FUNCTION OF CAROTENOIDS IN PHANEROGAMS 



156. Ham, W. E., and Tysdal, H. M. (1946), J. Amer. Soc. Agronom., 38, 68. 



157. Hamner, K. C. (1945), Soil Set., 60, 165. 



158. MIRIMANOFF, A. (1942), C. R. Soc. Hist. Nat. Sci. Genive, 59, 163. 



159. Smits, B. L., and Mitchell, H. L. (1951), Science, 113, 296. 



160. LUECKE, R. W., Hamner, C. L., and Seal, H. M. (1949), Plant Physiol., 24, 546. 



161. Bracco, M., and Euler, H. V. (1947). Kern. Arbeiten, Ny foljd, II Bd. 10. 



162. Rabinowitch, E. I. (1945), Photosynthesis, Vol. 1. Inter-Science Pub., N.Y. 



163. Frey-Wyssling, H. (1935), Die Stoffaiischeidung der hoherer Pfianze. Berlin. 



164. Kreula, M. (1945), Suomen Kemist., 18B, 69. 



165. Arnaud, a. (1889), C. R. Acad. Sci., 109, 911. 



166. VVlLLSTATTER, R., and STROLL, A. (1913), Untersuchungen iiber Chlorophyll. Berlin. 



Springer. 



167. Willstater, R., and Stoll, A. (1918), Untersuchungen iiber die Assimilation der Kohlen- 



saure. Berlin. Springer. 



168. Seybold, a., and Egle, K. (1938), Planta, 29, 119. 



169. Sapozhnikov, D. I., and Lopatkin, Y. B. (1950), Doklady Akad. Nauk. S.S.R., 72, 413. 



170. Seybold, A. (1941), Botan. Arch., 42, 254. 



171. Basu, N. M., Ray, G. K., and De, N. K. (1947), y. Indian Chem. Soc, 24, 355. 



172. Qlcovitch, H. S., and Mattill, H. A. (1931), J. biol. Chem., 91, 105. 



173. Franke, W. (1932), Hoppe-Seyl. Z., 212, 234. 



174. MONAGHAN, B. R., and Schmidt, F. O. (1932), J. biol. Chem., 96, 387. 



175. Olcott, H. S. (1934), y. Amer. Chem. Soc, 56, 2492. 



176. Thompson, C. R., and Steenbock, H. (1944), Arch. Biochem., 4, 15. 



177. Euler, H. v., and Hellstrom, H. (1938), Biochem. Z., 203, 370. 



178. Euler, B. v., Euler, H. v., and Ahlstrom, L. (1932), Hoppe-Seyl. Z., 204, 168. 



179. Lazar, O. (1935), C. R. Soc. biol. Paris, 120, 799, 1374. 



180. Lazar, O. (1936), C. R. Soc biol. Paris, 121, 886. 



181. Giroud, a. (1938), L'acide ascorbique dans la cellule at les tissus. Berlin. 



182. H^risset, a. (1948), Bull. Soc Chim. biol., 30, 187. 



183. LUBIMENKO, V. (1927), Rev. gen. botan., 39, 619. 



184. Smith, E. L. (1940) ,y. gen. Physiol., 24, 565. 



184a. Chailakhyan, M. K. (1950), Doklady Akad. Nauk. S.S.R., 74, 381. 



185. Draper, J. W. (1844), Ann. chim. phys., 11, 214. 



186. Engelmann, T. W. (1883), Botan. Z., 41, 1, 17. 



187. Button, H. J., Manning, W. M., and Duggar, B. M. (1943), y. physical Chem., 47, 308. 



188. Karrer, p., and Straus, W. (1939), Helv. Chim. Acta, 21, 1624. 



189. KOGL, F., and Schuringa, G. J. (1944). Hoppe-Seyl. Z., 280, 148. 



190. Frank, S. R. (1946), y. gen. Physiol, 29, 157. 

 190a. Noack, K. (1925), Z. Botan., 17, 481. 



191. Arens, K. (1940), Rodriguesia, 4. 167. 



19 lA. H^risset, a. Trav. lab. chim. biol. physiol. univ. cath. Anger, 2, 3. 



192. Blaauw, a. H. (1909), Rec trav. botan. Neerland., 5, 209. 



193. Bachmann, F., and Bergan, F. (1930), Planta, 10, 744. 



194. Voerkel, S. H. (1933), Planta, 21, 156. 



195. Castle, E. S. (1935), Cold Spring Harbor Symp. Quant. Biol., 3, 224. 



196. BtJNNlNG, E. (1937), Planta, 26, 719 ; (1938), 27, 148, 583. 



197. Went, F. W. (1941), Amer. y. Botan., 28, 83. 



198. Bottelier, H. p. (1933), Proc K. Akad. Welensch. {Amsterdam), 36, 790. 



199. BoRTHwicK, H. A., Hendricks, S. B., and Parker, M, W. (1948), Botan. Gaz., 110, 103. 



200. Galston, a. W., and Baker, R. S. (1949), Amer. y. Botan., 36, 773. 



201. Haig, C. (1935), Biol. Bull., 69, 305. 



202. Galston, A. W., and Hand, M. E. (1949), Amer. y. Botan., 36, 85. 



203. Galston, A. W. (1949), Proc. Nat. Acad. Sci. Washington, 35, 10. 



204. Bandurski, J., and Galston, A. W. (1950), Unpublished. Quoted in 205, 



205. Galston, A. W. (1950), Botan. Rev., 16, 361. 



206. Tauc. L. (1950), C. r. Soc biol., 144, 896. 



207. Goodwin, T. W. (1950), Biol. rev. Camb. Phil. Soc, 25, 391. 



208. Murneek, a. E. (1934), Science, 79, 528. 



209. Roberts, R. H., and Livingston, N. (1935), Science, 82, 596. 



210. Zhukovskii, R. M., and Medvedev, Z. (1949), Doklady Akad. Nauk. S.S.R., 66, 965. 



211. Zhukovskii, R. M., and Medvedev, Z. (1949), Doklady Akad. Nauk. S.S.R., 64, 141. 



212. Leledev, S. I. (1948), C. R. Acad. Sci. U.R.S.S., 59, 987. 



213. Deleano, N. T., and DiCK, J. (1937), Biochem. Z., 290, 360. 



214. Kuhn, R., and Low, I. (1949) Ber. deutsch. Chem. Ges., 82, 474. 



215. Moewus, F. (1950), Biol. Centr., 69, 181. ^ 



215a. Schwartzenbach, F. H. (1951), Helv. Chim. Acta, 34, 1064. 



216. Bernstein, L., and Thompson, J. F. (1947), Botan. Gaz., 109, 204. 



217. Meyer, K. (1933), y. biol. Chem., 103, 597, 607. 



218. Pepkowitz, L. (1943), y. biol. Chem., 149, 465. 



219. Aronoff, S., and Mackinney, G. (1943), y. Amer. Chem. Soc, 65, 956. 



220. Mitchell, H. L., and Hauge, S. M. (1946), y. biol. Chem., 163, 7. 



221. Weier, T. E. (1944), Amer. y. Botan., 31, 537. 



221a. Griffith, R. B., and Thompson, C. R. (1949), Bot. Gaz., Ill, 165. 



222. Mitchell, H. L., and Hauge, S. M. (1946), X biol. Chem., 164, 543. 



223. Sumner, J. B., and Dounce, A. L. (1939), Enzynologia, 7, 130. 



224. Sumner, J. B., and Sumner, R. J. (1940), y. biol. Chem., 134, 531. 



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