428 RADIATION niOLOGY 



globoiiiini l)y iiltrMviolct liRht and its rplntioii to absorption proeesses. Heredity, 



1 : 247-257. 

 Mc-Aulay, A. L., J. M. Ford, and I). I.. Dohic (\U\\)) Production of lethal iiuitations 



in the fundus Cfuitioniiuiti ijlohosiiin by nionoehroniatic ultraviolet irradiation. 



Heredity, :i: 10«)-12(). 

 Melhvaiii, II. (194G) The magnitude of microbial reactions inxolvint; \itaiiiiii-like 



conipouiuls. Nature, loS: S<.)S-<)()2. 



(H)17) Iiiterrelation.s in niicroorf^anisni.s between {growth and the metabolism 



of vitamin-like substances. Advances in Enzymol., 7: 4(M)~46U. 



Meyer, Helen U. (1951) Photoreactivation of ultraviolet mutaKenesis in the polar 



cap of DroKOphila. Genetics, 3(1: 5()5. 

 Minch, F. (18U()) Zur Frage fiber die l<]in\virkung der Koiitgensciien Strahlen auf 



Bakterien uiid ihre eventuelle therapeutische Verwendbarkeit. Mimch. med. 



Wochschr., 5: 101-102. 

 Mitchell, P. (1951) Physical factors affecting growth and death. In, Bacterial 



physiology, ed. C. H. Werknuin and P. W . \\ ilson. Academic Press, Inc., New 



York. Pp. 12(1 177. 

 Monod, J., A. M. Torriani, and M. Jalit (1949) Sur la reactivation de bacteries 



sterilis6es par le rayonnement ultraviolet. Compt. rend., 229: 557. 

 Morse, M. L. (1950) Resistance to ultraviolet radiation in Escherichia colt, strains B 



and B/r. Bacteriol. Proc, 50: 135. 

 Morse, M. L., and C. E. Carter (1949) The effects of ultraviolet irradiation on the 



synthesis of nucleic acid by Escherichia coli. Bacteriol. Proc, 49: 14. 

 Muller, H. J. (1927) Artificial transmutation of the gene. Science, 66: 84-87. 

 Newcombe, H. B. (1948) Delayed phenotypic expression of spontaneous mutations 



in Escherichia coli. Genetics, 33: 447-476. 



(1949) Origin of bacterial variants. Nature, 164: 150-151. 



Newcombe, H. B., and G. W. Scott (1949) Factors responsible for the delayed 



appearance of radiation-induced mutants in Escherichia coli. Genetics, 34: 



475-492. 

 Newcombe, H. B., and H. A. Whitehead (1951) Photoreversal of ultraviolet-induced 



mutagenic and lethal effects in Escherichia coli. J. Bacteriol., 61: 243-251. 

 Noethling, W., and H. Stubbe (1934) Untersuchungen fiber experimentelle Aus- 



losung von Mutationen bei Antirrhinum iiiajus. V. Die Auslosung von Gen- 



mutationen nach Bestrahlung reifer mannliche Gonen mit Licht. Z. indiikt. 



.\bstammungs- u. Vererbungslehre, 67: 152-172. 

 Norman, A. (1951) Inactivation of Neurospora conidia by ultraviolet radiation. 



Exptl. Cell Research, 2: 454-473. 

 Novick, A., and L. Szilard (1949) Experiments on light-reactivation of ultra-violet 



inactivated bacteria. Proc. Natl. Acad. Sci. U.S., 35: 591-600. 

 Pugsley, A. T., T. H. Oddie, and C. E. Eddy (1935) The action of X-rays on certain 



bacteria. Proc. Roy. Soc. London, B118: 276-298. 

 Rahn, O. (1929) The size of bacteria as the cause of the logarithmic order of death. 



J. Gen. Physiol., 13: 179-205. 



(1930) The order of death of organisms larger than bacteria. J. Gen. 



Physiol., 14: 315 337. 



(1945) Physical methods of sterilization of microorganisms. Bacteriol. 



Revs., 9: 1-47. 



Rentschler, H. C, and R. Xagy (1940) .Vdvantages of bactericidal ultraviolet radi- 

 ation in air conditioning systems. Heating, Piping, .\ir Conditioning, 12: 127- 

 130. 



Rentschler, H. C, R. Xagy, and G. Mourom.seff (1941) Bactericidal effect of ultra- 

 violet radiation. J. Bacteriol., 41: 745-774. 



