Add to ORKGAlthough significant advances in H2 photoproduction have recently been realized in fresh water algae (e.g. Chlamydomonas reinhardtii), relatively few studies have focused on H2 production and hydrogenase adaptations in marine or halophilic algae. Salt water organisms likely offer several advantages for biotechnological H2 production due to the global abundance of salt water, decreased H2 and O2 solubility in saline and hypersaline systems, and the ability of extracellular NaCl levels to influence metabolism. We screened unialgal isolates obtained from hypersaline ecosystems in the southwest United States and identified two distinct halophilic strains of the genus Tetraselmis (GSL1 and QNM1) that exhibit both robust fermentative and photo H2...
Typescript.Bibliography: leaves [127]-131.x, 131 lSeveral species of algae are found, for the first ...
International audienceBackgroundThe eukaryotic green alga, Chlamydomonas reinhardtii, produces H2 un...
Doebbe A, Rupprecht J, Beckmann J, et al. Functional integration of the HUP1 hexose symporter gene i...
Purification and characterization of a hydrogenase from the marine green alga Tetraselmis subcordifo...
The direct photoevolution of H2 from water by green algae is a transient phenomenon, due to the rapi...
The work describes a novel approach for sustained photobiological production of H2 gas via the rever...
A variety of unicellular green algae have the ability to photo-produce molecular hydrogen (H2). Usin...
Photobiological production of H2 by eukaryotic algae is of interest because it holds the promise of ...
Kruse O, Rupprecht J, Bader K-P, et al. Improved photobiological H-2 production in engineered green ...
A select set of microalgae are reported to be able to catalyse photobiological H2 production from wa...
In this study, four strains of Chlorella genus and four strains of Tetraselmis genus were investigat...
Hydrogen gas functions as a key component in the metabolism of a wide variety of microorganisms, oft...
Previously it has been shown that green microalga Chlamydomonas reinhardtii is capable of prolonged ...
BACKGROUND: Surface waters of aquatic environments have been shown to both evolve and consume hydrog...
Characterization of O2-tolerance in H2-producing photosynthetic organisms is essential to the develo...
Typescript.Bibliography: leaves [127]-131.x, 131 lSeveral species of algae are found, for the first ...
International audienceBackgroundThe eukaryotic green alga, Chlamydomonas reinhardtii, produces H2 un...
Doebbe A, Rupprecht J, Beckmann J, et al. Functional integration of the HUP1 hexose symporter gene i...
Purification and characterization of a hydrogenase from the marine green alga Tetraselmis subcordifo...
The direct photoevolution of H2 from water by green algae is a transient phenomenon, due to the rapi...
The work describes a novel approach for sustained photobiological production of H2 gas via the rever...
A variety of unicellular green algae have the ability to photo-produce molecular hydrogen (H2). Usin...
Photobiological production of H2 by eukaryotic algae is of interest because it holds the promise of ...
Kruse O, Rupprecht J, Bader K-P, et al. Improved photobiological H-2 production in engineered green ...
A select set of microalgae are reported to be able to catalyse photobiological H2 production from wa...
In this study, four strains of Chlorella genus and four strains of Tetraselmis genus were investigat...
Hydrogen gas functions as a key component in the metabolism of a wide variety of microorganisms, oft...
Previously it has been shown that green microalga Chlamydomonas reinhardtii is capable of prolonged ...
BACKGROUND: Surface waters of aquatic environments have been shown to both evolve and consume hydrog...
Characterization of O2-tolerance in H2-producing photosynthetic organisms is essential to the develo...
Typescript.Bibliography: leaves [127]-131.x, 131 lSeveral species of algae are found, for the first ...
International audienceBackgroundThe eukaryotic green alga, Chlamydomonas reinhardtii, produces H2 un...
Doebbe A, Rupprecht J, Beckmann J, et al. Functional integration of the HUP1 hexose symporter gene i...