Sec. 30.12] BIBLIOGRAPHY 569 



C 137 Slade, H. D., and C. H. Werkman: Assimilation of acetic and succinic acids 



containing heavy carbon by Acrobactcr indologenes, Arch. Biochem., 2, 97-111 



(1943). 

 C 138 Slade, H. D., H. G. Wood, A. O. Nier, A. Hemingway, and C. H. Werkman: 



Note on the utilization of carbon dioxide by heterotrophic bacteria, Ioiva State 



Coll. J. Sci., 15, 339-341 (1941). 

 C 139 Slade, H. D., H. G. Wood, A. O. Nier, A. Hemingway, and C. H. Werkman: 



Assimilation of heavy carbon dioxide by heterotrophic bacteria, /. Biol. Chem., 



143, 133-145 (1942). 

 C 140 Smith, J. H. C., and D. B. Cowie: Absorption and utilization of radioactive carbon 



dioxide by sunflower leaves, Plant Physiol., 16, 257-271 (1941). 

 C 141 Smith, J. H. C., and D. B. Cowie: The measurement of artificial radioactivity in 



liquid tracer samples using C u , /. Applied Phys., 12, 78-82 (1941). 

 C 142 Solomon, A. K., B. Vennesland, F. W. Klemperer, J. M. Buchanan, and A. B. 



Hastings: The participation of carbon dioxide in the carbohydrate cycle, /. Biol. 



Chem., 140, 171-182 (1941). 

 C 143 Sonne, J. C., J. M. Buchanan, and A. M. Belluva: Biological precursors of 



uric acid carbon, J. Biol. Chem., 166, 395-396 (1946). 

 C 144 Stotz, E.: Pyruvate metabolism, Advances in Enzymol., 5, 129-164 (1945). 

 C 145 Swenseid, M. E. : The use of the stable isotope, heavy carbon, in study of inter- 

 mediary metabolism, thesis, University of Minnesota, 1942. 

 C 146 Swenseid, M. E., R. H. Barnes, A. Hemingway, and A. O. Nier: The formation 



of acetone bodies from acetic acid, J . Biol. Chem., 142, 47-52 (1942). 

 C 147 Tobias, C. A., J. H. Lawrence, F. J. W. Roughton, W. S. Root, and M. I. 



Gregersen: The elimination of carbon monoxide from the human body with 



reference to the possible conversion of carbon monoxide to carbon dioxide, Am. J . 



Physiol., 145, 253-263 (1945). 

 C 148 Utter, M. F., L. O. Krampitz, and C. H. Werkman: Oxidation of acetyl phos- 

 phate and other substrates by Micrococcus lysodeikticus, Arch. Biochem., 9, 285-300 



(1946). 

 C 149 Utter, M. F., F. Lipmann, and C. H. Werkman: Reversibility of the phosphoro- 



clastic split of pyruvate, /. Biol. Chem., 158, 521-531 (1945). 

 C 150 Utter, M. F., and C. H. Werkman: Formation and reactions of acetyl phosphate 



in Escherichia coli, Arch. Biochem., 5, 413-422 (1944). 

 C 151 Utter, M. F., C. H. Werkman, and F. Lipmann: Reversibility of the phosphoro- 



clastic split of pyruvate, /. Biol. Chem., 154, 723-724 (1944). 

 C 152 Utter, M. F., and H. G. Wood: Fixation of carbon dioxide in oxalacetate by 



pigeon liver, /. Biol. Chem., 160, 375-376 (1945). 

 C 153 Utter, M. F., and H. G. Wood: Fixation of carbon dioxide in oxalacetate by 



pigeon liver, /. Biol. Chem., 164, 455-476 (1946). 

 C 154 van Niel, C. B., S. Ruben, S. F. Carson, M. D. Kamen, and J. W. Foster: 



Radioactive carbon as an indicator of carbon dioxide utilization. VIII. Role of 



carbon dioxide in cellular metabolism, Proc. Natl. Acad. Sci. U.S., 28, 8-15 (1942). 

 C 155 van Niel, C. B., J. O. Thomas, S. Ruben, and M. D. Kamen: Radioactive carbon 



as an indicator of carbon dioxide utilization. IX. The assimilation of carbon 



dioxide by Protozoa, Proc. Natl. Acad. Sci. U.S., 28, 157-161 (1942). 

 C 156 Vennesland, B.: Nitrogen and carbon isotopes: their application in vivo to the 



study of the animal organism, Advances in Biol. Med. Phys., 1, 45-116 (1948). 

 C 157 Vennesland, B., J. Ceithaml, and M. Gollub: The fixation of carbon dioxide in a 



plant tricarboxylic acid system, /. Biol. Chem., 171, 445-446 (1947). 



