Bacterial electron transfer chains primed by proteomics
Advances in Microbial Physiology, 2016 - Elsevier
Electron transport phosphorylation is the central mechanism for most prokaryotic species to
harvest energy released in the respiration of their substrates as ATP. Microorganisms have …
harvest energy released in the respiration of their substrates as ATP. Microorganisms have …
Bacterial Electron Transfer Chains Primed by Proteomics
H Wessels, NM de Almeida… - Advances in …, 2016 - pubmed.ncbi.nlm.nih.gov
Electron transport phosphorylation is the central mechanism for most prokaryotic species to
harvest energy released in the respiration of their substrates as ATP. Microorganisms have …
harvest energy released in the respiration of their substrates as ATP. Microorganisms have …
[PDF][PDF] Bacterial Electron Transfer Chains Primed by Proteomics
HJ Wessels, NM de Almeida, B Kartal, JT Keltjens - 2016 - repository.ubn.ru.nl
Electron transport phosphorylation is the central mechanism for most prokaryotic species to
harvest energy released in the respiration of their substrates as ATP. Microorganisms have …
harvest energy released in the respiration of their substrates as ATP. Microorganisms have …
Bacterial Electron Transfer Chains Primed by Proteomics.
HJ Wessels, NM de Almeida, B Kartal… - Advances in Microbial …, 2016 - europepmc.org
Electron transport phosphorylation is the central mechanism for most prokaryotic species to
harvest energy released in the respiration of their substrates as ATP. Microorganisms have …
harvest energy released in the respiration of their substrates as ATP. Microorganisms have …