文献类型: 外文期刊
作者: Zhuang, Li 1 ; Ma, Jinlian 1 ; Tang, Jia 1 ; Tang, Ziyang 1 ; Zhou, Shungui 1 ;
作者机构: 1.Guangdong Inst Ecoenvironm & Soil Sci, Guangdong Key Lab Agr Environm Pollut Integrated, 808 Tianyuan Rd, Guangzhou 510650, Guangdong, Peoples R China
关键词: Propionate degradation;Methanogenesis;Cysteine;Electron shuttle;Syntrophic interaction
期刊名称:MICROBIAL ECOLOGY ( 2020影响因子:4.552; 五年影响因子:4.77 )
收录情况: SCI
摘要: Propionate degradation is a critical step during the conversion of complex organic matter under methanogenic conditions, and it requires a syntrophic cooperation between propionate-oxidizing bacteria and methanogenic archaea. Increasing evidences suggest that interspecies electron transfer for syntrophic metabolism is not limited to the reducing equivalents of hydrogen and formate. This study tested the ability of an electron shuttle to mediate interspecies electron transfer in syntrophic methanogenesis. We found that cysteine supplementation (100, 400, and 800 mu M) accelerated CH4 production from propionate in paddy soil enrichments. Of the concentrations tested, 100 mu M cysteine was the most effective at enhancing propionate degradation to CH4 , and the rates of CH4 production and propionate degradation were increased by 109 and 79%, respectively, compared with the cysteine-free control incubations. We eliminated the possibility that the stimulatory effect of cysteine on methanogenesis was attributable to the function of cysteine as a methanogenic substrate in the presence of propionate. The potential catalytic effect involved cysteine serving as an electron carrier to mediate interspecies electron transfer in syntrophic propionate oxidization. The redox potential of cystine/cysteine, which is dependent on the concentration, might be more suitable to facilitate interspecies electron transfer between syntrophic partners at a concentration of 100 mu M. Pelotomaculum, obligately syntrophic, propionate-oxidizing bacteria, and hydrogenotrophic methanogens of the family Methano bacteriaceae are predominant in cysteine-mediated methanogenic propionate degradation. The stimulatory effect of cysteine on syntrophic methanogenesis offers remarkable potential for improving the performance of anaerobic digestion and conceptually broaden strategies for interspecies electron transfer in syntrophic metabolism.
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