生物技术通报 ›› 2020, Vol. 36 ›› Issue (10): 105-115.doi: 10.13560/j.cnki.biotech.bull.1985.2020-0282

• 研究报告 • 上一篇    下一篇

一株高效硫氧化菌的筛选及其对S2-离子氧化途径的推测

张林义1,2(), 宋晨3, 徐瑶瑶2, 王嘉宁2, 王进1, 岳正波1, 刘晓玲2()   

  1. 1.合肥工业大学资源与环境工程学院,合肥 230009
    2.中国环境科学研究院,北京 100012
    3.南京领先环保技术股份有限公司,南京 210029
  • 收稿日期:2020-03-16 出版日期:2020-10-26 发布日期:2020-11-02
  • 作者简介:张林义,男,硕士研究生,研究方向:环境微生物;E-mail: 506739981@qq.com
  • 基金资助:
    北京市自然科学基金资助项目(8182058);中央级公益性科研院所基本科研业务专项(2019YSKY-003)

Screening of an Effective Sulfur-oxidizing Strain and Its Main Bio-oxidation Metabolic Pathway of S2-

ZHANG Lin-yi1,2(), SONG Chen3, XU Yao-yao2, WANG Jia-ning2, WANG Jin1, YUE Zheng-bo1, LIU Xiao-ling2()   

  1. 1. School of Resources and Environmental Engineering,Hefei University of Technology,Hefei 230009
    2. Chinese Research Academy of Environmental Sciences,Beijing 100012
    3. Nanjing Frontier Environmental Technology Co. Ltd.,Nanjing 210029
  • Received:2020-03-16 Published:2020-10-26 Online:2020-11-02

摘要:

以S2-离子为目标污染物,从北京东沙河黑臭水体中筛选分离得到一株具有高效S2-氧化功能的土著微生物。对其进行16S rRNA测序鉴定,结果显示,该菌株属于柠檬酸杆菌属(Citrobacter),命名为Citrobacter sp.sp1。菌株sp1的最适氧化条件为温度25℃,初始pH值7.0,初始葡萄糖浓度1.00 g/L和初始菌浓度1.00 g/L。在此最适条件下,菌株sp1对人工含硫废水中S2-的氧化率达到97.1%。在整个S2-氧化过程产生了S0、S2O32-、SO32-、S4O62-和SO42-这5种赋存形态的硫离子,且随着S2-浓度的持续下降SO42-浓度呈缓慢上升趋势。利用高通量测序技术推测菌株sp1通过副球菌硫氧化(Paracoccus sulfur oxidation,PSO)和副硫代硫酸盐代谢(S4 intermediate,S4I)这两条代谢途径将非稳定态的S2-逐步转化为稳定态的SO42-。在PSO途径中,一部分的S2-氧化为S0,生成的S0继续氧化为SO32-;而另一部分的S2-则直接氧化为SO32-,中间产物SO32-通过直接氧化途径与间接氧化途径氧化为SO42-。此外,在此途径中,S0亦可与SO32-自发反应生成S2O32-,而S2O32-发生歧化反应重新释放出SO32-和S0。在S4I途径中,一部分S2O32-转化为S4O62-;接着S4O62-被氧化为SO42-

关键词: 黑臭水体, S2-, 硫氧化菌, 硫氧化特性, 代谢途径

Abstract:

Inorganic sulfur(S2-)was used as the target pollutant,and an indigenous microorganism capable of efficient S2--oxidizing was isolated from Dongsha river,a black-odor water body in Beijing. Through 16S rRNA sequencing experiment,this strain was identified as Citrobacter and named as Citrobacter sp.sp1. The optimal S 2--oxidizing conditions of this strain sp1 were as follows:25℃,initial pH of 7.0,and initial glucose concentration of 1.00 g/L along with initial cell concentration of 1.00 g/L. Under the above optimal conditions,the highest S2--oxidizing ratio of artificial sulfur-containing wastewater by this strain sp1 reached 97.1%. Five chemical forms of sulfur including S0、S2O32-、SO32-、S4O62- and SO42- were produced in the whole bio-reaction process,and the concentration of SO42- increased slowly with the decreasing of S2-. Results of high-throughput sequencing showed that the strain sp1. transformed the unsteady-state S2-into steady-state SO42-via two main S2--oxidizing metabolic pathways of Paracoccus sulfur oxidation(PSO)and S4 intermediate(S4I). In PSO pathway,S2- partially was oxidized to be S0 and then the generated S0 continuously was oxidized to be SO32,while other part of S2- were directly bio-converted to SO32,and intermediate SO32- were further oxidized to SO42- by both directly and indirectly oxidation pathways;in addition,S0 reacted with SO32- spontaneously to form S2O32-,while S2O32- released SO32- and S0 by the disproportionate reaction. In S4I pathway,S2O32- partially was oxidized to S4O62-,and S4O62- subsequently was then oxidized to SO42-.

Key words: black-odor water body, S2-, sulfur-oxidizing bacterium, sulfur-oxidizing characteristics, metabolic pathway