生物
三甲胺
硫黄
有机硫化合物
硫循环
二甲基磺酰丙酸盐
生物地球化学循环
海洋噬菌体
环境化学
细菌
海水
玫瑰杆菌
二甲基硫醚
单加氧酶
生物化学
生态学
基因
化学
克莱德
细胞色素P450
新陈代谢
系统发育学
有机化学
遗传学
浮游植物
营养物
作者
Ian D. E. A. Lidbury,Eileen Kröber,Zhidong Zhang,Yijun Zhu,J. Colin Murrell,Yin Chen,Hendrik Schäfer
标识
DOI:10.1111/1462-2920.13354
摘要
The volatile organosulfur compound, dimethylsulfide (DMS), plays an important role in climate regulation and global sulfur biogeochemical cycles. Microbial oxidation of DMS to dimethylsulfoxide (DMSO) represents a major sink of DMS in surface seawater, yet the underlying molecular mechanisms and key microbial taxa involved are not known. Here, we reveal that Ruegeria pomeroyi, a model marine heterotrophic bacterium, can oxidize DMS to DMSO using trimethylamine monooxygenase (Tmm). Purified Tmm oxidizes DMS to DMSO at a 1:1 ratio. Mutagenesis of the tmm gene in R. pomeroyi completely abolished DMS oxidation and subsequent DMSO formation. Expression of Tmm and DMS oxidation in R. pomeroyi is methylamine-dependent and regulated at the post-transcriptional level. Considering that Tmm is present in approximately 20% of bacterial cells inhabiting marine surface waters, particularly the marine Roseobacter clade and the SAR11 clade, our observations contribute to a mechanistic understanding of biological DMSO production in surface seawater.
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