Bacterial Taxa That Limit Sulfur Flux from the Ocean

Bacterial Taxa That Limit Sulfur Flux from the Ocean

Flux of dimethylsulfide (DMS) from ocean surface waters is the predominant natural source of sulfur to the atmosphere and influences climate by aerosol formation. Marine bacterioplankton regulate sulfur flux by converting the precursor dimethylsulfoniopropionate (DMSP) either to DMS or to sulfur com...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2006-10, Vol.314 (5799), p.649-652
Hauptverfasser: Howard, Erinn C, Henriksen, James R, Buchan, Alison, Reisch, Chris R, Bürgmann, Helmut, Welsh, Rory, Ye, Wenying, González, José M, Mace, Kimberly, Joye, Samantha B, Kiene, Ronald P, Whitman, William B, Moran, Mary Ann
Format: Artikel
Sprache:eng
Schlagworte:
Animal and plant ecology
Animal, plant and microbial ecology
Bacteria
Bacteria - classification
Bacteria - enzymology
Bacteria - genetics
Bacteria - metabolism
Bacterioplankton
Biological and medical sciences
Enzymes
Food Chain
Food chains
Fundamental and applied biological sciences. Psychology
Genes, Bacterial
Genome, Bacterial
Genomes
Marine
Marine Mammal Protection Act
Metagenomics
Microbial ecology
Microbiology
Molecular Sequence Data
Oceans and Seas
Oxidoreductases - genetics
Oxidoreductases - metabolism
Phylogeny
Phytoplankton - metabolism
Plankton
Plankton - classification
Plankton - enzymology
Plankton - genetics
Plankton - metabolism
Propionates - metabolism
Proteins
Rhodobacteraceae - classification
Rhodobacteraceae - enzymology
Rhodobacteraceae - genetics
Rhodobacteraceae - metabolism
Roseobacter
Sea water
Sea water ecosystems
Seas
Seawater - microbiology
Sulfhydryl Compounds - metabolism
Sulfides - metabolism
Sulfonium Compounds - metabolism
Sulfur
Sulfur Compounds - metabolism
Synecology
Taxa
Various environments (extraatmospheric space, air, water)
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Zusammenfassung:Flux of dimethylsulfide (DMS) from ocean surface waters is the predominant natural source of sulfur to the atmosphere and influences climate by aerosol formation. Marine bacterioplankton regulate sulfur flux by converting the precursor dimethylsulfoniopropionate (DMSP) either to DMS or to sulfur compounds that are not climatically active. Through the discovery of a glycine cleavage T-family protein with DMSP methyltransferase activity, marine bacterioplankton in the Roseobacter and SAR11 taxa were identified as primary mediators of DMSP demethylation to methylmercaptopropionate. One-third of surface ocean bacteria harbor a DMSP demethylase homolog and thereby route a substantial fraction of global marine primary production away from DMS formation and into the marine microbial food web.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1130657