658 



Subject Index 



Electron transfer 552 

 and cytochrome 60 565 

 and lactic dehydrogenase 556-557 

 chlorophyll-cytochrome interactions in 



601-602 

 conduction bands in 599-600 

 crossover theorem 613-616 

 function of cytochrome c, in 606- 



608 

 intercytochrome carriers in 602-603 

 kinetic studies 604-606 

 mechanism of in particles 599-603 

 possible ligands associated with phos- 

 phorylation 608-610 

 possible pathways 626, 627 

 purification and fragmentation in 603- 



604 

 quinone in 604, 605, 626 

 resonance energy transfer in 600-601 

 representation of reaction kinetics 



616-619 

 reversal of 610-612 

 speed of 597-599 

 thermal collisions in 599 

 ubiquinone in 604, 605, 626 

 Enzyme systems, mathematical properties of 



sequential 612-619 

 Esclienchia coli, location of cytochromes in 



218-224 

 nitrate respiration in 393-401 

 Ethanolamine, complexes formed with 



haem 74, 75, 76 

 Ethyl isocyanide, binding reactions with 



haemoglobin 80-84 

 binding with myoglobin 95 



Ferricatalase, oxidation of 252, 253 



Ferric haematin compounds, spectra of 

 325 



Ferric haemoproteins, spectra of 73 



Ferrichrome, preparation of 196 



Ferrichrome compounds, hydroxylamine 

 in 202,204 

 iron-binding centre 202 

 release of hydroxylamine from 198 



Ferric-itoicj, utilization by Bacillus subtilis 

 197-198 



Ferric itoic acid complex, composition of 

 199 

 labiUtyof 200 

 properties of 198-200 



Ferricytochrome b, reduction of 584 



Ferric phthalocyanine chloride, electronic 

 structure 6, 15 



Ferricyanide, reduction by lactic dehydro- 

 genase 550 



Ferricytochrome b., spectrum of 508, 568 



Ferricytochrome c, comparative properties, 

 385, 386 

 electronic structure 137,158 

 extraction of 361 

 spectra of 144, 158 

 Ferricytochrome c cyanide, spectra of 



144, 150 

 Ferrihaem compounds, spectra of 330- 



333 

 Ferrihaemin complexes, spectra of 167 

 Ferri haemoglobin, electronic structure 

 158 

 extinction coefficients 140 

 oxidation of 252 

 paramagnetic resonance 7-9, 1 5 

 spectra of 112,116,158,160,161 

 spin states 107, 1 10, 1 1 1 

 Ferrihaemoglobin cyanide, spectra of 113, 



115 

 Ferrihaemoglobin-cyanide complex, elec- 

 tronic structure 107 

 Ferrihaemoglobin derivatives, magnetic 

 moments 112-120 

 spectra 112-120 

 Ferrihaemoglobin fluoride, spectra of 113, 



115 

 Ferrihaemoglobin hydroxides, electronic 

 structure 134-135 

 spectra of 114,117,118,120,121 

 near infra-red region 126-127 

 u.v. region 118, 126 

 visible region 122-125 

 thermal mixture in 128-132, 133-134 

 Ferrihaemoglobin monocyanide {see Cyan- 



methaemoglobin) 

 Ferrihaemoprotein, ionization reactions 



105 

 Ferrihaemoprotein hydroxides, electronic 

 structure 106-112 

 magnetic properties 105-138 

 spectra of 105-138 

 Ferrileghaemoglobin hydroxide, visible 



spectra of 124, 125 

 Ferrimyoglobin, extinction coefficients 

 140 

 haem-linked ionization 96 

 spectra of 115, 116, 117, 118, 120-121, 

 125-126 



in heavy water 132-133 

 near infra-red region 126-127 

 visible region 122-125 

 Ferrimyoglobin cyanide, formation of 136 



spectra of 113, 1 14 

 Ferrimyoglobin derivatives, spectra of, in 



heavy water 132-133 

 Ferrimyoglobin fluoride, formation of 1 36 

 spectra of 113, 114 



