284 NITROGEN NUTRITION AND METABOLISM 



3. Abe, M. 1949a. ./. Agr. Chem. Soc. Japan 23: 135-139. 



4. Abe, M. 1949b. /. Agr. Chem. Soc. Japan 23: 212-219. 



5. Abe, M., T. Yamano, Y. Kozu, and M. Kusumoto. 1951. ./. Agr. Chem. Soc. 

 Japan 24: 416-422. 



6. Abe, M., T. Yamano, Y. Kozu, and M. Kusumoto. 1953. /. Agr. Chem. Soc. 

 Japan 27: 18-23. 



7. Abe, M., T. Yamano, and M. Kusumoto. 1953. /. Agr. Chem. Soc. Japan 27: 

 G 17-620. 



8. Abel, J. J. and W. W. Ford. 1907. /. Biol. Chem. 2: 273-288. 



9. Abelson, P. H. and H. J. Vogel. 1955. /. Biol. Chem. 213: 355-364. 



10. Adachi, M. and T. Imamuia. 1933. ./• Soc. Trop. Agr. (Taiwan) 5: 121-130. 

 (Biol.Abstr.8: 16055. 1934). 



11. Adelberg, E. A. 1953. Bacteriol. Revs. 17: 253-267. 



12. Adelberg, E. A. 1955a. /. Biol. Chem. 216: 431-437. 



13. Adelberg, E. A. 1955b. In W. D. McElroy and H. B. Glass (eds.), A Sym- 

 posium on Amino Acid Metabolism, p. 419-430. Baltimore: The Johns Hop- 

 kins Press. 



14. Adelberg, E. A. and M. Rabinovitz. 1956. Ann. Rev. Biochem. 25: 349-396. 



15. Afanasiev, M. M. 1937. Nebraska Univ. Agr. Exp. Sta. Research Bull. 92: 

 1-63. 



16. Albert, A. 1950. Biochem. J. (London) 47: 531-538. 



17. Albert, A. 1952. Biochem. J. (London) 50: 690-697. 



18. Allison, F. E., S. R. Hoover, and H. J. Morris. 1934. /. Agr. Research 49: 

 1115-1123. 



19. Amatayakul, T. 1955. Ohio J. Sci. 55: 343-353. 



20. Ames, B. N. 1955. In W. D. McElroy and H. B. Glass (eds.), A Symposium on 

 Amino Acid Metabolism, p. 357-372. Baltimore: The Johns Hopkins Press. 



21. Ames, B. N. and B. L. Horecker. 1956. J. Biol. Chem. 220: 113-128. 



22. Amos, H. 1954. /. Am. Chem. Soc. 76: 3858. 



23. Anchel, M. 1953. J. Am. Chem. Soc. 75: 4621-4622. 



24. Anchel, M. 1955. Science 121: 607-608. 



25. Anderson, A. K. 1924. Studies Biol. Sci. Univ. Minn. 5: 237-280. 



26. Arnstein, H. R. V. and P. T. Grant. 1954. Biochem. J. (London) 57: 353- 

 359. 



27. Asahina, Y. and S. Shibata. 1953. Chemistry of Lichen Substances. Tokyo: 

 Japan Society for the Promotion of Science, pp. 240. 



28. Ayengar, P. and E. Roberts. 1952. /. Biol. Chem. 197: 153-460. 



29. Bach, D. 1927a. Compt. rend. (Paris) 184: 766-768. 



30. Bach, D. 1927b. Compt. rend. (Paris) 184: 1578-1579. 



31. Bach, D. 1927c. Compt. rend. (Paris) 185: 1309-1310. 



32. Bach, D. 1929a. Bull soc. chim. biol. 11: 119-145. 



33. Bach, D. 1929b. Bull soc. chim. biol. 11: 995-1006. 



34. Bach, D. 1929c. Bull. soc. chim. biol. 11: 1007-1015. 



35. Bach, D. 1929d. Bull. soc. chim. biol. 11: 1016-1024. 



36. Bach, D. 1929e. Compt. rend. soc. biol. 100: 831-833. 



37. Bach, E. 1948. Physiol. Plantarum 1: 387-389. 



38. Bach, E. 1949. Friesia 3: 377-378. 



39. Baker, E. E. and C. E. Smith. 1942. /. Injections Diseases 70: 51-53. 



40. Ban, R. W. and E. C. Stowell, Jr. 1956. Arch. Biochem. Biophys. 63: 259- 

 260. 



41. Barger, G. 1931. Ergot and Ergotism. London: Gurney and Jackson, pp. 

 279. 



42. Barner, H. D. and E. C. Cantino. 1952. Am. J. Botany 39: 746-751. 



43. Barnett, H. L. and V. G. Lilly. 1956. Mycologia 48: 617-627. 



44. Barton-Wright, E. C. 1952. Wallerstein Labs. Commun. 15: 115-131. 



