|Genomic and metagenomic surveys of hydrogenase distribution indicate H 2 is a widely utilised energy source for microbial growth and survival|
C Greening, A Biswas, CR Carere, CJ Jackson, MC Taylor, MB Stott, ...
The ISME journal 10 (3), 761-777, 2016
|HydDB: A web tool for hydrogenase classification and analysis|
D S°ndergaard, CNS Pedersen, C Greening
Scientific Reports 6 (34212), 10.1038/srep34212, 2016
|A soil actinobacterium scavenges atmospheric H2 using two membrane-associated, oxygen-dependent [NiFe] hydrogenases|
C Greening, M Berney, K Hards, GM Cook, R Conrad
Proceedings of the National Academy of Sciences 111 (11), 4257-4261, 2014
|Atmospheric trace gases support primary production in Antarctic desert surface soil|
M Ji, C Greening, I Vanwonterghem, CR Carere, SK Bay, J Steen, ...
|Energetics of pathogenic bacteria and opportunities for drug development|
GM Cook, C Greening, K Hards, M Berney
Advances in microbial physiology 65, 1-62, 2014
|Physiology, biochemistry, and applications of F420-and Fo-dependent redox reactions|
C Greening, FH Ahmed, AE Mohamed, BM Lee, G Pandey, AC Warden, ...
Microbiol. Mol. Biol. Rev. 80 (2), 451-493, 2016
|An obligately aerobic soil bacterium activates fermentative hydrogen production to survive reductive stress during hypoxia|
M Berney, C Greening, R Conrad, WR Jacobs, GM Cook
Proceedings of the National Academy of Sciences 111 (31), 11479-11484, 2014
|Persistence of the dominant soil phylum Acidobacteria by trace gas scavenging|
C Greening, CR Carere, R Rushton-Green, LK Harold, K Hards, ...
Proceedings of the National Academy of Sciences 112 (33), 10497-10502, 2015
|Sequence–structure–function classification of a catalytically diverse oxidoreductase superfamily in Mycobacteria|
FH Ahmed, PD Carr, BM Lee, L Afriat-Jurnou, AE Mohamed, NS Hong, ...
Journal of molecular biology 427 (22), 3554-3571, 2015
|Atmospheric hydrogen scavenging: from enzymes to ecosystems|
C Greening, P Constant, K Hards, SE Morales, JG Oakeshott, RJ Russell, ...
Appl. Environ. Microbiol. 81 (4), 1190-1199, 2015
|Three different [NiFe] hydrogenases confer metabolic flexibility in the obligate aerobe Mycobacterium smegmatis|
M Berney, C Greening, K Hards, D Collins, GM Cook
Environmental microbiology 16 (1), 318-330, 2014
|Mixotrophy drives niche expansion of verrucomicrobial methanotrophs|
CR Carere, K Hards, KM Houghton, JF Power, B McDonald, C Collet, ...
The ISME journal 11 (11), 2599, 2017
|H2 metabolism is widespread and diverse among human colonic microbes|
PG Wolf, A Biswas, SE Morales, C Greening, HR Gaskins
Gut microbes 7 (3), 235-245, 2016
|Oxidative phosphorylation as a target space for tuberculosis: success, caution, and future directions|
GM Cook, K Hards, E Dunn, A Heikal, Y Nakatani, C Greening, DC Crick, ...
Tuberculosis and the Tubercle Bacillus, 295-316, 2017
|The methanogenic redox cofactor F 420 is widely synthesized by aerobic soil bacteria|
B Ney, FH Ahmed, CR Carere, A Biswas, AC Warden, SE Morales, ...
The ISME journal 11 (1), 125-137, 2017
|Concordant divergence of mitogenomes and a mitonuclear gene cluster in bird lineages inhabiting different climates|
HE Morales, A Pavlova, N Amos, R Major, A Kilian, C Greening, ...
Nature ecology & evolution 2 (8), 1258-1267, 2018
|Integrative approaches for studying mitochondrial and nuclear genome co-evolution in oxidative phosphorylation|
P Sunnucks, HE Morales, AM Lamb, A Pavlova, C Greening
Frontiers in genetics 8, 25, 2017
|Integration of hydrogenase expression and hydrogen sensing in bacterial cell physiology|
C Greening, GM Cook
Current opinion in microbiology 18, 30-38, 2014
|The growth and survival of Mycobacterium smegmatis is enhanced by co-metabolism of atmospheric H2|
C Greening, SG Villas-B˘as, JR Robson, M Berney, GM Cook
PloS one 9 (7), 2014
|Assessing the fitness consequences of mitonuclear interactions in natural populations|
GE Hill, JC Havird, DB Sloan, RS Burton, C Greening, DK Dowling
Biological Reviews 94 (3), 1089-1104, 2019