| Structural basis for bacterial energy extraction from atmospheric hydrogen R Grinter, A Kropp, H Venugopal, M Senger, J Badley, PR Cabotaje, R Jia, ... Nature 615 (7952), 541-547, 2023 | 37 | 2023 |
| Probing Substrate Transport Effects on Enzymatic Hydrogen Catalysis: An Alternative Proton Transfer Pathway in Putatively Sensory [FeFe] Hydrogenase PR Cabotaje, K Walter, A Zamader, P Huang, F Ho, H Land, M Senger, ... ACS catalysis 13 (15), 10435-10446, 2023 | 7 | 2023 |
| Minimal and hybrid hydrogenases are active from archaea C Greening, PR Cabotaje, LEV Alvarado, PM Leung, H Land, ... Cell 187 (13), 3357-3372. e19, 2024 | 4 | 2024 |
| Energy extraction from air: structural basis of atmospheric hydrogen oxidation R Grinter, A Kropp, H Venugopal, M Senger, J Badley, P Cabotaje, ... bioRxiv, 2022.10. 09.511488, 2022 | 2 | 2022 |
| Unique minimal and hybrid hydrogenases are active in anaerobic archaea C Greening, PR Cabotaje, LEV Alvarado, PM Leung, H Land, M Senger, ... | 1 | 2023 |
| Secondary structure changes as the potential H2 sensing mechanism of Group D [FeFe]-hydrogenases I Voloshyn, C Schumann, PR Cabotaje, A Zamader, H Land, M Senger Chemical Communications, 2024 | | 2024 |
| Improved H2 evolution and O2 tolerance through rational design in [FeFe] hydrogenase PR Cabotaje, A Sekretareva, M Senger, P Huang, K Walter, HJ Redman, ... | | 2024 |
| A widespread hydrogenase drives fermentative growth of gut bacteria in healthy people C Welsh, PR Cabotaje, VR Marcelino, TD Watts, DJ Kountz, JA Gould, ... bioRxiv, 2024.08. 15.608110, 2024 | | 2024 |
| Supplementary Information for" Unique minimal and hybrid hydrogenases are active from anaerobic archaea" C Greening, PM Leung, PR Cabotaje, LEV Alvarado, H Land, ... Monash University, 0 | | |
