This is a preview of subscription content, log in via an institution to check access.
References
Abraham, E. P. andChain, E. An enzyme from bacteria able to destroy penicillin. Nature146: 837. 1940.
——. Purification and some physical and chemical properties of penicillin; with a note on the spectrographic examination of penicillin preparations by E. R. Holiday. Brit. Jour. Exp. Path.23: 103–115. 1942.
—et al. Further observations on penicillin. Lancet2: 177–189. 1941.
Alture-Werber, E. et al. The effect of incompletely inhibitory concentrations of penicillin onEscherichia coli. Jour. Bact.50: 291–295. 1945.
Anslow, W. K. andRaistrick, H. Studies in the biochemistry of microorganisms. LVII. Biochem. Jour.32: 687–696. 1938.
Atkinson, N. The antibacterial substances produced by some common penicillia. Austral. Jour. Exp. Biol. & Med. Sci.21: 15–16. 1943.
Bailey, J. H. andCavallits, C. J. Production of citrinin. Jour. Bact.45: 30–31. 1943.
Baker, J. E. Nuclear behavior in relation to culture methods forPenicillium notatum. Science99: 436. 1944.
Bergel, F. et al. An antibacterial substance fromAspergillus clavatus andPenicillium claviforme and its probable identity with patulin. Nature152: 750. 1943.
Berger, F. M. Extraction and purification of penicillin. Nature154: 459. 1944.
Bondi, A., Jr. andDietz, C. C. Production of penicillinase by bacteria. Proc. Soc. Exp. Biol. & Med.56: 132–134. 1944.
——. Relationship of penicillinase to the action of penicillin. Proc. Soc. Exp. Biol. & Med.56: 135–137. 1944.
Bornstein, S. Action of penicillin on enterococci and other streptococci. Jour. Bact.39: 383–387. 1940.
Brown, G. H. Drying penicillin by radio heat. Science (Suppl.)100: 10. 1944.
Brown, J. G. andBoyle, A. M. Application of penicillin to crown gall. Phytopath.35: 521–524. 1945.
Bush, M. T. andGoth, A. Flavicin, an antibacterial substance produced by anAspergillus flavus. Jour. Pharmacol. & Exp. Ther.78: 164–169. 1943.
Catch, J. R. et al. Purification and chemistry penicillin. Nature150: 633–634. 1942.
Cavillito, C. J. andBailey, J. H. Inactivation of penicillin with cysteine. Science100: 390. 1944.
Chain, E. Discussion. Biochem. Jour.36: 4–5. 1942.
—et al. Penicillin as a chemo-therapeutic agent. Lancet2: 226–228. 1940.
—et al. An antibacterial substance produced byPenicillium claviforme. Brit. Jour. Exp. Path.23: 202–205. 1942.
—et al. Helvolic acid, an antibiotic produced byAspergillus fumigatus. Mut. helvola Yuill. Brit. Jour. Exp. Path.24: 108–119. 1943.
—et al. Identity of patulin and claviformin. Lancet1: 112–114. 1944.
Chalunor, S. W. Production of penicillin. Nature150: 688. 1942.
Clifton, E. E. Large scale production of penicillin. Science98: 69–70. 1943.
Clutterbuck, P. W. et al. Studies in the biochemistry of microorganisms, XXVI. The formation from glucose by members of thePenicillium chrysogenum series of a pigment, an alkali-soluble protein and penicillin-the antibacterial substance of Fleming. Biochem. Jour.26: 1907–1918. 1932.
Coghill, R. D. Penicillin-science’s Cinderella. Chem. & Eng. News22: 588–593. 1944.
Committee on Medical Research, OSRD, Washington, and Medical Research Council, London. Science102: 627. 1945.
Cook, A. H. andLacey, M. S. An antibiotic fromAspergillus parasiticus. Nature153: 460. 1944.
Cook, R. P. andTulloch, W. J. Production of penicillin on media made from vegetable extracts, particularly extracts of pea. Jour. Path. & Bact.56: 555–616. 1944.
Coulthard, C. E. et al. Notatin: an antibacterial glucose-aerodehydrogenose fromPenicillium notatum. Nature150: 634–635. 1942.
Coyne, F. P. et al. Studies in biochemistry of Microorganisms: XV. The molecular structure of citrinin. Trans. Royal Soc., London220: 297–300. 1931.
Cruz-Coke, E. et al. The use of ironic exchange resins for the purification of penicillin and hypertension. Science101: 340. 1945.
Dawson, M. H. andHobby, G. L. The clinical use of penicillin; observations in one hundred cases. Jour. Am. Med. Assoc.124: 611–622. 1944.
—et al. Penicillin as a chemotherapeutic agent. Am. Int. Med.19: 707–717. 1943.
Dimond, A. E. andPeltier, G. L. Controlling the pH of cultures ofPenicillium notatum through its carbon and nitrogen nutrition. Am. Jour. Bot.32: 46–50. 1945.
Elder, A. L. Penicillin. Sci. Mo.58: 405–409. 1944.
Fishback, H. et al. Determination of penicillin K by partition chromatography. Science104: 84–85. 1946.
Fisher, A. M. Antibacterial properties of crude penicillin. Bull. Johns Hopkins Hosp.73: 343–378. 1943.
Fleming, A. On the antibacterial action of cultures of a Penicillium, with special reference to their use in the isolation ofB. influensae. Brit. Jour. Exp. Path.10: 226–236. 1929.
—. The discovery of penicillin. Brit. Med. Bull.2: 4–5. 1944.
—. Discussion on penicillin. Proc. Royal Soc. Med.37: 101–104. 1944.
—. Penicillin for selective culture and for demonstrating bacterial inhibitions. Brit. Med. Bull.2: 7–8. 1944.
—. On specific antibacterial properties of penicillin and potassium tellurite; incorporating method of demonstrating some bacterial antagonisms. Jour. Path. & Bact.35: 831–842. 1932.
Florey, H. W. Penicillin: its development for medical uses. Nature153: 40–42. 1944.
— andJennings, M. A. Some biological properties of highly purified penicillin. Brit. Jour. Exp. Path.23: 120–123. 1942.
Foster, J. W. Quantitative estimation of penicillin. Jour. Biol. Chem.144: 285–286. 1942.
—. Acid formation from penicillin during enzymatic inactivation. Science101: 205. 1945.
— andKarow, E. O. Microbiological aspects of penicillin. VIII. Penicillin from different fungi. Jour. Bact.49: 19–29. 1945.
— andWilker, B. L. Microbiological aspects of penicillin. II. Turbidimetric studies on penicillin inhibition. Jour. Bact.46: 377–389. 1943.
— andWoodruff, H. B. Microbiological aspects of penicillin. I. Methods of assay. Jour. Bact.46: 377–389. 1943a.
——. Improvements in the cup assay for penicillin. Jour. Biol. Chem.148: 723. 1943b.
——. Microbiological aspects of penicillin. IV. Procedure for the cup assay for penicillin. Jour. Bact.47: 43–58. 1944.
—et al. Microbiological aspects of penicillin. III. Production of penicillin in surface cultures ofPenicillium notatum. Jour. Bact.46: 421–433. 1943.
—et al. Microbiological aspects of penicillin IX. Cottonseed meal as a substitute for corn steep liquor in penicillin production. Jour. Bact.51: 597. 1946.
Frieden, E. H. The diffusion constant of penicillin. Science101: 21. 1945.
Gardner, A. D. Morphological effects of penicillin on bacteria. Nature146: 837–838. 1940.
Geiger, W. B. et al. Chaetomin, a new antibiotic substance produced byChaetomium cochliodes. II. Isolation and concentration. Jour. Bact.48: 531–536. 1944.
Gyorgy, P. andElmes, P. C. Experiments on the toxicity of the calcium salt of penicillin. Proc. Soc. Exp. Biol. & Med.55: 76–77. 1944.
Hamre, D. M. et al. The toxicity of penicillin as prepared for clinical use. Am. Jour. Med. Sci.206: 642–4352. 1943.
Hansen, H. N. The dual phenomenon in imperfect fungi. Mycologia30: 442. 1938.
— andSmith, R. E. Single spore methods of isolation. Phytopath.22: 953. 1932.
— andSnyder, W. C. Relation of dual phenomenon inPenicillium notatum to penicillin production. Science99: 264–265. 1944. 1943–44.
Hanson, H. J. et al. Variation inPenicillium notatum induced by the bombardment of spores with neutrons. Jour. Bact.51: 9–18. 1946.
Harper, G. J. Inhibition of penicillin in routine culture media. Lancet2: 569–571. 1943.
Heilman, D. H. A method for standardizing penicillin. Am. J. Med. Sci.207: 477–483. 1944.
Herrell, W. E. The clinical use of penicillin; an anti-bacterial agent of biologic origin. Jour. Am. Med. Assoc.124: 622–627. 1944.
-. Penicillin and other antibiotic agents. 1945.
— andNichols, D. R. The calcium salt of penicillin. Proc. Staff Meet. Mayo Clinic18: 313–319. 1944.
Hetherington, A. C. andRaistrick, H. Studies in the biochemistry of microorganisms. Part XIV. On the production and chemical constitution of a new yellow colouring matter, citrinin, produced from glucose byPenicillium citrinum, Thorn. Trans. Royal Soc., London, B,220: 269–295. 1931.
Hickey, R. J. Sterility test for penicillin employing cysteine for inactivation. Science101: 232–234. 1945.
Hnx, C. The mold penicillium. Science94: 9–10. 1941.
Hirsch, J. Penicillin-Studies in vitro I-III. Compt. Rend. Ann. et Arch. Soc. Turque Sci. Phys. et Nat.12: 1–88 (Separatum). 1943-44.
Hobby, G. L. andDawson, M. H. Effect of rate of growth of bacteria on action of penicillin. Proc. Soc. Exp. Biol. & Med.56: 181–184. 1944.
—et al. Observations on the mechanism of action of penicillin. Proc. Soc. Exp. Biol. & Med.50: 281–285. 1942.
—et al. Activity of penicillin invitro. Proc. Soc. Exp. Biol. & Med.50: 277–280. 1942.
Holiday, E. R. Spectrographic examination of penicillin preparations. Brit. Jour. Exp. Path.23: 115–119. 1942.
Hollaender, A. et al. The production and characterization of ultraviolet-induced mutations inAspergillus terreus. I. Production of the mutations. Am. Jour. Bot.32: 160–165. 1945.
Holmes, L. F. andLockwood, J. S. Studies on the bioassay of penicillin. Am. Jour. Med. Sci.207: 267–268. 1944.
Holtman, D. F. Increasing penicillin yields with corn oil. Jour. Bact.49: 313–314. 1945.
Hooper, I. R. et al. The identity of clavicin with patulin. Science99: 16. 1944.
Jahiel, R. et al. Action of radioactive substances on the speed of growth ofPenicillium notatum and the production of a potent penicillin. Science100: 298. 1944.
Jennison, M. W. andIrvine, J. W. The effect of beta radiation on the production of penicillin. Jour. Bact.51: 598. 1946.
Johnson, J. R. et al. Gliotoxin, the antibiotic principle ofGliocladium fimbriatum. I. Production, physical and biological properties. Jour. Am. Chem. Soc.65: 2005–2009. 1943.
Karow, E. O. andFoster, J. W. An antibiotic substance from species ofGymnoascus andPenicillium. Science99: 265–266.
—et al. Penicillic acid fromAspergillus ochraceus andPenicillium thomii andPenicillium suavolens. Arch. Biochem.5: 279–282. 1944.
Katzman, P. A. et al. Clavicin, an antibiotic substance fromAspergillus clavatus. Jour. Biol. Chem.154: 475–486. 1944.
Kirby, W. M. M. Extraction of a highly potent penicillin inactivator from penicillin resistant staphylococci. Science99: 452–453. 1944.
Knight, S. G. andFrazier, W. C. The control of contaminants in penicillin fermentations by antiseptic chemicals. Jour. Bact.50: 505–516. 1945.
Kocholaty, W. Cultural characteristics ofPenicillium notatum in relation to production of anti-bacterial substances. Indication of dual nature of anti-bacterial substance. Jour. Bact.44: 469–477. 1942.
—. Purification and properties of penatin, the second antibacterial substance produced byPenicillium notatum, Westling. Arch. Biochem.2: 73–86. 1943.
—. Purification and properties of second anti-bacterial substance produced byPenicillium notatum. Science97: 186–187. 1943.
Koffler, H. et al. Chemical changes in submerged penicillin fermentations. Jour. Bact.50: 517–548. 1945.
Lawrence, C. A. Sterility test for penicillin. Science98: 413–414. 1943.
—. Action of clarase upon penicillin. Science99: 15–16. 1944.
Lee, S. W. et al. Improvements in the turbidimetric assay for penicillin. Jour. Biol. Chetn.152: 485–486. 1944.
Liebmann, A. J. et al. A standard penicillinase preparation. Science100: 527–528. 1944.
Liggett, R. W. The use of corn steeping liquor in microbiological research. Jour. Bact.51: 597. 1946.
Lilly Research Laboratories. Antibiotics. Res. Today2: 19–36. 1945.
Lindegren, C. C. andAndrews, H. N. Cytoplamic hybrids inPenicillium notatum. Bull. Torrey Bot. Club72: 361–366. 1945.
Lipman, M. O. et al. Changes in the bacterial flora of the throat and intestinal tract during prolonged oral administration of penicillin. Jour. Bact.51: 594. 1946.
Lockhead, A. G. andTimonin, M. Effect of glucose in penicillin potency tests. Canad. Jour. Pub. Health34: 236–240. 1943.
McDermott, W. et al. Oral penicillin. Science101: 228–229. 1945.
McKee, C. H. andMacPhillamy, H. B. An antibiotic substance produced by submerged cultivation ofAspergillus flavus. Proc. Soc. Exp. Biol. & Med.53: 247–248. 1943.
— andRake, G. Biological experiments with penicillin. Jour. Bact.43: 645. 1942.
—et al. Studies onAspergillus flavus. II. Production and properties of a penicillin-like substance-flavacidin. Jour. Bact.47: 187–197. 1944.
McMahan, J. R. An improved short time turbidimetric assay for penicillin. Jour. Biol. Chem.153: 249–258. 1944.
Menzel, A. E. O. et al. The isolation of gliotoxin and fumigacin from culture filtrates ofAspergillus fumigatus. Jour. Biol. Chem.152: 419–429. 1944.
Meyer, K. et al. On penicillin. Science96: 20–21. 1942.
—et al. On esters of penicillin. Science97: 205–206. 1943.
Nightingale, G. T. The nitrogen nutrition of green plants. Bot. Rev.3: 85–174. 1937.
Oxford, A. E. Antibacterial substances from moulds. III. Some observations on the bacteriostatic powers of the mould products citrinin and penicillic acid. Chem. & Ind.61: 48. 1942.
—et al. Antibacterial substances from moulds. II. Penicillic acid, a metabolic product ofPenicillium puberulum Bainier andPenicillium cyclopium Westling. Chem. & Ind.61: 22. 1942.
Page, J. E. andRobinson, F. A. An examination of the relationship between the bactriostatic activity and the normal reduction potentials of substituted quinones. Brit. Jour. Exp. Path.24: 89–95. 1943.
Pearl, I. A. andAppling, J. W. Penicillin production. Science100: 51. 1944.
Philpot, F. J. A penicillin-like substance fromAspergillus giganteus Wehm. Nature152: 725. 1943.
Raistrick, H. et al. Patulin in the common cold. Collaborative research on a derivative ofPenicillium patulum Bainer. Lancet2: 625–635. 1943.
Rake, G. andJones, H. A rapid method for estimation of penicillin. Proc. Soc. Exp. Biol. & Med.54: 189–190. 1943.
Rammelkamp, C. H. andMaxon, T. Resistance ofStaphylococcus aureus to the action of penicillin. Proc. Soc. Exp. Biol. & Med.51: 386–389. 1942.
Raper, K. B. et al. The production and characterization of ultravioletinduced mutations inAspergillus terreus. II. Cultural and morphological characteristics of the mutations. Am. Tour. Bot.32: 165–176. 1945.
Reeves, M. D. andSchmidt, W. H. Penicillin. IV. A device for placing cylinders on assay plates. Jour. Bact.49: 395–400. 1945.
Reid, R. D. Some properties of a bacterial-inhibitory substance produced by mold. Jour. Bact.29: 215–221. 1935.
Roberts, E. C. et al. Penicillin B, an antibacterial substance fromPenicillium notatum. Jour. Biol. Chem.147: 47–58. 1943.
Robinson, H. J. Toxicity and efficacy of penicillin. Jour. Pharmacol. & Exp. Ther.77: 70–79. 1943.
-. Some toxicological, bacteriological and pharmacological properties of antimicrobial agents produced by soil microorganisms. Thesis, Rutgers Univ. 1943.
Robinson, J. N. Discussion on penicillin. Brit. Med. Jour.2: 655. 1943.
Schmidt, W. H. andMoyer, A. J. Penicillin. I. Methods of assay. Jour. Bact.47: 199–208. 1944.
Schwartzman, G. Enhanced production of penicillin in fluid medium containing cellophane. Science100: 390–392. 1944.
Scudder, S. A. A drop method of penicillin production. Science100: 178. 1944.
Sherwood, M. B. et al. A rapid quantitative method for the determination of penicillin. Science99: 247–248. 1944.
Smith, L. D. The bacteriostatic agent ofPenicillium chrysogenum. Jour. Franklin Inst.234: 396–402. 1942.
Srinivasa-Rao, S. Production of penicillin. Cur. Sci. (India)12: 209. 1943.
Stanley, A. R. Clarase inactivation of penicillin. Science99: 59. 1944.
Stansfield, J. M. et al. Laboratory and clinical trials of patulin. Lancet2: 370–372. 1944.
Steinberg, R. H. Variants in. fungi. Science100: 10. 1944.
Stone, R. W. et al. Chemical adjuvants affecting penicillin yields on synthetic media. Jour. Bact.51: 598. 1946.
Taylor, H. G. The growth ofPenicillium notatum on various media and the development of an antibacterial substance. Proc. Soc. Exp. Biol. & Med.52: 299–301. 1943.
Thom, C. Mycology presents penicillin. Mycologia37: 460–475. 1945.
Timonin, M. Another mold with antibacterial activity. Science96: 494. 1942.
Ungar, J. Penicillinase fromB. subtilis. Nature154: 236–237. 1944.
Van Bruggen, J. T. et al. Penicillin B: Preparation, purification, and mode of action. Jour. Biol. Chem.148: 365–378. 1943.
Veldee, M. V. et al. Recommendations of the international conference on penicillin. Science101: 42–43. 1945.
Waksman, S. A. Antagonistic relations of microorganisms. Bact. Rev.5: 231–291. 1941.
—. Purification and antibacterial activity of fumigacin and clavacin. Science99: 220–221. 1944.
— andBugie, E. Strain specificity and production of antibiotic substances. II.Aspergillus flavus-orysae group. Proc. Nat. Acad. Sci.29: 282–288. 1943.
—et al. Bacteriostatic and bactericidal properties of antibiotic substances, with special reference to plant-pathogenic bacteria. Bull. Torrey Bot. Club71: 107–121. 1944.
— andBugie, E. Chaetomin, a new antibiotic substance produced byChaetomium cochliodes. Jour. Bact.48: 527–530. 1944.
— andGeiger, W. B. The nature of antibiotic substances produced byAspergillus fumigatus. Jour. Bact.47: 391–397. 1944.
— andHornung, E. S. Distribution of antagonistic fungi in nature and their antibiotic action. Mycologia35: 47–65. 1943.
—et al. The production of two antibacterial substances, fumigacin and clavacin. Science96: 202–203. 1942.
—et al. Two antagonistic fungi:Aspergillus fumigatus andAspergillus clavatus, and their antibiotic substances. Jour. Bact.45: 233–248. 1943.
— andReilly, H. C. Strain specificity andPenicillium notatum -ckrysogenum group. Proc. Nat. Acad. Sci.30: 99–105. 1944.
Wallingford, V. H. et al. Inoculation of media for mold culture. Science99: 266. 1944.
Weindling, R. Studies on a lethal principle effective in the parasitic action ofTrichoderma lignorum on soil fungi. Phytopath.24: 1153–1179. 1934.
Weindling, R. andEmerson, O. The isolation of a toxic substance from the culture filtrate ofTrichoderma lignorum. Phytopath.27: 1175–1177. 1937.
Weinstein, L. andMcDonald, A. Penicillin assay. Science101: 46–47. 1945.
Weiss, L. J. Electron micrographs of bacteria medicated with penicillin. Ind. Acad. Sci., Proc.52: 27–29. 1942.
White, E. C. Antibacterial filtrates from cultures ofAspergillus flavipes. Proc. Soc. Exp. Biol. Med.54: 258–259. 1943.
White, E. C. andHill, J. H. Studies on antibacterial products formed by molds. I. Aspergillic acid, a product of a strain ofAspergillus flavus. Jour. Bact.45: 433–442. 1943.
Wiesner, B. P. Bactericidal effects ofAspergillus clavatus. Nature149: 356–357. 1942.
Woodruff, H. B. andFoster, J. W. Microbiological aspects of penicillin. VII. Bacterial penicillinase. Jour. Bact.49: 7–17. 1945.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Holtman, D.F. Antibiotic products of fungi. Bot. Rev 13, 59–91 (1947). https://doi.org/10.1007/BF02861543
Issue Date:
DOI: https://doi.org/10.1007/BF02861543