间甲酚降解菌Citrobacter farmeri的降解特性及代谢途径解析

彭丽花; 任源; 邓留杰; 张小璇; 韦朝海

环境化学

, , , ,

彭丽花, 任源, 邓留杰, 张小璇, 韦朝海. 间甲酚降解菌Citrobacter farmeri的降解特性及代谢途径解析[J]. 环境化学, 2009, 28(1): 44-48.

引用本文:

彭丽花, 任源, 邓留杰, 张小璇, 韦朝海. 间甲酚降解菌Citrobacter farmeri的降解特性及代谢途径解析[J]. 环境化学, 2009, 28(1): 44-48.

PENG Li-hua, REN Yuan, DENG Liu-jie, ZHANG Xiao-xuan, WEI Chao-hai . DEGRADATION CHARACTERISTICS OF m-CRESOL BY CITROBACTER FARMERI AND THE ELEMENTARY STUDY OF METABOLIC PATHWAY[J]. Environmental Chemistry, 2009, 28(1): 44-48.

Citation:

间甲酚降解菌Citrobacter farmeri的降解特性及代谢途径解析

1.
华南理工大学环境科学与工程学院, 广州, 510006;
2.
华南理工大学化学与化工学院, 广州, 510640
基金项目:
国家863项目(2006AA06Z378)

广东省重点科技攻关项目(2007B030103011)

DEGRADATION CHARACTERISTICS OF m-CRESOL BY CITROBACTER FARMERI AND THE ELEMENTARY STUDY OF METABOLIC PATHWAY

1.
College of Environmental Science and Engineering, South China University of Technology, Guangzhou, 510006, China;
2.
College of Chemical and Energy Engineering, South China University of Technology, Guangzhou, 510640, China
Fund Project:

摘要: 考察了在不同温度、pH值、摇床转速、氮源等环境和营养条件下,间甲酚降解菌Citrobacter farmeri对降解速率和降解过程中反应液的TOC值、紫外吸收及酶活的变化.结果表明,Citrobacter farmeri降解间甲酚的最适温度为35℃,培养基初始pH值为6.5-8.0,摇床转速为170 r·min-1,无机氮比有机氮和氨态氮比硝态氮更利于Citrobacter farmeri对间甲酚的降解;当间甲酚初始浓度低于375mg·l-1时,Citrobacter farmeri降解间甲酚符合零级动力学方程;间甲酚初始浓度约为60 mg·l-1时约, h完全降解,TOG的去除率8 h内可达到77%,之后几乎不变;Citrobacter farmeri可完全降解约600 mg·l-1的间甲酚,表现出高效与强耐受能力的结合.对酶活的测定发现,儿茶酚1,2-双加氧酶有明显增大,初步判断Citrobacter farmeri以邻位裂解的途径对间甲酚进行降解.
- 生物降解 /
- 间甲酚 /
- 代谢途经
Abstract: A m-cresol degrading bacterium named Citrobacter farmeri,which utilizes m-cresol as sole source of carbon and energy,was isolated from an aerobic activated sludge in a coke-plant wastewater biological treat-ment system.Some environmental and nutrition conditions for the biodegradation of m-cresol by Citrobacter farmeri such as temperatures,initial pH,shaker rotary speeds and nitrogen sources were studied.TOC,UV scans and key enzyme activities related to the ring-cleaving were measured to analyze the metabolic pathway. The optimal conditions are found to be temperature at 35℃,pH 6.5-8.0,and 170 r·min-1shaker rotary speed respectively.The effects of different nitrogen sources on biodegradation were investigated and the order was NH4Cl≈(NH4)2SO4NH4NO3CO(NH2)2 which shows the inorganic nitrogen is easier to be uti-lized.The degradation reaction of m-cresol by Citrobacter farmeri can be described with zero order kinetic equation when the initial m-cresol concentration islower than 375 mg·l-1.m-Cresol was degraded completely in, hours when the initial concentration was 60 mg·l-1,and TOC removal efficiency was 77% in 8 hours and then nearly kept constant.Catechol 1,2-dioxygenase had obvious augmentation when detected the enzyme activity which means Citrobacterfarmeri degrades m-cresol through orth-cleaving pathway.
- biodegradation /
- m-cresol /
- metabolite pathway

点击查看大图

计量

文章访问数: 602
HTML全文浏览数: 579
PDF下载数: 202
施引文献: 0

彭丽花, 任源, 邓留杰, 张小璇, 韦朝海. 间甲酚降解菌Citrobacter farmeri的降解特性及代谢途径解析[J]. 环境化学, 2009, 28(1): 44-48.

引用本文:

彭丽花, 任源, 邓留杰, 张小璇, 韦朝海. 间甲酚降解菌Citrobacter farmeri的降解特性及代谢途径解析[J]. 环境化学, 2009, 28(1): 44-48.

Citation:

间甲酚降解菌Citrobacter farmeri的降解特性及代谢途径解析

1. 华南理工大学环境科学与工程学院, 广州, 510006;
2. 华南理工大学化学与化工学院, 广州, 510640

收稿日期: 2008-05-27

基金项目:

国家863项目(2006AA06Z378)

广东省重点科技攻关项目(2007B030103011)

关键词:

生物降解 /
间甲酚 /
代谢途经

摘要: 考察了在不同温度、pH值、摇床转速、氮源等环境和营养条件下,间甲酚降解菌Citrobacter farmeri对降解速率和降解过程中反应液的TOC值、紫外吸收及酶活的变化.结果表明,Citrobacter farmeri降解间甲酚的最适温度为35℃,培养基初始pH值为6.5-8.0,摇床转速为170 r·min-1,无机氮比有机氮和氨态氮比硝态氮更利于Citrobacter farmeri对间甲酚的降解;当间甲酚初始浓度低于375mg·l-1时,Citrobacter farmeri降解间甲酚符合零级动力学方程;间甲酚初始浓度约为60 mg·l-1时约, h完全降解,TOG的去除率8 h内可达到77%,之后几乎不变;Citrobacter farmeri可完全降解约600 mg·l-1的间甲酚,表现出高效与强耐受能力的结合.对酶活的测定发现,儿茶酚1,2-双加氧酶有明显增大,初步判断Citrobacter farmeri以邻位裂解的途径对间甲酚进行降解.

English Abstract

DEGRADATION CHARACTERISTICS OF m-CRESOL BY CITROBACTER FARMERI AND THE ELEMENTARY STUDY OF METABOLIC PATHWAY

1. College of Environmental Science and Engineering, South China University of Technology, Guangzhou, 510006, China;
2. College of Chemical and Energy Engineering, South China University of Technology, Guangzhou, 510640, China

Received Date: 2008-05-27

Fund Project:

Keywords:

Abstract: A m-cresol degrading bacterium named Citrobacter farmeri,which utilizes m-cresol as sole source of carbon and energy,was isolated from an aerobic activated sludge in a coke-plant wastewater biological treat-ment system.Some environmental and nutrition conditions for the biodegradation of m-cresol by Citrobacter farmeri such as temperatures,initial pH,shaker rotary speeds and nitrogen sources were studied.TOC,UV scans and key enzyme activities related to the ring-cleaving were measured to analyze the metabolic pathway. The optimal conditions are found to be temperature at 35℃,pH 6.5-8.0,and 170 r·min-1shaker rotary speed respectively.The effects of different nitrogen sources on biodegradation were investigated and the order was NH4Cl≈(NH4)2SO4NH4NO3CO(NH2)2 which shows the inorganic nitrogen is easier to be uti-lized.The degradation reaction of m-cresol by Citrobacter farmeri can be described with zero order kinetic equation when the initial m-cresol concentration islower than 375 mg·l-1.m-Cresol was degraded completely in, hours when the initial concentration was 60 mg·l-1,and TOC removal efficiency was 77% in 8 hours and then nearly kept constant.Catechol 1,2-dioxygenase had obvious augmentation when detected the enzyme activity which means Citrobacterfarmeri degrades m-cresol through orth-cleaving pathway.

全文HTML

参考文献 (0)

下载: 全尺寸图片幻灯片

返回文章

用微信扫码二维码

分享至好友和朋友圈

间甲酚降解菌Citrobacter farmeri的降解特性及代谢途径解析

DEGRADATION CHARACTERISTICS OF m-CRESOL BY CITROBACTER FARMERI AND THE ELEMENTARY STUDY OF METABOLIC PATHWAY

计量

出版历程

间甲酚降解菌Citrobacter farmeri的降解特性及代谢途径解析

English Abstract

DEGRADATION CHARACTERISTICS OF m-CRESOL BY CITROBACTER FARMERI AND THE ELEMENTARY STUDY OF METABOLIC PATHWAY

全文HTML

目录