Hydrogen Sulfide Oxidation is Coupled to Oxidative Phosphorylation in Mitochondria of Solemya reidi

Hydrogen Sulfide Oxidation is Coupled to Oxidative Phosphorylation in Mitochondria of Solemya reidi

Solemya reidi, a gutless clam found in sulfide-rich habitats, contains within its gills bacterial symbionts thought to oxidize sulfur compounds and provide a reduced carbon food source to the clam. However, the initial step or steps in sulfide oxidation occur in the animal tissue, and mitochondria i...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 1986-08, Vol.233 (4763), p.563-566
Hauptverfasser: Powell, Mark A., Somero, George N.
Format: Artikel
Sprache:eng
Schlagworte:
550200 - Biochemistry
ANIMALS
AQUATIC ORGANISMS
AROMATICS
ATP
Bacteria
BASIC BIOLOGICAL SCIENCES
BIOCHEMISTRY
Biological and medical sciences
BIOSYNTHESIS
CELL CONSTITUENTS
Cell growth
Cell lines
CHALCOGENIDES
CHEMICAL REACTIONS
CHEMISTRY
CLAMS
CYANIDES
DATA
Digestive system
DINITROPHENOL
EXPERIMENTAL DATA
Fundamental and applied biological sciences. Psychology
GILLS
Health aspects
HYDROGEN COMPOUNDS
HYDROGEN SULFIDES
HYDROXY COMPOUNDS
INFORMATION
INVERTEBRATES
Marine
Marine biology
MITOCHONDRIA
Mollusca
MOLLUSCS
NITRO COMPOUNDS
NUCLEOTIDES
NUMERICAL DATA
ORGANIC COMPOUNDS
ORGANIC NITROGEN COMPOUNDS
ORGANOIDS
OXIDATION
Oxygen
Oxygen consumption
PHENOLS
PHOSPHORYLATION
Physiological aspects
Physiology. Development
RESPIRATORY SYSTEM
Solemya reidi
Spleen cells
SULFIDES
Sulfur
SULFUR COMPOUNDS
SYNTHESIS
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Zusammenfassung:Solemya reidi, a gutless clam found in sulfide-rich habitats, contains within its gills bacterial symbionts thought to oxidize sulfur compounds and provide a reduced carbon food source to the clam. However, the initial step or steps in sulfide oxidation occur in the animal tissue, and mitochondria isolated from both gill and symbiont-free foot tissue of the clam coupled the oxidation of sulfide to oxidative phosphorylation [adenosine triphosphate (ATP) synthesis]. The ability of Solemya reidi to exploit directly the energy in sulfide for ATP synthesis is unprecedented, and suggests that sulfide-habitat animals that lack bacterial symbionts may also use sulfide as an inorganic energy source.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.233.4763.563