SUBJECT INDEX 



2073 



by Chi or chlorophyllide, of benzi- 

 dine, 510, 528 

 by Chi or chlorophyllide, of caro- 

 tene and xanthophyll, 510, 1528 

 by Chi or chlorophyllide, of er- 



gosterol, 511 

 by Chi or chlorophyllide, of horse 



serum, 510 

 by Chi or chlorophylhde, of iodide, 



511 

 by Chi or chlorophyllide, of iso- 



amj-lamine, 511, 788-89 

 by Chi or chlorophyUide, of oleate 



and pyruvate, 511 

 by Chi or chlorophyllide, of phenyl- 

 hydrazine, 1508 

 by Chi or chlorophyllide, of 



rubrene, 511 

 by Chi or chlorophyUide, of thio- 

 urea, 1526-28, 1949, 1952 

 by pheophorbide or protoporphyrin, 

 1526, 1528, 1952 

 in vivo, 526-38 



in absence of CO2, 527-31, 900, 909 



of benzidine, 528 



as cause of enhanced fluorescence in 



starved cells, 942 

 as cause of induction effects, 1420-25 

 of Chi, irreversible, 537-38 



reversible, as primary process in 

 PS, 551-53, 554-57 

 effect on PS, 328, 526, 531-32, 1359- 

 61, 1371-74 

 induction after it, 1371-74 

 inhibition, 526, 532 

 in excess light, 526, 532-36, 965, 1359, 



1360-61 

 in excess oxygen, 526, 531-32 

 of metabolites, leading to "internal 

 narcotization," 825, 942, 1420- 

 25, 1425-28 

 under narcotization, 526, 528, 909 

 of plant acids in succulents, 34, 265- 



66 

 in poisoned plants, 317 

 as primary photoprocess in PS, 161, 



527-28, 543-44 

 relation to R, 527, 530-31, 563-66, 

 900, 1425-28 



Phthalocyanine {and its Mg complex), 

 activation of fluorescence by polar 

 molecules, 772, 1835 

 influence of polar molecules on absorp- 

 tion spectrum, 648 

 photogalvanic and photovoltaic effects, 



1521-22 

 reversible photoreduction by ascorbic 



acid, 1504-05, 1506 

 as sensitizer of oxidoreduction, 1514-15 

 Phthiocol 



Phthiocol, inhibiting effect, on "adapta- 

 tion" and PR in algae, 314, 319-20 

 "resistant half" of PR, 314 

 on HR, 1613 

 on PS, 314, 319, 1910 

 as oxidant, in HR, 1572, 1575 

 Phycobilins 



Phycobilins (phycocyanin and phycoery- 

 thrin), 417-19, 420-21, 424-27, 476- 

 79, 664-68, 707-09, 1306 

 absorption spectra, in solution, 664-68, 

 728, 800, 1789-90, 1809-10 

 in vivo, 707-09, 728-30, 1856, 1876- 

 77, 1879 

 association with a part of Chi in vivo?, 



816 

 chemistry, 476-79, 1788-90 

 energy transfer, to Chi in vivo, 815-16, 

 1300-01, 1303-05, 1306 

 from Chi to them, 816 

 from phycoerythrin to phycocyanin, 



1306, 1878 

 from protein to chromophore, 1790, 

 1838 

 fluorescence, in vitro, 799-801, 1838 

 action spectrum, 1838 

 sensitized by protein, 1838 

 in vivo, 811-12, 813, 815-16, 1868-69, 

 1876, 1878 

 yield independent of hght intensity, 

 1051, 1871 

 isoelectric point, 478 

 location in chromoplasts, 1304, 1306, 



1754-55 

 molar extinction coefficient of the 



chromophore, 666-67, 1789 

 molecular weight of proteins, 478-79, 

 1790 



Volume I, pp. 1-599; Volume II.l, pp. 601-1208; Volume II.2, pp. 1209-2088 



