Literature Cited
Anderson, E. H. Incidence of metabolic changes among virus-resistant mutants of a bacterial strain. Proc. Nat. Acad Sci.30: 397–403. 1944.
—. Growth requirements of virus-resistant mutants ofEscherichia coli strain “B”. Proc. Nat. Acad. Sci.32: 120–128. 1946.
Anderson, T. F. Virus reactions inside of bacterial host cells. Jour. Bact.47: 113. 1944.
—. On a bacteriolytic substance associated with a purified virus. Jour. Cell. & Comp. Physiol.25: 1–15. 1945.
—. The role of tryptophane in the adsorption of two bacterial viruses on their hostE. coli. Jour. Cell. & Comp. Physiol.25: 17–26. 1945.
-. The activity of a bacteriostatic substance in the reaction between bacterial virus and host. Science101: 565–566.
—. Morphological and chemical relations in viruses and bacteriophages. Cold Spring Harbor Symp. Quant. Biol.11: 1–13. 1946.
—. The activation of the bacterial virus T4 byLtryptophan. Jour. Bact.55: 637–649. 1948.
—. The inheritance of requirements for adsorption cofactors in the bacterial virus T4. Jour. Bact.55: 651–658. 1948.
—. The influence of temperature and nutrients on plaque formation by bacteriophages active onEscherichia coli strain B. Jour. Bact.55: 659–665. 1948.
—et al. The relative sensitivity of bacterial viruses to sonic vibration. Science108: 18–19. 1948.
- andShetzley, C. M. [Unpublished results].
- et al. Types of morphology found in bacterial viruses. 2nd Ann. Meet. Electron Micr. Soc. Am., Chicago, Nov. 17, 1944.
Ashenberg, N. J. et al. The influence of bacterial and non-bacterial polysaccharides upon bacteriophagy. Jour. Bact.39: 71–72. 1940.
Bawden, F. C. Plant viruses and yirus diseases. 2nd ed. 1943.
Beard, J. W. The chemical, physical and morphological properties of animal viruses. Physiol. Rev.28: 349–367. 1948.
Bernal, J. D. andFankuchen, I. X-ray and crystallographic studies of plant virus preparations. Jour. Gen. Physiol.25: 111–165. 1941.
Burnet, F. M. The phage-inactivating agent of bacterial extracts. Jour. Path. & Bact.38: 285–299. 1934.
—. The bacteriophages. Biol. Rev.9: 332–350. 1934.
-. Virus as organism. Evolutionary and ecological aspects of some human virus diseases. 1945.
—et al. The immunological reactions of the filtrable viruses. Australian Jour. Exp. Biol. & Med. Sci.15: 227–368. 1937.
—et al. Mucin as substrate of enzyme action by viruses of the memps influenza group. Nature160: 404–405. 1947.
—et al. Modification of human red cells by virus action. I. The receptor gradient for virus action in human red cells. Brit. Jour. Exp. Path.27: 228–236. 1946.
Cohen, S. S. Streptomycin and desoxyribonuclease in the study of variations in the properties of a bacterial virus. Jour. Biol. Chem.166: 393–394. 1946.
—. The synthesis of bacterial viruses in infected cells. Cold Spring Harbor Symp. Quant. Biol.12: 35–49. 1947.
—. The synthesis of bacterial viruses. II. The origin of the phosphorus found in the desoxyribonucleic acids of the T2 and T4 bacteriophages. Jour. Biol. Chem.174: 295–303. 1948.
— andAnderson, T. F. Chemical studies on host-virus interactions. I. The effect of bacteriophage adsorption on the multiplication of its host,Escherichia coli B. With an appendix giving some data on the composition of the bacteriophage, T. Jour. Exp. Med.84: 511–523. 1946.
——. Chemical studies on host-virus interactions. II. The chemical simulation of the interference phenomenon by 5-methyl tryptophane. Jour. Exp. Med.84: 525–533. 1946.
— andFowler, C. B. Chemical studies on host-virus interaction. III. Tryptophan requirements in the stages of virus multiplication in theEscherichia coli-T2 bacteriophage system. Jour. Exp. Med.85: 771–784. 1947.
——. Chemical studies on host-virus interaction. V. Some additional methods of determining nutritional requirements for virus multiplication. Jour. Exp. Med.87: 275–282. 1948.
Darlington, C. D. Heredity, development, and infection. Nature154: 164–169. 1944.
Delbrück, M. Adsorption of bacteriophages under various physiological conditions of the host. Jour. Gen. Physiol.23: 631–642. 1940.
—. Bacterial viruses (bacteriophages). Advances in Enzymology2: 1–32. 1942.
—. Growth of bacteriophages. Ann. Rep. Biol. Lab., Long Island Biol. Ass’n.55: 21–22. 1944.
—. The burst size distribution in the growth of bacterial viruses (bacteriophages). Jour. Bact.50: 131–135. 1945.
—. Effect of specific antisera on the growth of bacterial viruses (bacteriophages). Jour. Bact.50: 137–150. 1945.
—. Interference between bacterial viruses. III. The mutual exclusion effect and the depressor effect. Jour. Bact.50: 151–170. 1945.
—. Bacterial viruses or bacteriophages. Biol. Rev.21: 30–40. 1946.
—. Experiments with bacterial viruses (bacteriophages). The Harvey Lecture Series41: 161–187. 1946.
— andBailey, W. T., Jr. Induced mutations in bacterial viruses. Cold Spring Harbor Symp. Quant. Biol.11: 33–37. 1946.
— andLuria, S. E. Interference between bacterial viruses. I. Interference between two bacterial viruses acting upon the same host, and the mechanism of the virus growth. Arch. Biochem.1: 111–141. 1942.
Demerec, M. andFano, U. Bacteriophage-resistant mutants inEscherichia coli. Genetics30: 119–136. 1945.
Doermann, A. H. [Discussion of paper by A. D. Hershey]. Cold Spring Harbor Symp. Quant. Biol.11: 76–77. 1946.
-. [Personal communication].
- andAnderson, T. F. [Unpublished results].
Ellis, E. L. andDelbrück, M. The growth of bacteriophage. Jour. Gen. Physiol.22: 365–384. 1939.
Fitzgerald, R. F. andLee, M. E. Studies on bacterial viruses. II. Observations on the mode of action of acridines in inhibiting lysis of virus-infected bacteria. Jour. Immunol.52: 127–135. 1946.
Fowler, C. B. andCohen, S. S. Chemical studies on host-virus interaction. IV. A method of determining nutritional requirements for bacterial virus multiplication. Jour. Exp. Med.87: 259–274. 1948.
Freeman, M. The phage inactivating agent in extracts ofStaphylococcus aureus. Australian Jour. Exp. Biol. & Med. Sci.15: 221–225. 1937.
Gough, G. A. C. andBurnet, F. M. The chemical nature of the phageinactivating agent in bacterial extracts. Jour. Path. & Bact.38: 301–311. 1934.
D’Herelle, F. Sur un microbe invisible antagoniste des bacilles dysentériques. Comp. Rend. Acad. Sci., Paris165: 373–375. 1917.
-. The bacteriophage and its behavior. 1926.
Hershey, A. D. Mutation of bacteriophage with respect to type of plaque. Genetics31: 620–640. 1946.
—. Spontaneous mutations in bacterial viruses. Cold Spring Harbor Symp. Quant. Biol.11: 67–76. 1946.
- andRotman, R. Linkage among genes controlling inhibition of lysis in a bacterial virus.
Howe, H. A. andBodian, D. Neural mechanisms in poliomyelitis. 1942.
Kalmanson, G. M. andBronfenbrenner, J. Restoration of activity of neutralized biological agents by removal of the antibody with papain. Jour. Immunol.47: 387–407. 1943.
Knight, C. A. Precipitin reactions of highly purified influenza viruses and related materials. Jour. Exp. Med.83: 281–294. 1946.
—. Nucleoproteins and virus activity. Cold Spring Harbor Symp. Quant. Biol.12: 115–121. 1947.
Latarjet, R. Intracellular growth of bacteriophage studied by Roentgen irradiation. Jour. Gen. Physiol.31: 529–546. 1948.
— andWahl, R. Precisions sur l’inactivation des bacteriophages par les rayon ultraviolets. Ann. Inst. Pasteur71: 336–339. 1945.
Luria, S. E. A growth-delaying effect of ultraviolet radiation on bacterial viruses. Proc. Nat. Acad. Sci.30: 393–397. 1944.
—. Mutations of bacterial viruses affecting their host range. Genetics30: 84–99. 1945.
—. Genetics of bacterium-bacterial virus relationship. Ann. Missouri Bot. Garden32: 235–242. 1945.
—. Spontaneous bacterial mutations to resistance to anti-bacterial agents. Cold Spring Harbor Symp. Quant. Biol.11: 130–137. 1946.
—. Recent advances in bacterial genetics. Bact. Rev.11: 1–40. 1947.
-. Reactivation of ultraviolet inactivated bacteriophage particles inside double-infected host cells. Soc. Am. Bact., Abs. Proc., 47th Gen. Meet., May 13–16. 1947.
— andAnderson, T. F. The identification and characterization of bacteriophages with the electron microscope. Proc. Nat. Acad. Sci.28: 127–130. 1942.
— andDelbrück, M. Interference between inactivated bacterial virus and active virus of the same strain and of a different strain. Arch. Biochem.1: 207–218. 1942.
——. Mutation of bacteria from virus sensitivity to virus resistance. Genetics28: 491–511. 1943.
—et al. Electron microscope studies of bacterial viruses. Jour. Bact.46: 57–77. 1943.
— andLatarjet, R. Ultraviolet irradiation of bacteriophage during intracellular growth. Jour. Bact.53: 149–163. 1947.
Monod, J. andWollman, E. L’inhibition de la croissance et de l’adaptation enzymatique chez les bactéries infectées par le bactériophage. Ann. Inst. Pasteur73: 937–957. 1947.
Muller, H. J. Resumé and perspectives of the symposium on genes and chromosomes. Cold Spring Harbor Symp. Quant. Biol.9: 290–308. 1941.
—. The gene. Proc. Royal Soc. London (B)134: 1–37. 1947.
Pauling, L. andPressman, D. The serological properties of simple substances. IX. Hapten inhibition of precipitation of antisera homologous to theo-, m-, orp-Azophenylarsonic acid groups. Jour. Am. Chem. Soc.67: 1003–1012. 1945.
Pirie, A. The effect of lysozyme on the union between a phage and the susceptibleBacillus megatherium. Brit. Jour. Exp. Path.21: 125–132. 1940.
Poison, S. D. Recherches sur la probabilitié des jugements en matière criminelle et en matière civile, precedées des regles génerales du calcul des probabilités. 1937.
Putnam, F. W. andKozloff, L. M. On the origin of virus phosphorus. Science108: 386–387. 1948.
Rothen, A. Immunological reactions between films of antigen and antibody molecules. Jour. Biol. Chem.168: 75–97. 1947.
Rouyer, M. andLaterjet, R. Augmentation du nombre de bacteriophages en presence des bactéries sterilisées par irradiation. Ann. Inst. Pasteur72: 89–94. 1946.
Schlesinger, M. Über die Bindung des Bakteriophagen an homologe Bakterien. I. Die Unterscheidung von Grupper verschiedener Bindungsaffinität innerhalb der Bakteriophagen desselben Lysate. Die Frage der Reversibilitat oder Irreversibilitat der Bindung. Zeits. Hygiene114: 130–148. 1932.
—. Über die Bindung des Bakteriophagen an homologe Bakterien. II. Quantitative Untersuchungen über die Bindungsgeschwindigkeit und die Sättingung. Berechnung der Teilchengrosse des Bakteriophagen aus deren Ergebnissen. Zeits. Hygiene114: 149–160. 1932.
v. Smoluchowski, M. Versuch einer mathematischen Theorie der Koagulationskinetik kolloider Lösungen. Zeits. Physik. Chem.92: 129–169. 1917.
Stanley, W. M. andAnderson, T. F. A study of purified viruses with the electron microscope. Jour. Biol. Chem.139: 325–345. 1941.
——. Electron micrographs of protein molecules. Jour. Biol. Chem.146: 25–33. 1942.
Stone, J. D. Enzyme modification of the reaction between influenza virus and susceptible tissue cells. Nature159: 780–781. 1947.
Twort, F. W. An investigation of the nature of ultra-microscopic viruses. Lancet2: 1241–1243. 1915.
Williams, R. C. andWyckoff, R. W. G. Electron shadow micrography of virus particles. Proc. Soc. Exp. Biol. & Med.58: 265–270. 1945.
Witkin, E. M. Inherited differences in sensitivity to radiation inEscherichia coli. Proc. Nat. Acad. Sci.32: 59–68. 1946.
Wyckoff, R. W. G. Some biophysical problems of viruses. Science101: 129–136. 1945.
Author information
Authors and Affiliations
Additional information
This work was supported by Contract N6 ori 168 TO II between the Office of Naval Research and the Trustees of the University of Pennsylvania.
Rights and permissions
About this article
Cite this article
Anderson, T.F. The reactions of bacterial viruses with their host cells. Bot. Rev 15, 464–505 (1949). https://doi.org/10.1007/BF02861677
Issue Date:
DOI: https://doi.org/10.1007/BF02861677