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- Lidbury, Ian, et al. Show all 7 Authors
- Environmental microbiology 2016 v.18 no.8 pp. 2754-2766
- Roseobacter; Ruegeria; bacteria; biogeochemical cycles; climate; dimethyl sulfide; dimethyl sulfoxide; genes; mutagenesis; oxidation; seawater; sulfur; surface water; trimethylamine
- ... 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 heter ...
- Lidbury, Ian D. E. A., et al. Show all 9 Authors
- Environmental microbiology 2016 v.18 no.10 pp. 3535-3549
- Pseudomonas fluorescens; Pseudomonas putida; Pseudomonas stutzeri; crops; mutagenesis; nucleases; outer membrane proteins; phosphates; phosphoric triester hydrolases; phosphorus; proteomics; regulon; rhizosphere; soil; soil bacteria; solubilization; transporters
- ... Bacteria that inhabit the rhizosphere of agricultural crops can have a beneficial effect on crop growth. One such mechanism is the microbial‐driven solubilization and remineralization of complex forms of phosphorus (P). It is known that bacteria secrete various phosphatases in response to low P conditions. However, our understanding of their global proteomic response to P stress is limited. Here, ...