Sec. 30.13] BIBLIOGRAPHY 571 



C 178 Wood, H. G., N. Llfson, and V. Lorber: The position of fixed carbon in glucose 



from rat liver glycogen, /. Biol. Chem., 159, 475-489 (1945). 

 C 179 Wood, H. G., B. Vennesland, and E. A. Evans, Jr.: The mechanism of carbon 



dioxide fixation by cell free extracts of pigeon liver. Distribution of labeled 



carbon dioxide in the products, /. Biol. Chem., 159, 153-158 (1945). 

 C 180 Wood, H. G., C. H. Werkman, A. Hemingway, and A. O. Nier: Heavy carbon as 



a tracer in bacterial fixation of carbon dioxide, /. Biol. Chem., 135, 789-790 (1940). 

 C 181 Wood, H. G., C. H. Werkman, A. Hemingway, and A. O. Nier: Heavy carbon as 



a tracer in bacterial fixation of C0 2 , /. Bad., 41, 20 (1941). 

 C 182 Wood, H. G., C. H. Werkman, A. Hemingway, and A. O. Nier: Heavy carbon as 



a tracer in heterotropic carbon d'oxide assimilation, /. Biol. Chem., 139, 365-376 



(1941). 

 C 183 Wood, H. G., C. H. Werkman, A. Hemingway, and A. O. Nier: The position of 



carbon dioxide carDon in succinic acid synthesized by heterotropic bacteria, 



/. Biol. Chem., 139, 377-381 (1941). 

 C 184 Wood, H. G., C. H. Werkman, A. Hemingway, and A. O. Nier: Note on the 



degradation of propionic acid synthesized by Ptopionibacterium, Iowa State Coll. 



J. Sci., 15, 213-214 (1941). 

 C 185 Wood, H. G., C. H. Werkman, A. Hemingway, and A. O. Nier: Position of carbon 



dioxide -carbon in propionic acid synthesized by Propionibacterium, Proc. Soc. 



Exptl. Biol. Med., 46, 313-316 (1941). 

 C 186 Wood, H. G., C. H. Werkman, A. Hemingway, and A. O. Nier: Mechanism of 



fixation of carbon dioxide in the Krebs cycle, /. Biol. Chem. r 139, 483 (1941). 

 C 187 Wood, H. G., C. H. Werkman, A. Hemingway, and A. O. Nier: Fixation of 



carbon dioxide by pigeon fiver in the dissimilation of pyruvic acid, /. Biol. Chem., 



142, 31-45 (1942). 

 C 188 Wood, H. G., C. H. Werkman, A. Hemingway, A. O. Nier, and C. G. Stuck- 



wisch: Reliability of reactions used to locate assimilated carbon in propionic acid, 



/. Am. Chem. Soc., 63, 2140-2142 (1941). 



30.13. Cerium 



Ce 1 Abrams, R , H. C. Seibert, A. M. Potts, W. Lohr, and S. Postel: Metabolism of 



inhaled fission product aerosols, U.S. Atom. Energy Comm. Declass. Doc. MDDC 



248. 

 Ce 2 Brues, A. M., H. Lisco, and M. Finkel: Carcinogenic action of some substances 



which may be a problem in certain future industries, U.S. Atom. Energy Comm. 



Declass. Doc. MDDC 145, 1946. 

 Ce 3 Copp, D. H., D. J. Axelrod, and J. G. Hamilton: The deposition of radioactive 



metals in bone as a potential health hazard. U.S. Atom. Energy Comm. Declass. 



Doc. MDDC 455. 

 Ce 4 Copp, D. H., D. J. Axelrod, and J. G. Hamilton: The deposition of radioactive 



metals in bone as a potential health hazard, Am. J. Roentgenol. Radium Therap., 



58, 10-16 (1947). 

 Ce 5 Hamilton, J. G.: The metabolism of the fission products and the heaviest elements, 



Radiology, 48, 325-343 (1947). 

 Ce 6 Jacobson, L., and R. Overstreet: Progress report on plant studies (the fixation 



and absorption of fission products by plants), U.S. Atom. Energy Comm. Declass, 



Doc. MDDC 571, 1946. 



