EFFECTS OF RADIATION ON BACTERIA 425 



Hercik, F. (1933) Poloiiiuin uiul die Treffertheorie Vjei Bakterien. Strahlentherapie, 

 47: 374-379. 



— (1934a) Teniperatur unci biologische \\iikunK dcr a-Strahlcii. Strahlen- 

 therapie, 49: 703-70G. 



(1934b) Zuni Mechanisnius der a-Strahlenwirkung. Strahlentherapie, 49: 



438-450. 



(1937) Action of ultraviolet light on spores and vegetative forms of B. 



megatherium sp. J. Gen. Physiol., 20: 589-594. 



Hollaender, A. (1942) Abiotic and sublethal effects of ultraviolet radiation on micro- 

 organisms. Aerobiology, Pub. Am. .\.ssoc. Advance. Sci., No. 17, 156 105. 



(1943) Effect of long ultraviolet and short visible radiation (3500 to 4900 A) 



on Escherichia coli. J. BacterioL, 46: 531-541. 



Hollaender, A., W. K. Baker, and E. H. Anderson (1951) Effect of oxygen tension 

 and certain chemicals on the X ray sensitivity of mutation production and 

 survival. Cold Spring Harbor Symposia Quant. Biol., 16: 315-325. 



Hollaender, A., and W. D. Glaus (1936) The bactericidal effect of ultraviolet radi- 

 ation on Escherichia coli in liquid suspensions. J. Gen. Physiol., 19: 753-765. 



(1937) An experimental study of the problem of mitogenetic radiation. 



Bull. Natl. Research Council No. 100, pp. 75 88. 



Hollaender, A., and B. M. Duggar (1936) Irradiation of plant viruses and of micro- 

 organisms with monochromatic light. III. Resistance of the virus of typical 

 tobacco mosaic and Escherichia coli to radiation from X 3000 to X 2250 A. Proc. 

 Natl. Acad. Sci. U.S., 22: 19-24. 



(1938) The effects of sublethal doses of monochromatic ultraviolet radiation 



on the growth properties of bacteria. J. BacterioL, 36: 17-37. 



Hollaender, A., and C. W. Emmons (1939a) The action of ultraviolet radiation on 

 dermatophytes. I. The fungicidal effect of monochromatic ultraviolet radiation 

 on the spores of Trichophyton mentagrophytes. J. Cellular Comp. Physiol., 13: 

 391-402. 



(1939b) Fungicidal and sublethal effects of monochromatic ultraviolet 



radiation on the spores of dermatophytes. Genetics, 24: 75. 



(1941) Wavelength dependence of mutation production in the ultraviolet 



with special emphasis on fungi. Cold Spring Harbor Symposia Quant. Biol., 9: 

 179-186. 



(1946) Induced mutations and speciation in fungi. Cold Spring Harbor 



Symposia Quant. Biol., 11: 78-84. 



Hollaender, A., J. P. Greenstein, and W. V. Jenrette (1941) Effects of ultraviolet 

 radiation on .sodium thymonucleate. J. Natl. Cancer Inst., 2: 23-28. 



Hollaender, A., K. B. Raper, and R. D. Coghill (1945) The production and character- 

 ization of ultraviolet-induced mutations in Aspergillus terreus. I. Production 

 of the mutations. Am. J. Botany, 32: 160-165. 



Hollaender, A., E. R. Sansome, E. Zimmer, and AI. Demerec (1945) Quantitative 

 irradiation experiments with Neurospora crassa. II. Ultraviolet irradiation. 

 Am. J. Botany, 32: 226-235. 



Hollaender, .\., and G. E. Stapleton (1953) Fundamental aspects of radiation pro- 

 tection from a microbiological point of view. Physiol. Revs., 33: 77-84. 



Hollaender, A., G. E. Stapleton, and W. T. Burnett, Jr. (1951) The modification of 

 X-ray sensitivity by chemicals. In, Isotopes in biochemistry, a Ciba Foundation 

 conference. J. V. A. Churchill, Ltd., London. Pp. 96-113. 



Hollaender, .\., G. E. Stapleton, and F. L. Martin (1951 ) X-ray sensitivity of E. coli 

 as modified by oxygen tension. N^ature, 167: 103-104. 



Hollaender, A., C. P. Swanson, and I. Posner. (1946) The sun as a source of muta- 

 tion producing indiation, Ani. J. Botany., 33: 830. 



