SUBJECT INDEX 



195 



concentrations, 7, 8 



"dead" state, 7, 161 



excited states. 26-29. 131, 134, 145-147 



fluorescence, 7, 24, 28 



free state, 95, 96 



glutamic acid, 37, 164. 172, 173 



inactive state, 104 



isocyclic ring, 6, 8 



"living" state, 7, 161 



magnesium atom, 7. 145, 155 



monolayer state, 8 



organic solvents, 7, 23, 24, 27, 161 



oxygen capacity, 93, 94, 162 



photooxidation, 28, 30, 31, 57-61 



phytol chain, 5, 1 52 



polypeptide, 135, 157, 164 



protein, 7, 9, 85. 135, 157 



semiconductivity, 23, 147, 157 



structure, 56 



triplet state, 7, 22 



univalent electron transport, 23 

 Chloride ions, 131. 132, 150, 152 

 Chloroplast 



chloride ion, 152 



cytochromes, 10, 148, 152 



electron spin resonance, 22, 23 



isolated, 121, 122, 124. 127-129, 177 



membrane, 8 



mitochondria, 85, 128 



size, 8 



structure, 8, 9, 133 



vitamin K, 150 

 Chloroplastin, 9, 163 

 Chromatophores, 30, 129, 130 

 Citric acid, 113, 114, 143 

 zj-o-Citric acid. 114. 128. 142. 143 

 /jo-Citric dehydrogenase. 114 

 Coenzyme A, 1 1 2- 1 1 4 

 Comparative biochemistry, 122, 135 

 Compensation, 66-72, 103. 152, 154 

 Compensation degree, 66-68 

 Compulsory univalent oxidation-reduction, 19, 



21 

 Conjugated double bonds, 23 

 Culture solutions, 36, 81, 92, 173, 174 

 Cysteine, 62 

 Cytochromes, 131 



a, 10 



b, 10, 115 

 be, 10 



c, 10, 21, 151, 152 

 f, 10, 148, 151, 152 



Cytochrome oxidase, 10. 21, 62, 103, 148 



D 



Decarboxylation, oxidative. 112. 113. 117. 119, 

 120, 142, 145 



Diamagnetism, 18 



Digitonin, 9 



1.3-Diphosphoglyceric acid, 110. Ill, 142 



Diphosphopyridine nucleotide, 110-116, 127- 



129, 140, 142, 146, 148. 166 

 Dissociation energy, 23, 24 

 Doublet state, 25 



Efficiency 



economic, 68 



thermodynamic, 16, 53-59, 65, 68, 75, 76, 

 105 

 Einstein's law, 13, 15, 58, 84 

 Electron pairs, 17 

 TT Electrons, 23 

 Electron spin, 18, 24, 25 

 Electron spin resonance, 21. 22 

 Electron transfer, 19-21, 131, 145-147, 152 

 Energy migration, 19. 20 

 Energy turnover, 53-57 

 Enolase, 111 

 Erythrocytes, 92 



Erythrose-4-phosphate. 118-120, 140, 141 

 Ethyl chlorophyllide, 58, 59 

 Ethylurethane, 127 

 Euglena gracilis. 9, 165 

 Excited states, 13, 14, 18, 23-29 



Ferric ions, 124, 125, 132, 134 



Ferric oxalate. 124, 125 



Flavine adenine dinucleotide, 21, 148 



Flavine mononucleotide, 130-132, 152 



Fluctuating illumination, 35, 37, 165, 172, 187 



Fluorescence, 7, 20, 23-26, 28 



Fluoride reaction, 160-168 



Formaldehyde, 155 



Formic acid, 87, 113, 155, 178 



Free energy, 116, 147 



Free radicals, 17-22, 25, 29, 30, 145 



Fructose-l,6-diphosphate, 109, 139-142, 153, 



154 

 Fructose-6-phosphate, 109, 118. 120, 141 

 Fumarase, 115 

 Fumaric acid, 114, 115, 143 



Glucose-1 -phosphate. 133 



Glucose-6-phosphate,109,lll,116, 119, 120, 142 



Glucose-6-phosphate dehydrogenase, 1 1 6 



Glutamic acid. 37. 103. 146. 157, 163-171, 176 



Gkitamic acid decarboxylase, 163, 165 



Glutathion. 110 



Glycine, 1 1 3 



Glycol aldehyde, 184 



Giycolic, acid, 88, 113, 155, 184 



