Robert T. Green scite author profile

Dimethylsulphoniopropionate (DMSP) is one of the Earth’s most abundant organosulphur molecules, a signalling molecule, a key nutrient for marine microorganisms, and the major precursor for gaseous dimethyl sulphide (DMS). DMS, another infochemical in signalling pathways, is important in global sulphur cycling2, and affects the Earth’s albedo, and potentially climate, via sulphate aerosol and cloud condensation nuclei production. It was thought that only eukaryotes produce significant amounts of DMSP, but here we demonstrate that many marine heterotrophic bacteria also produce DMSP, likely using the same methionine (Met) transamination pathway as macroalgae and phytoplankton10. We identify the first DMSP synthesis gene in any organism, dsyB, which encodes the key methyltransferase enzyme of this pathway and is a reliable reporter for bacterial DMSP synthesis in marine alphaproteobacteria. DMSP production and dsyB transcription are upregulated by increased salinity, nitrogen limitation and lower temperatures in our model DMSP-producing bacterium Labrenzia aggregata LZB033. With significant numbers of dsyB homologues in marine metagenomes, we propose that bacteria likely make a significant contribution to oceanic DMSP production. Furthermore, since DMSP production is not solely associated with obligate phototrophs, the process need not be confined to the photic zones of marine environments, and as such may have been underestimate

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Executive Insights: Countering Brand Counterfeiters

Green

Smith

2002

Journal of International Marketing

127

116

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Brands represent the most valuable asset that many firms possess, and the associated brand equity is usually the result of years of development efforts. Yet many brands are becoming increasingly threatened by the worldwide phenomenon of brand counterfeiting, whereby imitations of the brand are sold to unwary consumers as the original. Counterfeits are known to flourish especially in developing countries that have weak legal infrastructures and corruptible public officials. What can a company do in the face of this threat? The authors summarize the literature that addresses this issue and provide an in-depth description of how one company addressed the threat of counterfeits in a lucrative developing market. The case illustrates the lengths companies may need to go to respond to counterfeits and raises many issues in relation to these actions.

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DddQ, a novel, cupin‐containing, dimethylsulfoniopropionate lyase in marine roseobacters and in uncultured marine bacteria

Todd

Curson

Kirkwood

et al. 2010

Environmental Microbiology

111

102

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Ruegeria (previously Silicibacter) pomeroyi DSS-3, a marine roseobacter, can catabolize dimethylsulfoniopropionate (DMSP), a compatible solute that is made in large amounts by marine plankton and algae. This strain was known to demethylate DMSP via a demethylase, encoded by the dmdA gene, and it can also cleave DMSP, releasing the environmentally important volatile dimethyl sulfide (DMS) in the process. We found that this strain has two different genes, dddP and dddQ, which encode enzymes that cleave DMSP, generating DMS plus acrylate. DddP had earlier been found in other roseobacters and is a member of the M24 family of peptidases. The newly discovered DddQ polypeptide contains a predicted cupin metal-binding pocket, but has no other similarity to any other polypeptide with known function. DddP(-) and DddQ(-) mutants each produced DMS at significantly reduced levels compared with wild-type R. pomeroyi DSS-3, and transcription of the corresponding ddd genes was enhanced when cells were pre-grown with DMSP. Ruegeria pomeroyi DSS-3 also has a gene product that is homologous to DddD, a previously identified enzyme that cleaves DMSP, but which forms DMS plus 3-OH-propionate as the initial catabolites. However, mutations in this dddD-like gene did not affect DMS production, and it was not transcribed under our conditions. Another roseobacter strain, Roseovarius nubinhibens ISM, also contains dddP and has two functional copies of dddQ, encoded by adjacent genes. Judged by their frequencies in the Global Ocean Sampling metagenomic databases, DddP and DddQ are relatively abundant among marine bacteria compared with the previously identified DddL and DddD enzymes.

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Robert T. Green

Cross-Cultural Examination of the Fishbein Behavioral Intentions Model

Dimethylsulfoniopropionate biosynthesis in marine bacteria and identification of the key gene in this process

Executive Insights: Countering Brand Counterfeiters

DddQ, a novel, cupin‐containing, dimethylsulfoniopropionate lyase in marine roseobacters and in uncultured marine bacteria

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