Effects of nicotinamide and riboflavin on the biodesulfurization activity of dibenzothiophene by Rhodococcus erythropolis USTB-03 被引量：4

Effects of nicotinamide and riboflavin on the biodesulfurization activity of dibenzothiophene by Rhodococcus erythropolis USTB-03

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摘要 Rhodococcus erythropolis USTB-03 is a promising bacterial strain for the biodesulfurization of dibenzothiophene （DBT） via a sulfurspecific pathway in which DBT is converted to 2-hydroxybiphenyl （2HBP） as an end product. The effects of nicotinamide and riboflavin on the sulfur specific activity （SA） of DBT biodesulfurization by R. erythropolis USTB-03 were investigated. Both nicotinamide and riboflavin were found to enhance the expression of SA, which was not previously reported. When R. erythropolis USTB-03 was grown on a medium containing nicotinamide of 10.0 mmol or riboflavin of 50.0 μmol, SA was raised from 68.0 or so to more than 130 mmol 2HBP/（kg dry cells.h）. When R. erythropolis USTB-03 was grown in the presence of both nicotinamide of 5.0 mmol and riboflavin of 25.0 μmol, SA was further increased to 159.0 mmol 2HBP/（kg dry cells.h）. It is suggested that the biological synthesis of reduced form of flavin mononucleotide （FMNH2）, an essential coenzyme for the activities of biodesulfurization enzyme Dsz C and A, might be enhanced by nicotinamide and riboflavin, which was responsible for the increased SA of R. erythropolis USTB-03. Rhodococcus erythropolis USTB-03 is a promising bacterial strain for the biodesulfurization of dibenzothiophene （DBT） via a sulfurspecific pathway in which DBT is converted to 2-hydroxybiphenyl （2HBP） as an end product. The effects of nicotinamide and riboflavin on the sulfur specific activity （SA） of DBT biodesulfurization by R. erythropolis USTB-03 were investigated. Both nicotinamide and riboflavin were found to enhance the expression of SA, which was not previously reported. When R. erythropolis USTB-03 was grown on a medium containing nicotinamide of 10.0 mmol or riboflavin of 50.0 μmol, SA was raised from 68.0 or so to more than 130 mmol 2HBP/（kg dry cells.h）. When R. erythropolis USTB-03 was grown in the presence of both nicotinamide of 5.0 mmol and riboflavin of 25.0 μmol, SA was further increased to 159.0 mmol 2HBP/（kg dry cells.h）. It is suggested that the biological synthesis of reduced form of flavin mononucleotide （FMNH2）, an essential coenzyme for the activities of biodesulfurization enzyme Dsz C and A, might be enhanced by nicotinamide and riboflavin, which was responsible for the increased SA of R. erythropolis USTB-03.

作者 YAN Hai SUN Xudong XU Qianqian MA Zhao XIAO Chengbin Ning Jun

机构地区 Department of Biological Science and Technology Research Center for Eco-environmental Science

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2008年第5期613-618,共6页 环境科学学报（英文版）

关键词 BIODESULFURIZATION DIBENZOTHIOPHENE NICOTINAMIDE Rhodococcus erythropolis USTB-03 RIBOFLAVIN biodesulfurization dibenzothiophene nicotinamide Rhodococcus erythropolis USTB-03 riboflavin

分类号 X50 [环境科学与工程—环境工程]

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参考文献1

1魏玉霞,闫海,肖宝清,李迎霞,吕乐.红串红球菌USTB-03对4,6-二甲基二苯并噻吩的脱硫研究[J].科技导报,2005,23(11):10-13. 被引量：2

二级参考文献12

1马翠卿,佟明友,于波,曾义勇,方向晨,冯进辉,张全,李福利,许平.一株红球菌脱硫菌株脱硫特性的研究[J].化学学报,2004,62(19):1883-1888. 被引量：14
2Kilbane J J. Desulfurization of coal: the microbial solution [J].Trends Biotechnol, 1989,7:97～101
3Monticello D J. Plasmid-mediated degradation of dibenzothiophene by Pseudomonas species [J]. Ann Rev Microbio/,1985.39:371～389
4Carolina H D,Almudena A,Victoria E S,et al. Modeling the production of a Rhodococcus erythropolis IGTS8 biocatalyst for DBT biodesulfurization: Influence of media composition [J].Enzyme and Microbial Technology, 2005,37.. 157～166
5Yan Hai,Kishimoto M,Omasa T,et al. Increase in desulfurization activity of Rhodococcus erythropolis KA2-5-1 using ethanol feeding [J]. Journal of Bioscience and Bioengineering,2000,89(4):361～366
6Ohshiro Takashi, Hirata Teruki, Izumi Yoshikazu. Desulfurization of dibenzothiophene derivatives by whole cells of Rhodococcus eryth ropolis H-2 [J]. FEMS Microbiology Letters, 1996,142:65～70
7Fu Li Li,Ping Xu,Cui Qing Ma,et al. Deep desulfurization of hydrodesulfurizaion -treated diesel oil by a facultative thermophilic bacterium Mycobacterium sp. X7B [J]. FEMS Microbiology Letters, 2003,223: 301～307
8闫海,王子健.红串红球菌脱硫酶的活性调节[J].化工冶金,1999,20(4):376-380. 被引量：6
9阎海.不同硫源对红串红球菌生长和脱硫比活性的效应[J].环境化学,2000,19(3):244-249. 被引量：6
10许平,李福利,俞坚,马翠卿,钟建江,曲音波,H.D.Blankespoor.脱硫微生物生产和燃油脱有机硫[J].科学通报,2001,46(18):1529-1533. 被引量：9

共引文献1

1倪锦俊,翟羽佳,刘玉凤,高盼盼,宋亚琼,闫海.尼克酰胺与核黄素提高红串红球菌USTB-03对4,6-二甲基二苯并噻吩脱硫活性研究[J].环境工程学报,2010,4(1):226-230. 被引量：1

同被引文献26

1魏玉霞,闫海,肖宝清,李迎霞,吕乐.红串红球菌USTB-03对4,6-二甲基二苯并噻吩的脱硫研究[J].科技导报,2005,23(11):10-13. 被引量：2
2吴晟旻,范伟平,茅燕勇,王晋宇.白腐菌和红平红球菌共固定化处理增塑剂废水[J].化工环保,2005,25(6):431-435. 被引量：5
3魏玉霞,肖宝清,闫海,简明宇.二苯并噻吩脱硫微生物菌种的筛选与活性[J].中国环境科学,2006,26(3):311-314. 被引量：7
4Chang W N, Liu C W, Liu H S. Hydrophobic cell surface and bioflocculation behavior of Rhodococcus erythropolis[J]. Process Biochemistry, 2009, 44 (9): 955-962.
5La S S, Chang W N, Lin T K, et al. Alkane utilization by Rhodococcus strain NTU-1 alone and in its natural association with Bacillus fusiformis L-1 and Ochrobactrum sp[J]. Biochemical Pharmacology, 2006, 22(3): 1368-1373.
6Liu C W, Chang W N, Liu H S. Bioremediation of n-alkanes and the formation of biofloccules by Rhodococcus erythropolis NTU-1 under various saline conditions and sea water[J]. Biochemical Engineering Journal, 2009, 45(1): 69-75.
7Liu C W, Liang M S, ChenY C, et al. Biodegradation of n-alkanes at high oncentration and correlation to the accumulation of H+ ions in Rhodococcus erythropolis NTU-1 [J]. Biochemical Engineering Journal, 2012, 63(15): 124-128.
8Liu C W, Liu H S. Rhodococcus erythropolis strain NTU-1 efficiently degrades and traps diesel and crude oil in batch and fed-batch bioreactors[J]. Process Biochemistry, 2011, 46(1): 202-209.
9Carla C C R. Adaptation of Rhodococcus erythropolis cells for growth and bioremediation under extreme conditions[J]. Research in Microbiology, 2012, 163(2): 125-136.
10Carla C C R, Fatal V, Alves, S S, et al. Adaptation of Rhodococcus erythropolis cells to high concentrations of toluene[J]. Applied Microbiology Biotechnology, 2007, 76(5):1423-1430.

引证文献4

1倪锦俊,翟羽佳,刘玉凤,高盼盼,宋亚琼,闫海.尼克酰胺与核黄素提高红串红球菌USTB-03对4,6-二甲基二苯并噻吩脱硫活性研究[J].环境工程学报,2010,4(1):226-230. 被引量：1
2杨慧芬,肖晶晶,王峰,张露.红城红球菌对微细粒赤铁矿的吸附-絮凝作用[J].中南大学学报（自然科学版）,2013,44(3):874-879. 被引量：1
3杨运松,梁金花,杨晓瑞,马艺鸣,金爽,孙姚瑶,朱建良.柴油生物酶催化氧化脱硫的研究进展[J].中国生物工程杂志,2021,41(10):109-115. 被引量：3
4李丽娜.燃料油脱硫技术的研究进展[J].精细石油化工进展,2022,23(2):48-54. 被引量：4

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2杨慧芬,李甜,唐琼瑶,王传龙,马雯.浮选难选赤铁矿的微生物捕收剂的筛选及性能评价[J].中南大学学报（自然科学版）,2013,44(11):4371-4378. 被引量：3
3苗广发,于睿,魏昱,岳新兵,齐亚平.一种用于柴油氧化脱硫的新型复合材料[J].山东化工,2021,50(22):57-59.
4许馨会,崔建慧,刘晓熳,董红雨,张婷婷,冯晓美,任红威,纪晨龙.有机酸氧化体系脱除FCC汽油含硫化合物研究[J].山东化工,2022,51(11):10-12.
5金爽,杨运松,梁金花,杨晓瑞,黎晓彤,朱建良.生物酶/γ-Al_(2)O_(3)小球催化氧化柴油脱硫性能研究[J].中国生物工程杂志,2022,42(10):21-30.
6梁靖雨,肖开妍,何飞,陆志波,林思劼.低硫燃料油对斑马鱼早期发育阶段的毒性效应[J].环境化学,2023,42(5):1424-1438.
7杨雪,刘可,张程翔,李东霖,王江芹,杨万亮.2D层状材料的燃料油氧化脱硫研究进展[J].化工进展,2024,43(1):422-436.
8崔洪珊,何杰,徐从波,赵玲玲,王丽平.Ag_(2)O-NiTi-LDH复合材料的构建及其光催化氧化乙硫醇性能研究[J].安徽建筑大学学报,2024,32(1):36-42.
9胡健,邓颖,向晓蓉,李琴琴,程慧清,刘晓雪,李颢.以稻壳为原料的介孔MoO_(3)/SiO_(2)制备及其氧化脱硫性能[J].云南化工,2024,51(7):84-89.

1LUOMingfang,XINGJianmin,等.Effects of aqueous media on microbial removal of sulfur from dibenzothiophene in the presence of hydrocarbons[J].Chinese Science Bulletin,2003,48(4):328-332.
2Zahra Etemadifar,Peyman Derikvand,Giti Emtiazi,Mohammad H. Habibi.Response Surface Methodology Optimization of Dibenzothiophene Biodesulfurization in Model Oil by Nanomagnet Immobilized Rhodococcus Erythropolis R1[J].材料科学与工程（中英文B版）,2014,4(10):322-330.
3李丕武,赵祥颖.R．erythropolis产生絮凝剂的培养条件(Ⅱ)[J].山东食品发酵,2004(3):25-26. 被引量：1
4王海鸥,支蕊,王立曼,任晶,艾妍.一株耐铜不动杆菌USTB-F的富集特性[J].环境化学,2011,30(4):832-837. 被引量：3
5李玉光,马洁,张倩倩,王长水,陈倩.Sulfur-Selective Desulfurization of Dibenzothiophene and Diesel Oil by Newly Isolated Rhodococcus erythropolis NCC-1[J].Chinese Journal of Chemistry,2007,25(3):400-405. 被引量：1
6徐慧敏,闫海,马松,王华生,尹春华,刘晓璐.鞘氨醇单胞菌USTB-05对微囊藻毒素的生物降解[J].中国环境科学,2014,34(5):1316-1321. 被引量：13
7曾丽璇,曾宝强,陈利华.烟酰胺降解菌的筛选及其降解特性[J].环境污染治理技术与设备,2006,7(1):34-36.
8魏玉霞,肖宝清,闫海,简明宇.二苯并噻吩脱硫微生物菌种的筛选与活性[J].中国环境科学,2006,26(3):311-314. 被引量：7
9姚俊,喻婵,靳竞男.一株枯草芽孢杆菌对芘的降解特性及代谢途径的研究[J].化学与生物工程,2014,31(5):10-12. 被引量：2
10何宁,李寅,陆茂林,陈坚.营养和环境条件对生物絮凝剂合成的影响[J].应用与环境生物学报,2001,7(5):483-488. 被引量：14

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2008年第5期

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