BIBLIOGRAPHY 191 



and SCHWARZENBACH, G. (1938). Intermediary form of oxidation-reduction of the flavina 



J. Biol. Chem., 123, 527. 

 ■ and Smythe, C. V. (1936). Iniiuence of certain dyes on fermentation and respiration of yeast 



extract. J. Biol. Chem., 113, 717. 



and (1938). Biological oxidations and reductions. Am. Rev. Biochem., 7, 1. 



and WOLLMAN, S. H. (1949). The semiquinone radical of tocopherol. Science, 109, 313. 



Miles, A. A., see Wilson and Miles. 



MmsKY, A. E., and Anson, M. (1936). Thiol groups and disulphide groups of proteins. II. Relation 



between number of SH and S-S groups and quantity of insoluble protein in denaturation and in 



reverse of denaturation. III. Sulfhydryl groups of native proteins of the crystalline lens. 



J. Oen. Physiol., 19, 427-50. 

 MiTRA, B. N. (1940). Oxidation-reduction potentials of Vibrio cAoZer^ and related organisms. Rept. 



Proc. 3rd Intern. Congr. Microbiol., 1939, 248. 

 MoHR, W. W. J. (1936). Use of the polarographic method in the investigation of solutions containing 



mUk proteins. Milchw. Forsch., 18, 123-30. 

 MOLLAND, J. (1944). Oxidation-reduction potentials in cultures of anaerobic bacteria. Acta Path. 



Microbiol. Scand.. 21, 673-712. 

 Moore, W. A., and Ruchoft, C. C. (1943). Oxidation-reduction studies. II. Reduction potentials 



in sewage and sewage-activated sludge mixtures. Sewage Works J., 15, 880. 

 , and Wattie, E. (1942). Oxidation-reduction potentials developed by pure cultures in 



sewage. Sewage Works J., 14, 980-90. 

 Morgan, E. J., Stewart, C. P., and Hopkins, F. G. (1922). On the anaerobic and aerobic oxidation 



of xanthine and hypoxanthine by tissues and milk. Proc. Roy. Sac, Lond. B. 94, 109. 

 Morgan, H. J., and Avery, 0. T. (1923). Studies on bacterial nutrition. IV. Effect of plant tissue 



upon growth of streptococcus and pneumococcus. J. Exp. Med., 38, 207. 



, see also Avery and Morgan, (1924). 



Morgan, W. T. J.", and Partridge, S. M. (1941). Studies in immuno-chemistry. VI. The use of 



phenol and of alkaU in the degradation of antigenic material isolated from Bad. dysentericB 



(Shiga). Biochem. J., 35, 1140. 

 Morrison, G. A., and Hinshelwood, C. N. (1949). Nitrogen utilisation and growth of coliform 



bacteria. III. Journ. Chem. Soc, 380. 

 Morton, C. (1931). The determination of glass-electrode potentials by means of a null ballistic valve 



electrometer, and valve potentiometers. Journ. Chem. Soc, 2977, 2983. 

 - — — (1932). The automatic control and recording of hydrogen-ion concentration by means of the 



glass electrode. Journ. Chem. Soc, 2469. 

 MoRUZZi, G., see Kuhn and Moruzzi (1934). 

 Muller, 0. H. (1940). Application of the dropping-mercury electrode for the detection of intermediate 



radicals. Ann. N.Y. Acad. Sci., 40, Art. 2, 91-109. 



(1942). Oxidation-reduction potentials measured with the dropping-mercury electrode. IV. 



Polarographic study of a-hydroxyphenazine. J. Biol. Chem.., 145, 425-41. 



and Batjmberger, J. P. (1937)." Oxidation-reduction potentials measured with the dropping 



Mercury electrode. I. II. Trans. Electrochem. Soc, 71, 169. 



. (1937). II. Polarographic investigation. An introduction to a new method. Trans. 



Electrochem. Soc, 71, 14 pp. 



and Davis, J. S. (1947). Polarographic studies of proteins and their degradation products. II. 



Normal values of the " Protein Index." Archiv. Biochem., 15, 39. 



Needham, D. M., and Needham, J. (1925). Hydrogen-ion concentration and oxidation-reduction 



potential of the cell interior : a micro-injection study. Proc Roy. Soc. B., 98, 259. 

 Negelein, E., see Warburg and Negelein (1934). 



and WuLFF, H. J. (1937). Crystallization of the protein of acetaldehyde reductase. Biochem. Z. 



289,436-7. 



, (1937). Dissociation constants and activity of acetaldehyde reductose. Biochem. Z. 



290, 445-6. 

 Neill, J. M., and Avery, O. T. (1925). Studies on oxidation and reduction systems in sterile pneumo 



coccus extracts. Journ. Exp. Med., 41, 285. 



and Mallory, T. B. (1926). Studies on the oxidation and reduction of immunological substances 



IV. Streptolysin. Journ. Exp. Med., 44, 241. 



, see also Ayerj and Neill (1924). 



Nekrassow, N. (1932). Die RoUe der indiflferenten Elektrode in wasseriger Losungen, die keine spezi 

 fischen oxydations-reduktions Stoffe enthalten. Ztschr. f. Electrodiemie, 38, 186. 



, see also ElimofiF, Nekrassow and Ehmov (1928). 



Nelson, J. M. (1939). Tyrosinase. Cold Spring Harbor Symposia Quant. Biol., 7, 148. 



and Dawson, C. R. (1944). Tyrosinase. Advances in Enzymology, 4, 99-152. 



Newbery, C, Lustiq, H., and Cagan, R. N. (1943). Enzymatic Reduction of Furil and Furoin 



Phytochemical reduction. Archiv. Biochem., 1, 391. 



