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Oxidative Stress Regulates a Pivotal Metabolic Switch in Dimethylsulfoniopropionate Degradation by the Marine Bacterium Ruegeria pomeroyi

Tao Wang, Qiuyuan Huang, Andrew S. Burns, Mary Ann Moran, William B. Whitman

2022Microbiology Spectrum10 citationsDOIOpen Access PDF

Abstract

Dimethylsulfoniopropionate (DMSP) is the most abundant low-molecular-weight organic compound in marine surface water and source of dimethyl sulfide (DMS), a climatically active gas that connects the marine and terrestrial sulfur cycles. Marine bacteria are the major DMSP consumers, either generating DMS or consuming DMSP as a source of reduced carbon and sulfur. However, the factors regulating the DMSP catabolism in bacteria are not well understood. Marine bacteria are also exposed to oxidative stress. RNA sequencing (RNA-seq) experiments showed that oxidative stress induced in the laboratory reduced expression of the genes encoding the consumption of DMSP via the demethylation pathway and increased the expression of genes encoding DMS production via the cleavage pathway in the marine bacterium Ruegeria pomeroyi. These results support a model where DMS production in the ocean is regulated in part by oxidative stress.

Topics & Concepts

DimethylsulfoniopropionateDimethyl sulfideSulfurEnvironmental chemistryMarine bacteriophageBacteriaChemistryBiologyEcologyOrganic chemistryGeneticsPhytoplanktonNutrientOdor and Emission Control TechnologiesWater Treatment and DisinfectionPharmaceutical and Antibiotic Environmental Impacts
Oxidative Stress Regulates a Pivotal Metabolic Switch in Dimethylsulfoniopropionate Degradation by the Marine Bacterium Ruegeria pomeroyi | Litcius