|. s CARBON METABOLISM II 



164. Obaton, F. 1929. Rev. gen. botan. 41: 282-292, 365-387, 424-440, 498-512, 622- 



165. Obaton, F. 1932. Cornpt. rend. (Paris) 194: 302-304. 



166. O'Dwyer, M. H. 1939. Biochem.J. (London) 33: 713-717. 



167. O'Dwyer.M.H. 1940. Biochem.J. (London) 34: 149-152. 



168 Oxford. A. E. and H. Raistrick. 1935. Biochem. J. (London) 29: 1599-1601. 



169. Fan, S. C, L. W. Nicholson, and P. Kolachov. 1953. Arch. Biochem. Biophys. 

 42: 106-420, 421-434. 



170. Pazur, J. H. 1952. /. Biol. Chem. 199: 217-226. 



171. l'a/ur. |. 11. 1951. Biochim. et Biophys. Acta 13: 158-159. 



172. Pazur, J. H. 1955. /. Biol. Chem. 216: 531-538. 



173. Pazur, |. H. and 1). French. 1951. /. Am. Chem. Soc. 73: 3536. 

 1 7 1. Pazur, J. H. and D. French. 1952 /. Biol. Chem. 196: 265-272. 



175. Perlman, D. and A. F. Langlykke. 1918. /. Am. Chem. Soc. 70: 3968. 



176. Phaff, H. J. 1947. Arch. Biochem. 13: 67-81. 



177. Phillips, L. L. and M. L. Caldwell. 1951a. /. A m. Chem. Soc. 73: 3559-3563. 



178. Phillips. L. L. and M. L. Caldwell. 1951b. /. Am. Chem. Soc. 73: 3563-3568. 

 17'.). Pigman, W. \V. 1943. J. Research Natl. Bur. Standards 30: 159-175. 



180. Pigman, W. W. 1951. In J. B. Sumner and K. Myrbiick (eds.), The Enzymes, 

 Vol. 1 (2). p. 725-711. Xew York: Academic Press. 



181. Ploetz, T. 1939. Z. physiol. Chem. Hoppe-Seyler's. 261: 163-168. 



182. Pottevin, H. 1903. Ann. inst. Pasteur 17: 31-51. 



182a. Prentice, N. and L. S. Cuendet. 1954. Nature (London) 174: 1151. 



183. Pringsheim, H. 1912. Z. physiol. Chem. Hoppe-Seyler's. 78: 266-291. 



181. Pringsheim, H. and G. Kohn. 1924. Z. physiol. Chem. Hoppe-Seyler's. 133: 

 80-96. 



185. Radha, K. 1953. Proc. Indian Acad. Sci. 38B: 231-234. 



185a. Ragheb, H. S. and F. W. Fabian. 1955. Food Research 20: 614-625. 



186. Raistrick, H. and G. Smith. 1933. Biochem.J. (London) 27: 1814-1819. 



187. Ramachandran. K. and T. K. Walker. 1951. Arch. Biochem. Biophys. 31: 224- 



233. 



188. Ramachandran, K. and T. K. Walker. 1952. Arch. Biochem. Biophys. 35: 195- 



203. 



189. Ratajak, E. J. and H. S. Owens. 1942. Botan. Gaz. 104: 329-337. 



190. Reese, E. T., W. Gilligan, and B. Norkrans. 1952. Physiol. Plantation 5: 379- 

 390. 



191. Reese, E. T. and H. S. Levinson. 1952. Physiol. Plantarum 5: 345-366. 



192. Reid, W. W. 1952. Biochem. J. (London) 50: 289-292. 



193. Reuter, C. 1912. Z. physiol. Chem. Hoppe-Seyler's. 78: 167-245. 



194. Reynolds, D. M. 1954. /. Gen. Microbiol. 11: 150-159. 



195. Roboz, E., R. W. Barratt, and E. L. Tatum. 1952. /. Biol. Chem. 195: 459-471. 



196. Roche, J. 1950. In J. B. Sumner and K. Myrbiick (eds.), The Enzymes, Vol. 

 1 (1), p. 473-510. New York: Academic Press. 



197. Roelofsen, P. A. 1953. Biochim. et Biophys. Acta 10: 410-413. 



198. Sadasivan, V. 1950. Arch. Biochem. 28: 100-110. 



199. Sadasivan, V. 1952. Arch. Biochem. Biophys. 37: 172-185. 



200. Saiki, T. 1906-1907. /. Biol. Chem. 2: 251-265. 



201. Saksena, R. K. and S. K. Bose. 1941. /. Indian Botan. Soc. 23: 108-112. 



202. Saroja, K.., R. Yenkataraman, and K. V. Giri. 1955. Biochem. J. (London) 60: 

 399-103. 



203. Satina, S. and A. F. Blakeslee. 1928. Proc. Natl. Acad. Sci. U. S. 14: 229-235. 



204. Saunders, P. R., R. G. H. Siu, and R. N. Genest. 1948. /. Biol. Chem. 174: 697- 

 703. 



205. Schefier, R. P.. S. S. Gothoskar, C. F. Pierson, and R. P. Collins. 1956. Phyto- 

 pathology 46: 83-87. 



