年第1期134-137,共4页 东华大学学报（英文版）

基金 National Natural Science Foundations of China(Nos.41302079,21176145) Project of Shandong Province Higher Educational Science and Technology Program,China(No.J13LD54)

关键词 16S rDNA BOX element polymerase chain reaction(BOX-PCR) DESULFURIZATION fingerprinting enterobacterial repetitive intergenic consensus(ERIC)-PCR 16S rDNA BOX element polymerase chain reaction（BOX-PCR） desulfurization fingerprinting enterobacterial repetitive intergenic consensus（ERIC）-PCR

分类号 Q93-331 [生物学—微生物学]

引文网络
相关文献

参考文献21

1Linguist L, Pachcco M. Enzyme-Based Diesel Dcsulfurization Process Offers Energy, C02 Advantages [ J ]. Oil and Gas Journal, 1999, 97(8) : 45-48.
2Debabov V G. Microbial Desulfurization of Motor Fuel [ J ]. Applied Biochemistry and Microbiology, 2010, 46 (8) : 733 -738.
3Bordoloi N K, Rai, S K, Chaudhuri M K, et al. Deep- Desulfudzation of Dibenzothiophene and Its Derivatives Present in Diesel Oil by a Newly Isolated Bacterium Achromobacter sp. to Reduce the Environmental Pollution from Fossil Fuel Combustion [ J]. Fuel Processing Technology, 2014, 119(3 ) : 236-244.
4Gonsalvesh L, Marinov S P, Stefanova M, et al. Biodesulphurized Low Rank Coal: Maritza East Lignite and Its "Humus-Like" Byproduct [ J ]. Fuel, 2013, 103 : 1039-1050.
5徐波,何金龙,黄黎明,刘其松,孙茹.天然气生物脱硫技术及其研究进展[J].天然气工业,2013,33(1):116-121. 被引量：28
6Gomez-Ramf.rez M, Zarco-Tovar K, Aburto J, et al. Microbial Treatment of Sulfur-Contaminated Industrial Wastes [ J ]. Journal of Environmental Science and Health-Part A ToxicHazardous Substances and Environmental Engineering, 2014, 49 ( 2 ) : 228- 232.
7Bardania H, Raheb J, Mohammad-Beigi H, et al. Desulfudzation Activity and Reusability of Magnetite Nanopartiele-Coated Rhodococeus Erythropofis FMF and R. erythropolis IGTS8 Bacterial Cells [ J ]. Biotechnology and Applied Biochemistry, 2013, 60(3) : 323-329.
8Dinamarea M A, lbacaehe-Quiroga C, Baeza P, et al. Biodesulfurization of Gas Oil Using Inorganic Supports Biomodified with Metabolically Active Ceils Immobilized by Adsorption [ J ]. Bioresource Technol, 2010, 101 ( 7 ) : 2375- 2378.
9Zhcng C G, He J L, Wang Y L, et al. Hydrocarbon Degradation and Bioemulsifier Production by Thermophilic GcobaciUus Pallidus Sa-aias[ J]. Bioresource Technology, 2011, 102: 9155- 9161.
10Bhatia S, Sharma D K. Thermophilic Desulfurization of Dibcnzothiophcne and Different Petroleum Oils by Klebsiella sp. 13T [ J ]. Environmental Science and Pollution Research International, 2012, 19(8) : 3491-3497.

二级参考文献10

1殷峻,陈英旭,刘和,王远鹏.应用PCR-DGGE技术研究处理含氨废气的生物滤塔中微生物多样性[J].环境科学,2004,25(6):11-15. 被引量：32
2马艳,刘成,邹少兰,洪解放,张敏华.石油微生物脱硫的研究进展[J].工业微生物,2007,37(2):57-63. 被引量：14
3沈齐英,赵锁奇.石油产品生物脱硫技术现状[J].北京石油化工学院学报,2007,15(4):32-37. 被引量：7
4张庆国,赵会军,班兴安,黄琼.Bio-SR工艺用于天然气脱硫的研究[J].天然气化工—C1化学与化工,2008,33(1):43-46. 被引量：6
5何金龙,熊钢.川渝气田天然气净化技术的进步与发展方向[J].石油与天然气化工,2008,37(B11):112-120. 被引量：6
6侯杰.石油工业中的脱硫技术[J].化学工程与装备,2009(4):98-99. 被引量：1
7罗明芳,高红帅,李玉光,邢建民,李信,刘会洲.油品固定化细胞脱硫研究进展[J].化工进展,2009,28(11):1986-1990. 被引量：5
8汪家铭.Shell-Paques生物脱硫技术及其应用[J].化工科技市场,2009,32(11):29-32. 被引量：5
9涂彦.微生物脱硫技术在天然气净化中的应用[J].石油与天然气化工,2003,32(2):97-99. 被引量：27
10陈飞,袁月祥,刘晓风,廖银章.木屑生物膜处理H_2S气体研究[J].应用与环境生物学报,2004,10(2):215-217. 被引量：8

共引文献27

1王姝琼,梁存珍,刘娴静.批量反应器中碱法生物脱硫运行参数的优化[J].环境工程学报,2019,13(12):3005-3011. 被引量：2
2王立群,陈兆生.醋糟间歇气化制备燃气试验[J].天然气工业,2014,34(3):147-152. 被引量：4
3黄黎明.高含硫气藏安全清洁高效开发技术新进展[J].天然气工业,2015,35(4):1-6. 被引量：31
4陈赓良.天然气生物脱硫工艺评述[J].天然气与石油,2015,33(3):33-38. 被引量：8
5刘子兵,张文超,何兴军,常志波,乔光辉.天然气净化厂低浓度酸气处理工艺探讨[J].天然气与石油,2015,33(3):44-48. 被引量：6
6张慧.天然气中硫化氢产生机理及处理工艺研究进展[J].内江科技,2015,36(11):48-48.
7强强.PDS-600脱硫技术在焦炉煤气净化中的应用[J].机械管理开发,2016,31(7):76-77.
8宋彬,李金金,龙晓达.天然气净化厂尾气SO_2排放治理工艺探讨[J].天然气工业,2017,37(1):137-144. 被引量：38
9李淼,肖雷,张曼娟,方凯旋.生物脱硫在化石燃料方面的应用及前景分析[J].山东化工,2017,46(2):34-36. 被引量：2
10李作峰.天然气生物脱硫技术研究进展[J].广东化工,2017,44(21):114-115. 被引量：2

1吴清平,叶应旺,张菊梅,杨宁.ERIC结构功能及ERIC-PCR技术的应用[J].中国卫生检验杂志,2006,16(4):507-509. 被引量：18
2刘博婷.ERIC-PCR的研究进展[J].畜牧与饲料科学,2010,31(8):49-51. 被引量：2
3YU Zhi-jian,CHEN Chuan-hong,LI Jiang,HUANG De-juan.Analysis on Construction and Property of the Constitutively Desulfurization Engineered Strain[J].Meteorological and Environmental Research,2012,3(8):53-57.
4李宏娟,刘聚祥,刘静,张竟乾.应用ERIC-PCR对鸡致病性大肠杆菌进行基因分型[J].黑龙江畜牧兽医,2008(9):58-60. 被引量：1
5李武,赵勇,王凌华,张晓君,赵立平.PCR指纹图谱技术在酸奶质量监测中的应用[J].中国乳业,2006(4):47-49. 被引量：7
6林朝洪,倪学勤,曾东,周小秋.重复序列ERIC(IRU)研究进展[J].微生物学报,2007,47(2):370-373. 被引量：18
7Jian Lin,Lin Li,Wenjie Ding,Jingying Zhang,Junxin Liu.Continuous desulfurization and bacterial community structure of an integrated bioreactor developed to treat SO_2 from a gas stream[J].Journal of Environmental Sciences,2015,27(11):130-138. 被引量：6
8Yang Hong-yan,Fu Jing,Ning Fang-yong,Du Zhi-heng,Bai Xiu-juan.Genetic Diversity Analysis Among Populations of Mink from China by Inter-simple Sequence Repeat(ISSR) Markers[J].Journal of Northeast Agricultural University(English Edition),2013,20(3):47-54. 被引量：2
9ZHANG Bin,LIU Ying-hong,WANG Ze-le,ZHAO Lan-lan.Molecular phylogeny of Bactrocera species （Diptera： Tephritidae） inferred from mitochondrial 16s rDNA sequences[J].Journal of Agricultural Science and Technology,2009,3(6):24-28.
10高平平,赵立平,等.微生物群落结构探针杂交评价不同培养基从活性污泥分离优势菌群的能力[J].微生物学报,2003,43(2):264-270. 被引量：19

Journal of Donghua University(English Edition)

2016年第1期

浏览历史

内容加载中请稍等...

Genetic Diversity Analysis on Rep-PCR Genomic Fingerprinting and 16S rDNA Sequences of Desulfurization Bacteria

参考文献21

二级参考文献10

共引文献27

相关作者

相关机构

相关主题

浏览历史