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Literature summary for 1.14.14.36 extracted from

  • Bavishi, K.; Laursen, T.; Martinez, K.; Moller, B.; Della Pia, E.
    Application of nanodisc technology for direct electrochemical investigation of plant cytochrome P450s and their NADPH P450 oxidoreductase (2016), Sci. Rep., 6, 29459.
    View publication on PubMedView publication on EuropePMC

Application

Application Comment Organism
analysis direct electrochemical investigation of plant cytochrome P450s by nanodisc technology. Full length CYP79A1, CYP71E1 and NADPH P450 oxidoreductase of the dhurrin pathway are reconstituted individually in nanoscale lipid patches, nanodiscs, and directly immobilized on unmodified gold electrodes. Cyclic voltammograms of CYP79A1 and CYP71E1 reveal reversible redox peaks with average midpoint potentials of 80 mV and 72 mV vs. Ag/AgCl, respectively. NADPH P450 oxidoreductase yields two pairs of redox peaks with midpoint potentials of 90 mV and ?300 mV, respectively. The average heterogeneous electron transfer rate constant is calculated to be 1.5 per s Sorghum bicolor

Organism

Organism UniProt Comment Textmining
Sorghum bicolor Q43135
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General Information

General Information Comment Organism
physiological function full length CYP79A1, CYP71E1 and NADPH P450 oxidoreductase of the dhurrin pathway are reconstituted individually in nanoscale lipid patches, nanodiscs, and directly immobilized on unmodified gold electrodes. Cyclic voltammograms of CYP79A1 and CYP71E1 reveal reversible redox peaks with average midpoint potentials of 80 mV and 72 mV vs. Ag/AgCl, respectively. NADPH P450 oxidoreductase yields two pairs of redox peaks with midpoint potentials of 90 mV and -300 mV, respectively. The average heterogeneous electron transfer rate constant is calculated to be 1.5 per s Sorghum bicolor