BIBLIOGRAPHY 183 



Hanke, M. E. and Bailey, J. H. (1945). Oxidation-reduction potential of CI. Welchii and other 



Clostridia. Proc. iSoc. Expil. Biol. Med., 59, 163-6. 

 Harden, A. (1901). The chemical action of B. coli communis and similar organisms on carbohydrates 



and allied compounds. J. Chem. Soc, 79, 610. 

 (1932). Alcoholic fermentation. (Fourth edition) London. 



and Norris, R. V. (1914). The enzymes of washed zymin and dried yeast (Lebedev). II. Reduc- 

 tase. Biochem J., 8, 100. 



and (191.5). The reducing enzymes of dried yeast ( Leftedev) and of rabbit muscle. Biochem. 



J., 9, 330. 



and Zllva, S. S. (1915). The reducing enzyme of B. coli communis. Biochem. ./., 9, 379. 



Harington, C. R. (1948). Synthesis of a sulphur-containing analogue of thyroxine. Biochem. ./.^ 



43, 434. 

 Harris, D. T. (1928). Journ. Sci. Inst., 5, 161. 

 Harris, L. J., see Birch, Harris and Ray (1933). 



Harrison, D. C. and Quastel, J. H. (1928). Reduction potential of cysteine. Biochem. J., 22. 683. 

 Harrison, G. B. (1930). Application of a new type of triode valve to the determination of hydrogen-ioa 



concentration with glass electrodes. Journ. Chem. Soc, 1528. 

 Hart, P. D. A., see Anderson and Hart (1934). 

 Hartono, B. D. (1934). Woch. Brau., 51, 409. 

 Harvey, E. N. (1926). The oxidation-reduction potential of the luciferin-oxyluciferin system. Journ.. 



Gen. Physiol., 10, 385. 



(1929). Reducing intensityof luminous bacteria. Journ. Gen. Physiol., 13, 13. 



(1941). Review of bioluminescence. Ann. Rev. Biochem., 10, 531-52. 



Hastings, A. B., see Barron and Hastings (1934). 



Hastings, E. G., see Thornton and Hastings (1929). 

 McCarter and Hastings (1935). 

 Hatjrowitz, F. (1937). Reaction between hsemin and hydrogen peroxide. Enzymologia, 4, 139—44. 

 Havard, R. E., and Kendal, L. P. (1934). The effect of the oxidation-reduction potential of the- 



medium on the growth of tissue cultures. Biochem. J., 28, 1121. 

 Havemann, R., (1943). The oxidation-reduction potential of methsemoglobin and haemoglobin. Biochem,. 



Z., 314, 118-34. 



andWoLFF, K. (1937). The reduction-oxidation system methmffioglobin-hsemoglobin. Biochem. Z., 



293. 399-404. 



Heard, R. D. and Welch, A. D. (1935). The perfusion of the adrenal gland with reference to the 



mechanism of adrenaline stabilisation. Biochem. J., 29, 999. 

 Heath, J. C. (1946). Polarographic behaviour of adenine. Nature, 158, 23. 



Heintze, S. G. (1935). Soil oxidation-reduction potentials and pH values. Soil Research, 4, 351-5. 

 Hellerman, L., Perkins, M. E. and Clark, W. M. (1933). Urease activity as influenced by oxidation 



and reduction, Proc. Nat. Acad. 8ci., 19, 855. 



, see also Schwachman. Hellerman and Cohen (1934). 



and - — -(1934). Activation <.)f enzymes (II) papain activity as influenced by oxidation-reduction 



and by the action of metal compounds. J. Biol. Chem., 107, 241-55. 

 Hellstrom, H. (1927). Mechanism of Hydrosulfite reduction of cozymase. Z. physiol. Chem., 246, 



155-62. 



(1936). The shift in reduction-oxidation potential on iron-bearing methylene blue solution. 



Naturwissensc.haften, 24, 217. 



Henry, H., and Stacey', M. (1943). Histochemistry of the gram-staining reaction of micro-organisms. 



Nature, 151, 671. 

 Herbert, R. W. and others (1933). The constitution of ascorbic acid. J. Chem. Soc, 1270. 

 Hewitt, L. F. (1927). Combination of proteins with phthalein dyes. Biochem.. J., 21, 1305. 



(1929). Hormones of the anterior pituitary gland. Biochem,. J., 23, 718. 



(1930, 1). Oxidation-reduction potentials of cultures of haemolytic streptococci. I. Biochem. 



J., 24, 512. 



(1930, 2). Oxidation-reduction potentials of cultures of C diphtherice. I. Biochem. J., 24, 669. 



— ■ — (1930,3). Oxidation-reduction potentials of cultures of staphylococci. I. Biochem. J., 2i, 61G. 

 — — (1930,4). Oxidation-reduction potentials of cultures of pneumococci. I. 5ioc/iem. J., 24, 1551. 



(1931, 1). Oxidation-reduction potentials of pneumococcus cultures. II. Effect of catalase. 



Biochem. J., 25, 169. 



. (1931, 2). Oxidation-reduction potentials of haemolytic streptococci. II. Effect of catalase. 



Biochem. J., 25, 858. 

 (1931, 3). Effect of bacteriophage on oxidation-reduction potentials of B. dysenterice (Shiga) 



cultures. Biochem. J., 25, 1447. 

 • (1931, 4.) Effect of lysozyme on the oxidation-reduction potentials of M. lysodeikticus cultures. 



Biochem. J., 25, 1452. 



