52 THE COMPOSITION OF FUNGUS CELLS 



103. Mangin, L. 1890. Compt. rend. (Paris) 110: 644-647. 



104. Mangin, L. 1899. /. de Botan. 13: 209-216, 276-287, 307-316, 339-348, 371- 

 378. 



105. Mangin, L. 1910. Compt. rend. (Paris) 151: 279-283. 



106. Mann, T. 1944. Biochem. J. (London) 38: 345-351. 



107. Michel-Durand, E. 1938. Bull. soc. chim. biol. 20: 399-412. 



108. Mull, R. P. and F. F. Nord. 1944. Arch. Biochem. 5: 283-290. 



109. Murray, H. C. and F. P. Zscheile. 1956. Phytopathology 46: 363-366. 



110. Murray, S., M. Woodbine, and T. K. Walker. 1953. /. Exp. Botany 4: 251- 

 256. 



111. Nabel, K. 1939. Arch. Mikrobiol. 10: 515-541. 



112. Nelson, C.I. 1933. /. Agr. Research 46: 183-186. 



113. Nord, F. F., H. Hofstetter, and E. Dammann. 1937. Biochem. Z. 293: 231-255. 



114. Norkrans, B. 1950. Symbolae Botan. Upsalienses 11 (1): 5-126. 



115. Norman, A. G. 1933. Ann. Appl. Biol. 20: 146-164. 



116. Norman, A. G. and W. H. Peterson. 1932. Biochem. J. (London) 26: 1946- 

 1953. 



117. Norman, A. G., W. H. Peterson, and R. C. Houtz. 1932. Biochem. J. (London) 

 26: 1934-1945. 



118. Northcote, D. H. 1953. Biochem. J. (London) 53: 348-352. 



119. Northcote, D. H. and R. W. Home. 1952. Biochem. J. (London) 51: 231-236. 



120. Okazaki, K., S. Koyama, and O. Tamemasa. 1955. ./. Pliarm. Soc. Japan 75: 

 1090-1093. 



121. Oxford, A. E. and H. Raistrick. 1933. Biochem. J. (Lotidon) 27: 1176-1180. 



122. Peck, R. L. 1947. In W. J. Nickerson (ed.), Biology of Pathogenic Fungi, p. 

 167-188. Waltham, Mass.: Chronica Botanica Co. 



123. Peck, R. L. and C. R. Hauser. 1938. /. Am. Chem. Soc. 60: 2599-2603. 



124. Pelletier, R. L. and G. W. Keitt. 1954. Am. J. Botany 41: 362-371. 



125. Petermann, M. L., M. G. Hamilton, and H. C. Reilly. 1952. Arch. Biochem. 

 Biophys. 37: 117-130. 



126. Peterson, W. H., E. B. Fred, and E. G. Schmidt. 1922. /• Biol. Chem. 54: 19- 

 34. 



127. Pillai, N. C. and K. S. Srinivasan. 1956. /. Gen. Microbiol. 14: 248-255. 



128. Pinck, L. A. and F. E. Allison. 1944. Soil Sci. 57: 155-161. 



129. Porges, N. 1932. Botan. Gaz. 94: 197-205. 



130. Porter, J. R. 1946. Bacterial Chemistry and Physiology. New York: John 

 Wiley and Sons, pp. 1073. 



131. Prill, E. A., P. R. Wenck, and W. H. Peterson. 1935. Biochem. J. (London) 

 29: 21-33. 



132. Pruess, L. M., E. C. Eichinger, and W. H. Peterson. 1934. Zentr. Bakteriol. 

 Parasitenk. Abt. II, 89: 370-377. 



133. Pruess, L. M., H. J. Gorcica, H. C. Greene, and W. H. Peterson. 1932. Bio- 

 chem. Z. 246: 401-413. 



134. Pruess, L. M., W. H. Peterson, H. Steenbock, and E. B. Fred. 1931. /. Biol. 

 Chem. 90: 369-384. 



135. Pyle, A. J. H. 1954. /. Gen. Microbiol. 11: 191-194. 



136. Raistrick, H. 1950. Proc. Roy. Soc. (London) B 136: 481-508. 



137. Raper, K. B. and D. I. Fennell. 1952. Bull. Torrey Botan. Club 79: 25-51. 



138. Raveux, R. 1948. Bull. soc. chim. biol. 30: 357-366. 



139. Rennerfelt, E. 1934. Planta 22: 221-239. 



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



141. Richards, A. G. 1954. Science 120: 761-762. 



142. Riley, R. F. and D. K. Miller. 1948. Arch. Biochem. 18: 13-26. 



143. Rippel, A. and G. Behr. 1930. Arch. Mikrobiol. 1: 271-276. 



144. Rippel, A. and G. Behr. 1934. Arch. Mikrobiol. 5: 561-577. 



