570 ISOTOPIC TRACERS AND NUCLEAR RADIATIONS [Chap. 30 



C 158 Vennesland, B., E. A. Evans, Jr., and K. I. Altman: The effects of triphospho- 



pyridine nucleotide and of adenosine triphosphate on pigeon liver oxalacetic 



carboxylase, J. Biol. Chem., 171, 675-686 (1947). 

 C 159 Vennesland, B., A. K. Solomon, J. M. Buchanan, R. D. Cramer, and A. B. 



Hastings: Metabolism of lactic acid containing radioactive carbon in the a and /3 



position, /. Biol. Chem., 142, 371-377 (1941). 

 C 160 Vennesland, B., A. K. Solomon, J. M. Buchanan, and A. B. Hastings: Glycogen 



formation from glucose in the presence of radioactive carbon dioxide, /. Biol. 



Chem., 142, 379-386 (1942). 

 C 161 Weinhouse, S., G. Medes, and N. F. Floyd: The mechanism of fatty acid oxida- 

 tion, /. Biol. Chem., 153, 689-690 (1944). 

 C 162 Weinhouse, S., G. Medes, and N. F. Floyd: Fatty acid metabolism. The 



mechanism of ketone body synthesis from fatty acids, with isotopic carbon as 



tracer, /. Biol. Chem., 155, 143-151 (1944). 

 C 163 Weinhouse, S., G. Medes, and N. F. Floyd: Fatty acid metabolism. III. Reac- 

 tions of carboxyl-labeled acetic acid in liver and kidney, /. Biol. Chem., 158, 411- 



419 (1945). 

 C 164 Weinhouse, S., G. Medes, and N. F. Floyd: Ketone body formation from fatty 



acids using heavy carbon as a tracer, Am. J. Med. Sci., 207, 812-813 (1944). 

 C 165 Weinhouse, S., G. Medes, and N. F. Floyd: Fatty acid metabolism. V. The 



conversion of fatty acid intermediates to citrate, studied with the aid of isotopic 



carbon, /. Biol. Chem., 166, 691-703 (1946). 

 C 166 Weinhouse, S., G. Medes, N. F. Floyd, and L. Noda: Intermediates of acetate 



oxidation in the kidney, J. Biol. Chem., 161, 745-746 (1946). 

 C 167 Weinhouse, S., and R. H. Millington: Acetate metabolism in yeast, studied 



with isotopic carbon, /. Am. Chem. Soc, 69, 3089-3093 (1947). 

 C 168 Welshimer, H. J., G. L. Stahly, and W. G. Myers: Localization of radioactive 



azoprotein in tissues, J. Bact., 54, 95 (1947). 

 C 169 Werkman, C. H., and H. G. Wood: Heterotrophic assimilation of carbon dioxide, 



Advances in Enzymol., 2, 135-182 (1942). 

 C 170 White, A. G. C, and C. H. Werkman: Assimilation of acetate by yeast, Arch. 



Biochem., 13, 27-32 (1947). 

 C 171 Wilson, D. W.: The use of C 13 and C 14 in medical research, /. Franklin Inst., 244, 



209-219 (1947). 

 C 172 Wilson, D. W., A. M. Delluva, and S. Gurin: The metabolic fate of radioactive 



lactate in the phlorhizinized animals, Federation Proc, 6, 302-303 (1947). 

 C 173 Winnick, T., Friedberg, F., and D. M. Greenberg: Incorporation of C 14 -labeled 



glycine into intestinal tissue and its inhibition by azide Arch. Biochem., 15, 160-161 



(1947). 

 C 174 Wood, H. G.: The fixation of CO2 and the interrelationships of the tricarboxylic 



acid cycle, Physiol. Rev., 26, 198-246 (1946). 

 C 175 Wood, H. G. : Photosynthesis with C 13 2 and the distribution of heavy carbon 



in the sugars, Federation Proc, 6, 303-304 (1947). 

 C 176 Wood, H. G., R. W. Brown, and C. H. Werkman: Mechanism of the butyl alcohol 



fermentation with heavy carbon acetic and butyric acids and acetone, Arch. 



Biochem., 6, 243-260 (1945). 

 C 177 Wood, H. G., R. W. Brown, C. H. Werkman, and C. G. Stuckwisch: The 



degradation of heavy carbon butyric acid from the butyl alcohol fermentation, 



J. Am. Chem. Soc, 66, 1812-1818 (1944). 



