Standard reduction potentials (E°) of redox systems involved in biological electron transfer at pH 7

Range Table - link V
Organism Generic
Reference Rojas-Andrade MD et al., Antibacterial mechanisms of graphene-based composite nanomaterials. Nanoscale. 2017 Jan 19 9(3):994-1006. doi: 10.1039/c6nr08733g p.997 table 2PubMed ID28054094
Primary Source [62] K. H. Roehm, eLS, 2001, Electron Carriers: Proteins and Cofactors in Oxidative Phosphorylation, DOI: 10.1038/npg.els.0001373
Comments P.997 left column top paragraph: "The ROS [reactive oxygen species] species produced from graphene and its derivatives are therefore considered to be generated through interaction with oxygen or other ETC [electron transport chain] carriers (e.g., NADH, NADPH, or FADH2). Table 2 lists the primary electron transporters in ETC, along with their E°’s at pH 7. As these biomolecules span a large range of electrochemical potentials, charge transfer reactions with graphene derivatives are likely to occur in the proximity of cellular membranes [ref 50]."
Entered by Uri M
ID 114118