ExLibris header image
SFX Logo
Title: Genomic and metagenomic surveys of hydrogenase distribution indicate H2 is a widely utilised energy source for microbial growth and survival
Source:

Isme Journal [1751-7362] yr:2016


Collapse list of basic services Basic
Full text
Full text available via Nature
GO
Full text available via PubMed Central
GO
Document delivery
Request document via Library/Bibliothek GO
Users interested in this article also expressed an interest in the following:
1. Reeve, Holly A. "Enzymes as modular catalysts for redox halfreactions in H2-powered chemical synthesis: from biology to technology." Biochemical journal 474.2 (2017): 215-230. Link to SFX for this item
2. Gupta, N. "Thermophilic biohydrogen production for commercial application: the whole picture." International journal of energy research 40.2 (2016): 127-145. Link to Full Text for this item Link to SFX for this item
3. Berney, M. "An obligately aerobic soil bacterium activates fermentative hydrogen production to survive reductive stress during hypoxia." Proceedings of the National Academy of Sciences of the United States of America 111.31 (2014): 11479-84. Link to Full Text for this item Link to SFX for this item
4. Liebgott, P.-P. P. "Relating diffusion along the substrate tunnel and oxygen sensitivity in hydrogenase." Nature Chemical Biology 6.1 (2009): 63-70. Link to SFX for this item
5. Vignais, Bernard M. "Occurrence, classification, and biological function of hydrogenases: an overview." Chemical reviews 107.10 (2007): 4206-72. Link to Full Text for this item Link to SFX for this item
6. De Lacey, Antonio L. "Activation and inactivation of hydrogenase function and the catalytic cycle: Spectroelectrochemical studies." Chemical reviews 107.10 (2007): 4304-4330. Link to Full Text for this item Link to SFX for this item
7. Eady, Juan R. "Structure-function relationships of alternative nitrogenases." Chemical reviews 96.7 (1996): 3013-3030. Link to Full Text for this item Link to SFX for this item
8. Vincent, K.A. A. "Investigating and exploiting the electrocatalytic properties of hydrogenases." Chemical reviews 107.10 (2007): 4366-4413. Link to Full Text for this item Link to SFX for this item
9. Leger, C. "Inhibition and aerobic inactivation kinetics of Desulfovibrio fructosovorans NiFe hydrogenase studied by protein film voltammetry." Journal of the American Chemical Society 126.38 (2004): 12162-12172. Link to Full Text for this item Link to SFX for this item
10. Charon, M. "Crystal structure of the nickel-iron hydrogenase from Desulfovibrio gigas." Nature 373.6515: 580-587. Link to SFX for this item
11. Kubas, Gregory J. "Fundamentals of H-2 binding and reactivity on transition metals underlying hydrogenase function and H-2 production and storage." Chemical reviews 107.10 (2007): 4152-4205. Link to Full Text for this item Link to SFX for this item
12. Wang, X. "Heterogeneous Catalysis Mediated Cofactor NADH Regeneration for Enzymatic Reduction." ACS catalysis 6.3 (2016): 1880-1886. Link to Full Text for this item Link to SFX for this item
13. Manzella, Michael P. "The complete genome sequence and emendation of the hyperthermophilic, obligate iron-reducing archaeon “Geoglobus ahangari” strain 234T." Standards in genomic sciences 10.1 (2015): 77-77. Link to Full Text for this item Link to SFX for this item
14. Reeve, Holly A. "Enzyme-Modified Particles for Selective Biocatalytic Hydrogenation by Hydrogen-Driven NADH Recycling." ChemCatChem 7.21 (2015): 3480-3487. Link to Full Text for this item Link to SFX for this item
15. Elleuche, S.. "Exploration of extremophiles for high temperature biotechnological processes." Current opinion in microbiology 25 (2015): 113-119. Link to SFX for this item
16. Kelly, Linda W. "Local genomic adaptation of coral reef-associated microbiomes to gradients of natural variability and anthropogenic stressors." Proceedings of the National Academy of Sciences of the United States of America 111.28 (2014): 10227-10232. Link to Full Text for this item Link to SFX for this item
17. Berney, M. "Three different [NiFe] hydrogenases confer metabolic flexibility in the obligate aerobeMycobacterium smegmatis." Environmental microbiology 16.1, Sp. Iss. SI (2013): 318-30. Link to Full Text for this item Link to SFX for this item
18. Blakenship, Robert E. "Early evolution of photosynthesis.(Future Perspectives in Plant Biology)(Report)." Plant physiology 154.2 (2010): 434-. Link to SFX for this item
19. Fontecilla-Camps, J. "Structure-function relationships of anaerobic gas-processing metalloenzymes." Nature 460.7257 (2009): 814-822. Link to Full Text for this item Link to SFX for this item
20. Johnson, E. A. M. "Urban soil ecology as a focal point for environmental education." Urban ecosystems 12.1 (2009): 79-93. Link to SFX for this item
View More...
View Less...
Select All Clear All

Expand list of advanced services Advanced
A service provided by the Library of the Wissenschaftspark Albert Einstein, Potsdam, Germany.
© 2005 SFX by Ex Libris Inc.