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Direct electrochemistry of redox proteins


, : Direct electrochemistry of redox proteins.


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Accession: 015516406

DOI: 10.1021/ar00155a004

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Armstrong F.A.; Hill H.A.O.; Oliver B.N.; Walton N.J., 1984: Direct electrochemistry of redox proteins at pyrolytic graphite electrodes. The direct (unmediated) electrochemistry of sevreal redox proteins at pyrolytic graphite electrodes was studied by square-wave voltammetry. For rubredoxin and the 2[4Fe-4S] ferredoxin from Clostridium pasteurianum and flavodoxin from Megasphaera e...

Salamon Z.; Tollin G., 1992: Direct electrochemistry of redox proteins at a lipid bilayer modified electrode. Biophysical Journal 61(2 PART 2): A89

Armstrong F.A.; George S.J.; Thomson A.J.; Yates M.G., 1988: Direct electrochemistry in the characterization of redox proteins novel properties of azotobacter 7 iron ferredoxin. Febs Letters 234(1): 107-110

Hill, H.A.len O.; Moore, C.B.uce; Nabirahni, D.M.A., 1997: Electrochemistry of redox proteins. Lenaz, G [Editor], Milazzo, G [Editor] Bioelectrochemistry Principles and Practice, Vol 5; Bioelectrochemistry of biomacromolecules : 183-204

Léger, C.; Bertrand, P., 2008: Direct electrochemistry of redox enzymes as a tool for mechanistic studies. Chemical Reviews 108(7): 2379-2438

Frank, H.A.; Kievit, O.; Brudvig, G.W.; Kong, J.; Lu, Z.; Lvov, Y.M.; Bautista, J.A.; Rusling, J.F., 1999: Direct electrochemistry of redox sites in photosynthetic reaction centers. Biophysical Journal 76(1 PART 2): A256, Jan

Gidanian, S.; Farmer, P.J., 2002: Redox behavior of melanins: direct electrochemistry of dihydroxyindole-melanin and its Cu and Zn adducts. Synthetic melanin films, formed on electrode surfaces by oxidative polymerization of 5,6-dihydroxyindole solution, were used to directly measure the chromophore's redox reactivity. Films on optically transparent indium-tin oxide (ITO) electro...

Gidanian, S.; Farmer, P.J., 2002: Redox behavior of melanins: Direct electrochemistry of dihydroxyindole-melanin and its Cu and Zn adducts. Synthetic melanin films, formed on electrode surfaces by oxidative polymerization of 5,6-dihydroxyindole solution, were used to directly measure the chromophore's redox reactivity. Films on optically transparent indium-tin oxide (ITO) electro...

Pulcu, Gökçe.Su.; Elmore, B.L.; Arciero, D.M.; Hooper, A.B.; Elliott, S.J., 2007: Direct electrochemistry of tetraheme cytochrome c(554) from Nitrosomonas europaea: redox cooperativity and gating. Journal of the American Chemical Society 129(7): 1838-1839

Coleman J.O.D.; Hill H.A.O.; Walton N.J.; Whatley F.R., 1984: Electrochemically driven electron transport in biological systems the exploitation of direct redox protein electrochemistry. Allen, M J And P N R Usherwood (Ed ) Charge And Field Effects in Biosystems; International Symposium on Bioelectrochemistry And Bioenergetics, Nottingham, England, Sept 4-9, 1983 Xiii+522p Abacus Press, Kent, England; Publishers Business Services: Cambridge, Mass , Usa Illus 61-68