SUBJECT INDEX 



197 



Phosphate bond, energy-rich. 110, 111. 116, 132, 



150 

 Phosphodihydroxyacetore, 109, 110, 139-141 

 Phospho-f^o/-pyruvic acid. 111. 115. 116. 143, 



154 

 Phosphofructokinase. 109 

 6-Phosphogluconic acid. 116, 117, 144 

 6-Phosphogluconic acid dehydrogenase, 117 

 3-PhosphoglyceraIdehyde, 109-112. 117. 118, 



139-142 

 Phosphoglyceraidehyde dehydrogenase, 110 

 2-Phosphoglyceric acid, 110, 111 

 3-Phosphoglyceric acid, 110, 111, 139-142, 144, 



152-156 

 Phosphoglyceromutase, 1 10 

 Phosphohexoisomerase, 109 

 Phosphoketopentose epimerasc, 140, 141 

 Phosphopentoisomerase, 141 

 Phosphopentokinase. 141 

 Phosphorescence, 23-26 

 Phosphoriboisomerase, 117 

 Phosphorylation 



anaerobic, 109-111, 116, 136. 182 



oxidative, 116. 128-130. 135. 136. 150 

 Photochemical equivalent. 13. 14 

 Photochemical reactions, 14-16 

 Photodismutation, 27 



Photodissociation, 15, 16, 20, 61-63, 86, 106 

 Photoluminescence, 23, 25 

 Photolyte. 85, 86, 103. 134, 162. 184. 187 

 Photophosphorylation, 129-136, 152, 182 

 Photosensitization, 26, 29, 31 

 Photosynthesis 



anaerobiosis, 100, 102 



Arnon's scheme, 130, 132 



blue-green light, 7, 75-81, 99, 104, 155, 187 



carbon cycle 139 144. 146. 148, 154, 155, 158 



carbon dioxide fixation, 8, 128, 133, 143, 152, 

 156, 171, 181 



carbon dioxide pressure, 72-74, 77, 105 



cytochromes, 10 



cytoplasm, 8 



delayed light, 27, 28 



efficiency, 53-59, 65, 68, 75, 76, 105 



energy turnover, 53-57 



enzyme, 7, 79-81 



fluorescence, 26 



fluoride reaction, 160-164, 167-169 



free radicals. 21-23, 29, 30 



inhibition, 28, 99, 127, 165, 169-171, 184 



Kandler's scheme, 153, 154 



lactic acid, 165 



lipoic acid, 113, 128, 143, 145-149 



one-quantum reaction, 84-87, 100, 105 



over-all reaction, 3-5 



phenanthroline, 81, 99, 127 



photolyte, 85, 86, 100, 103, 134, 135, 162, 184 



photophosphorylation, 129-136, 152, 182 



pyruvic acid dehydrogenase, 145 



quantum requirement, 56, 60, 64-106,187-189 



reductive carboxylation, 115 



respiration, 4, 66, 67, 99-103, 135, 142, 143, 

 146, 154, 164, 165, 183, 184 



van Niel's scheme, 122, 123 



vitamin K, 128, 149-152 



Warburg's equations, 84-86, 162 

 Photosynthetic bacteria, 122, 123, 130-132, 135 

 Photosynthetic carbon cycle, 139-144, 146, 148, 



154. 155. 158 

 Photosynthetic quotier.t. 3. 4. 66. 82, 83, 86-89, 



155 

 Phytol chain, 5, 152 

 Potassium ferricyanide, 124-127 

 Potassium ferrocyanide, 181 

 Potassium ions, 1 1 1 

 Potassium permanganate, 181 

 Poteriochromonas stipitata, 9 

 Proteins, semiconductivity, 18, 19 

 Protoporphyrin, 59 

 Purple bacteria, 122, 129 

 Pyruvic acid, 111-116, 128, 142. 144-146, 148, 



165. 166 

 Pyruvic acid dehydrogenase, 112, 145 

 Pyruvic phosphokinase, 1 1 1 



Q 



Quantum requirement 

 definition, 14 l6 



iron carbonyl compounds, 20, 62, 63. 86, 106 

 photosynthesis. 56. 60, 64-106, 187-189 



Quantum yield, see Quantum requirement 



Quinone, 124-126, 134, 145. 149, 150. 173-183 



Quinone catalysis. 178-182 



Quinone respiration, 126 



Redox potential. 149, 150, 152 



Reducing fermentation enzyme. 111. 112 



Resonance. 20, 21 



Respiration, 4, 66, 67, 79, 93, 99-103, 127, 135, 



142-144, 152, 154, 161, 164, 168, 170, 173, 



181, 183 

 Respiratory chain, 21, 144, 151 

 Respiratory quotient, 4, 66, 116 

 Retinene, 80 

 Retinene reductase, 80 

 Rhodamin B, 24 

 Rhodopsin, 79, 80 



Ribose-5-phosphate, 117-120, 140, 141 

 Ribulose-l,5-diphosphate, 140, 141, 143, 144, 



153, 154 

 Ribulose-5-phosphate, 117-119, 140, 141 



