References
Adámek, R. et al. Antibioticá plisenHyphomyces antibioticus a její produckt mycelin. Biol. Listy [Prague]31: 65–69. 1980.
Aiso, K. et al. Flavomycin, an antibiotic produced byStreptomyces No. 320. Jour. Antibiotics [Japan]2: 87–92. 1949.
—. “Mycelin”, a new antifungal substance extracted from the mycelium of aStreptomyces. Jour. Antibiotics [Japan]4: 217–219. 1952.
Ambrose, A. M. Comparative studies on toxicity of a new streptomycin and streptomycin sulfate. Proc. Soc. Exp. Biol. & Med.76: 466. 1951.
Anchel, M. Acetylenic compounds from fungi. Jour. Am. Chem. Soc.74: 1588–1590. 1952.
Anderson, H. W. andGottlieb, D. Plant disease control with antibiotics. Econ. Bot.6: 294–308. 1952.
Arai, T. Studies of flavomycin. Taxonomic investigations on the strain, production of the antibiotic and application of cup method to the assay. Jour. Antibiotics [Japan]4: 215–221. 1951.
Ark, P. A. andOswald, J. W. Antibiotic potentialities of some strains ofStreptomyces scabies. Phytopath.41: 1034. 1951.
Arnstein, H. R. V. et al. The inhibition ofFusarium oxysporum var.cubense by musarin, an antibiotic produced by Meredith’s actinomycete. Jour. Gen. Microb.2: 111–122. 1948.
Asheshov, I. N. et al. Phagolessin A58: A new antibiotic active against bacterial viruses. Antibiotics & Chemotherapy2: 366–374. 1952.
Baram, P. andMeyer, E. Antifungal substances from a soil actinomycete. Paper presented at the Soc. Ill. Bact. Meeting, Peoria, Illinois. 1951.
Bartz, Q. R. Isolation and characterization of Chloromycetin. Jour. Biol. Chem.172: 445–450. 1948.
— et al. Dihydrostreptomycin. Jour. Am. Chem. Soc.68: 2163–2166. 1946.
— et al. Viomycin, a new tuberculostatic antibiotic. Am. Rev. Tuberc.63: 4–6. 1951.
Benedict, R. G. andLindenfelser, L. A. [Unpub.]
- et al. Cinnamycin, an antibiotic fromStreptomyces cinnamoneus, n. sp. Antibiotics & Chemotherapy. [In press].
- et al. Morphological and physiological studies onStreptomyces cinnamoneus. Antibiotics & Chemotherapy. [In press].
—et al. Studies onStreptomyces griseocarneus and the production of hydroxystreptomycin. Jour. Bact.62: 487–497. 1951.
— et al. A new streptomycin. Science112: 77–78. 1950.
— andLindenfelser, L. A. Production of soluble pigments by certain strainsof Streptomyces griseus. Antibiotics & Chemotherapy1: 512–517. 1951.
Bennett, R. E. [Personal communication].
Berger, J. et al. Borrelidin, a new antibiotic with anti-borrelia activity and penicillin enhancement properties. Arch. Biochem.22: 476–478. 1949.
— et al. The isolation of three new crystalline antibiotics fromStreptomyces. Jour. Am. Chem. Soc.73: 5295–5298. 1951.
Bick, I. R. et al. The isolation and properties of nocardianin. Antibiotics & Chemotherapy2: 255–258. 1952.
Biely, J. andMarch, B. E. The effect of aureomycin and vitamins on the growth rate of chicks. Science114: 330–331. 1951.
Bird, H. R. et al. Relation of an unidentified dietary factor to the utilization of vegetable proteins by chickens. Off. Rep. VIII World’s Poul. Cong. 1948.
Blight, J. C. The story of antibiotics in swine nutrition. Feed Age1: 12–15, 50. 1951.
Bohonos, N. et al. A new antibiotic produced by a strain ofStreptomyces lavendulae. Arch. Biochem.15: 215–225. 1947.
Bolhofer. W. A. et al. Thioaurin, a new antibiotic. 122nd Meeting, Am. Chem. Soc., Atlantic City, 1952, p. 12A. [Abs.].
Branion, H. D. andHill, D. C. The comparative effect of antibiotics on the growth of poults. Poultry Sci.30: 793–798. 1951.
Brazhnikova, M. G. The isolation, purification and properties of litmocidin. Jour. Bact.51: 655–657. 1946.
Breed, R. S. et al. The Bergey Manual of Determinative Bacteriology. Sixth Ed., pp. 892–981. 1948.
Brian, P. W. Antibiotics produced by fungi. Bot. Rev.17: 357–430. 1951.
Brockmann, H. andBauer, K. Rhodomycin, ein rotes Antibioticum aus Actinomyceten. Naturwiss.37: 492–413. 1950.
— andGrubhoffer, N. Actinomycin C. Naturwiss.36: 376–377. 1949.
—— Zur Kenntnis des Actinomycins C. Naturwiss.37: 494–496. 1950.
— et al. Über das Actinomycin C (Antibiotica aus Actinomyceten. V. Mitteil.) Chem. Ber.84(3): 260–284. 1951.
— andHenkel, W. Pikromycin, ein neues Antibiotikum aus Actinomyceten. Naturwiss.37: 138–139. 1950.
—. Pikromycin, ein bitter schmeckendes Antibioticum aus Actinomyceten (Antibiotika aus Actinomyceten. VI. Mitteil). Chem. Ber.84: 284–288. 1951.
— et al. Pikromycin, II. Mitteil (Antibiotika aus Actinomyceten. IX. Mitteil). Chem. Ber.85: 426–433. 1952.
— andPini, H. Actinorhodin, ein roter Farbstoff aus Actinomyceten. Naturwiss.34: 190. 1947.
— andSchmidt-Kastner, G. Resistomycin, ein neues Antibioticum aus Actinomyceten Naturwiss.38: 479–480. 1951.
— et al. Antibiotica aus Actinomyceten. VII. Rhodomycin, ein rotes Antibioticum. Chem. Ber.84: 700–710. 1951.
Broschard, R. W. et al. Aureomycin, a new antibiotic. Science109: 199–200. 1949.
Brownlee, G. Antibiotics (with particular reference to mode of action). Ann. Rev. Microbiol.5: 197–208. 1951.
Bryer, M. S. et al. Treatment of experimental infections with aureomycin. Ann. N. Y. Acad. Sci.51: 254–266. 1948.
Buck, M. et al. Theanti-Borrelia effect of borrelidin. Trans. N. Y. Acad. Sci. II.11: 207–210. 1949.
Bumpus, M. et al. The chemistry of antimycin A. 121st Nat. Am. Chem. Soc. Meet., p. 7C, Milwaukee. 1952. [Abs.].
Burkholder, P. R. Studies on antibiotic activity of actinomycetes. Jour. Bact.52: 503–504. 1946.
Carpenter, L. E. Effect of aureomycin on the growth of weaned pigs. Arch. Biochem.27: 469–471. 1950.
—. The effect of antibiotics and vitamin B12 on the growth of swine. Arch. Biochem. & Biophys.32: 187–191. 1951.
Carter, H. E. et al. Chemistry of streptothricin and related antibiotics. Abstr. of papers, 120th Meet. Am. Chem. Soc., New York, p. 3L. 1951.
— et al. Chloromycetin and streptothricin. Science107: 113. 1948.
— et al. Structure of the diaminohexanoic acid from streptothricin. Jour. Am. Chem. Soc.74: 3704. 1952.
Celmer, W. D. andSolomons, I. A. Mycomycin. Isolation, crystallization, and chemical characterization. 121st Meet. Am. Chem. Soc., Milwaukee, p. 17J. 1952. [Abs.]
——. Mycomycin. II. The structure of isomycomycin, an alkali-isomerization product of mycomycin. Jour. Am. Chem. Soc.74: 3838–3842. 1952.
——. Mycomycin. I. Isolation, crystallization, and chemical characterization. Jour. Am. Chem. Soc.74: 2245–2248. 1952.
——. The structure of the antibiotic mycomycin. Jour. Am. Chem. Soc.74: 1870–1871. 1952.
— et al. Characterization of the antibiotic thiolutin and its relationship with aureothricin. Jour. Am. Chem. Soc.74: 6304. 1952.
Cercos, A. P. Actinomycelina, nuevo antibiotico producido por unStreptomyces. Pub. Tecnica No. 16, Inst. Fitotecnia: 147–156. 1948.
— andRodriguez, H. T. Actinomycetes antibioticos de la Argentina. Rev. Argentina Agron.18: 65–73. 1951.
Charney, J. et al. Pleocidin, a new antibiotic related to streptothricin. Antibiotics & Chemotherapy2: 307–310. 1952.
-. et al. Rhodocidin; a new antibiotic. 122nd Meeting, Am. Chem. Soc., Atlantic City, p. 13A. 1952. [Abs.]
Clark, R. K., Jr. andSchenck, J. R. III. The synthesis of actithiazic acid, derivatives, and homologs. Arch. Biochem. & Biophysics. [In press].
Controulis, J. et al. Chloramphenicol (Chloromycetin). V. Synthesis. Jour. Am. Chem. Soc.71: 2463–2468. 1949.
Cram, D. J. [Personal communication].
Dalgleish, C. E. andTodd, A. R. Actinomycin. Nature164: 830. 1949.
- and -.Actinomycin B. Abst. Commun., First Int. Cong. of Biochem., Cambridge, England, pp. 246–247. August 19–25, 1949.
- et al. Actinomycin. Part I. Amino acid content. Jour. Chem. Soc. [London]: 2946–2952. 1950.
Darpoux, H. andFaivre-Amiot, H. Sur un actinomycète doué de propriétés bactériolitiques remarquables. Compt. Rend. [Paris]226: 1146–1148. 1948.
Davisson, J. W. et al. Rimocidin, a new antibiotic. Antibiotics & Chemotherapy1: 289. 1951.
— et al. Catenulin, a new antibiotic. Antibiotics & Chemotherapy2: 460–461. 1952.
Dornbush, A. C. andPelcak, E. J. The determination of aureomycin in serum and other body fluids. Ann. N. Y. Acad. Sci.51: 218–220. 1948.
Duggar, B. M. et al. Aureomycin, a new antibiotic. Ann. N. Y. Acad. Sci.51: 177–331. 1948.
-. Aureomycin and preparation of the same. U. S. Patent No. 2,482,055. September 13, 1949.
Dunitz, J. D. andLeonard, J. E. X-ray analysis of some antibiotic substances. Jour. Am. Chem. Soc.72: 4276–4277. 1950.
— andRobertson, J. H. Relationship between aureomycin and terramycin. Jour. Am. Chem. Soc.74: 1108. 1952.
Dunshee, B. R. et al. Isolation and properties of antimycin A. Jour. Am. Chem. Soc.71: 2436–2437. 1949.
Dutcher, J. D. andDonin, M. M. The identity of neomycin A, neamine and methanolysis product of neomycin B and C. Jour. Am. Chem. Soc.74: 3420–3422. 1952.
-. [Personal communication].
— et al. Neomycins B and C and some of their degradation products. Jour. Am. Chem. Soc.73: 1384–1385. 1951.
Editorial (no authors). Colonial research on antibiotics. Manufacturing Chemist22: 47. 1951.
Ehrlich, J. et al. Chloromycetin, a new antibiotic from a soil actinomycete. Science106: 417. 1947.
— et al.Streptomyces venesuelae n. sp., the source of chloromycetin. Jour. Bact.56: 467–477. 1948.
Emerson, R. L. et al. Studies on the production of antibiotics by actinomycetes and molds. Jour. Bact.52: 357–366. 1946.
Emmart, E. W. A new tuberculostatic antibiotic from a species ofNocardia. Am. Rev. Tuberc.56: 316–333. 1947.
— et al. The tuberculostatic actionof Nocardia extracts in white mice. Jour. Bact.57: 509–514. 1949.
Fainshmidt, O. I. andKoreniako, A. I. Preparation of concentrates of the antimicrobial substance produced byActinomyces violaceus. Biokhimiya9: 147–153. 1944.
Finlay, A. C. et al. Netropsin, a new antibiotic produced by aStreptomyces. Jour. Am. Chem. Soc.73: 341–343. 1951.
- andSobin, B. A. Netropsin and process for its production. U. S. Patent No. 2,586,762. February 19, 1952.
— et al. Terramycin, a new antibiotic. Science111: 85. 1950.
— et al. Viomycin, a new antibiotic active against mycobacteria. Am. Rev. Tuberc.63: 1–3. 1951.
Fisher, W. P. et al. An actinomycin from a species of the genusMicromonospora. Antibiotics & Chemotherapy1: 571–572. 1951.
Fisher, W. P. andCharney, J. A turbidimetric assay for pleocidin. Antibiotics & Chemotherapy2: 311–314. 1952.
Fried, J. andTitus, E. Streptomycin B, an antibiotically active constituent of streptomycin concentrates. Jour. Biol. Chem.168: 391–392. 1947.
——. Streptomycin. VIII. Isolation of mannosidostreptomycin (streptomycin B). Jour. Am. Chem. Soc.70: 3615–3618. 1948.
— andWintersteiner, O. Crystalline reineckates of streptothricin and streptomycin. Science101: 613–615. 1945.
Gardner, A. D. andChain, E. Proactinomycin, a bacteriostatic produced by a species ofProactinomyces. Brit. Jour. Exp. Path.23: 123–127. 1942.
Garson, W. andWaksman, S. A. Strain specificity and production of antibiotic substances. VIII. Production of a grisein-like antibiotic by a strain ofS. griseus. Proc. Nat. Acad. Sci.34: 232–239. 1948.
Goth, A. andRobinson, F. J. Pharmacological studies on Actidione. Jour. Clin. Invest.28: 1044. 1949.
Gause, G. F. A new antibiotic substance produced byProactinomyces cyaneus. Jour. Bact.51: 649–653. 1946.
Gottlieb, D. et al. Some properties of an antibiotic obtained from a species ofStreptomyces. Jour. Bact.55: 409–417. 1948.
— et al. Endomycin, a new antibiotic. Phytopath.41: 393–400. 1951.
- and Production and activity of Chloromycetin in soils. Bact. Proc: 16–17. 1951.
Goret, M. et al. Extraction du mycéliumd’Actinomyces griseus, d’un antibiotique différent de la streptomycine et de la griséine. Compte. Rend.229: 677–682. 1949.
Gregory, K. F. et al. Production and stability in soil of some antibiotics active against fungi. Bact. Proc.: 18. 1951.
Greiff, D. andPinkerton, H. Rickettsiostasis in fertile eggs from use of antibiotic residues in poultry feeds. Proc. Soc. Exp. Biol. & Med.78: 690–692. 1951.
Groupé, V. et al. Ehrlichin, a new antibiotic with specific antiviral properties. Bact. Proc., 51st Meet. S.A.B.: 29. 1951.
— et al. Antiviral properties of ehrlichin, an antibiotic produced byStreptomyces lavendulae. Jour. Immunol.67: 471–482. 1951.
Grunberg, E. et al. Enhancement of penicillin activity by borrelidin. Trans. N. Y. Acad. Sci. II.11: 210–214. 1949.
Grundy, W. E. et al. A note on a new antibiotic. Arch. Biochem.28: 150–152. 1950.
— et al. A study ofStreptomyces NA 232-M1 and hydroxystreptomycin. Antibiotics & Chemotherapy1: 309–317. 1951.
— et al. Actithiazic acid. I. Microbiological studies. Antibiotics & Chemotherapy2: 399–408. 1952.
Hamre, D. M. et al. Some characteristics of the neomycins. Antibiotics & Chemotherapy2: 135–141. 1952.
Harned, R. L. et al. Nigericin, a new crystalline antibiotic from an unidentifiedStreptomyces. Antibiotics & Chemotherapy1: 594–596. 1951.
Haskell, T. H. et al. The chemistry of viomycin. Jour. Am. Chem. Soc.74: 599–602. 1952.
Hata, T. et al. Isolation of a new antibiotic substance, “Luteomycin”, from a strain ofStreptomyces. Kitasato Arch. Exp. Med.32: 229–242. 1949.
— et al. Isolation of a new antibiotic substance, “luteomycin”. Jour. Antiobiotics [Japan]3: 313–325. 1950.
Hatsuta, Y. Studies on the antibiotic litmus-like pigment produced byS. coelicolor. II. On coelicolorin. Jour. Antibiotics [Japan]2: 276–277. 1949.
Hazen, E. L. andBrown, R. Fungicidin, an antibiotic produced by a soil actinomycete. Proc. Soc. Exp. Biol. & Med.76: 93–97. 1951.
Heatley, N. G. [Unpub., cited from Marston (146)].
Henry, A. W. et al. Control of covered smut of wheat by rapid seed treatment with an antibiotic. Science115: 90–91. 1952.
Heuser, L. J. et al. The crystalline trihydrochlorides of streptomycin and mannosidostreptomycin. Jour. Am. Chem. Soc.70: 2833–2834. 1948.
Hickey, R. J. andHidy, P. H. Crystalline fradicin. Science113: 261–262. 1951.
— et al. Ascosin, an antifungal antibiotic produced by a streptomycete. Antibiotics & Chemotherapy2: 472–483. 1952.
Hidy, P. H. andHickey, R. J. The isolation of crystalline fradicin from fermentation media. Arch. Biochem. & Biophys.34: 67–71. 1951.
Hirata, Y. andNakanishi, K. Substance fromActinomyces flavus. Jour. Antibiotics [Japan]2: 180–182. 1948.
——. Actinomycin J3, a byproduct from a strain ofActinomyces. Agr. Chem. Soc. Japan, Bull.22: 121–127. 1949.
Hobby, G. L. Current status of the new antituberculous agents. Minutes of the Eighth Streptomycin Conference, Vet. Adm., Army, Navy, 295–298. 1949.
Hochstein, F. A. et al. Terramycin. V. Structure of terrinolide. An acid degradation product of terramycin. Jour. Am. Chem. Soc.74: 3706–3707. 1952.
— et al. Terramycin. VI. The structure of αand β-apoterramycin, acid rearrangement products of terramycin. Jour. Am. Chem. Soc.74: 3707–3708. 1952.
— et al. Terramycin. VII. The structure of terramycin. Jour. Am. Chem. Soc.74: 3708–3709. 1952.
Hosoya, S. et al. A new antibiotic, reticulin, produced byStreptomyces reticuli. Japan Jour. Exp. Med.20: 327–335. 1949.
— et al. Xanthomycin-like substance produced by a species ofStreptomyces, H-1159 strain. Jour. Antibiotics [Japan]4: 467–469. 1951.
— et al. On the antibiotic substances produced byStreptomyces H-702. Jour. Antibiotics [Japan]4: 317–320. 1951.
— et al. Studies on the several antibiotic substances produced by aStreptomyces (H-277 strain). Jour. Antibiotics [Japan]4: 314–316. 1951.
— et al. Rotaventin, an antifungal agent isolated from mycelium ofStreptomyces reticuli. Jap. Jour. Exp. Med.21: 279–283. 1951.
— et al. An antifungal agent isolated from mycelium ofStreptomyces griseocarneus. Jap. Jour. Exp. Med.22: 23–25. 1952.
— et al. Studies on the antibiotic substance produced byStreptomyces H-1205. Jour. Antibiotics [Japan]5: 245–247. 1952.
- et al. Comparison of reticulin and hydroxystreptomycin. [In press].
- et al. Trichomycin, a new antibiotic produced byStreptomyces hachijoensis, with trichomonadicidal and antifungal activity. [In press].
Hutchings, B. L. et al. Degradation of aureomycin. V. Aureomycinic acid. Jour. Am. Chem. Soc.74: 4980. 1952.
Hutchinson, D. et al. Production, isolation, and antimicrobial, notably antituberculous properties of streptothricin VI. Arch. Biochem.22: 16–30. 1949.
Hwang, K. Actithiazic acid. IV. Pharmacological studies. Antibiotics & Chemotherapy2: 453–459. 1952.
Ikeda, Y. et al. Studies on the antifungal antibiotics from actinomycetes. Jour. Antibiotics [Japan]3: (11): 726–729. 1950.
Isenberg, H. D. et al. Oxidation of ammonia byStreptomyces nitrificans, a new soil actinomycete. Bact. Proc.: 152. 1952. [Abs.]
Ishida, K. Studies on the antibiotic substances fromActinomyces. IX. A new basic antibiotic produced by a strain ofStreptomyces roseochromogenus, No. 36. Jour. Antibiotics [Japan]3: (13): 845–853. 1950.
Jampolsky, L. M. andGoldberg, M. W. Isolation of crystalline borrelidin and of borrelidin-like concentrates from crude penicillin. Jour. Clin. Invest.28: 1046. 1949.
Jenkins, D. E. The present status of mycomycin, a progress note. Minutes of the Tenth Streptomycin Conference, Vet. Adm., Army, Navy, 286–287. 1951.
Jezeski, J. J. Dairy plants face antibiotic problem. Minn. Farm & Home Sci.9: 16. 1952.
Johnson, E. A. andBurdon, K. L. Mycomycin, a new antibiotic produced by a mold-like actinomycete active against the bacilli of human tuberculosis. Jour. Bact.54: 281. 1947.
Johnstone, D. B., andWaksman, S. A. The production of streptomycin byStreptomyces bikiniensis. Jour. Bact.55: 317–326. 1948.
Junowicz-Kocholaty, R. andKocholaty, W. Lavendulin and actinorubin. II. (lavendulin and actinorubin) Two antibiotics produced by two strains of actinomycetes. Purification and isolation. Jour. Biol. Chem.168: 757–764. 1947.
— et al. Sulfactin, a new antibiotic produced by a soilActinomyces. Jour. Biol. Chem.168: 765–769. 1947.
Karel, L. andRoach, E. S. A dictionary of antibiosis. Columbia University Press, New York. 1951.
Kelner, A. andMorton, H. E. An antibiotic produced by an actinomycete specifically inhibiting species ofMycobacterium. Proc. Soc. Exp. Biol. & Med.63: 227–230. 1946.
——. Two antibiotics (lavendulin and actinorubin) produced byActinomyces. I. Isolation and characteristics of the organisms. Jour. Bact.53: 695–704. 1947.
— et al. Two antibiotics produced byActinomyces isolated from soil. Jour. Bact.51: 591. 1946.
Kido, G. S. and Spyhalski, E. An antibiotic with insecticidal and miticidal properties. Science112: 172–173. 1950.
Kirby, W. M. M. Antibiotics. Ann. Rev. Microbiol.6: 387–410. 1952.
Kobayashi, S. et al. Studies on the antibiotic substances fromActinomyces. 4th Report. Isolation of streptomycin fromStr. olivaceus. Tohoku Jour. Exp. Med.55: 273–282. 1952.
Kochi, M. et al. Antibiotic producing properties ofStreptomyces 3560, a member of the S. flavus group. Proc. Nat. Acad. Sci.38: 383–391. 1952.
Kocholaty, W. et al. Actinomycin A produced by a soil actinomyces different fromA. antibioticus. Arch. Biochem.17: 191–193. 1948.
Komatsu, N. [Personal communication].
Kornfeld, E. C. et al. The structure and chemistry of Acti-dione, an antibiotic fromStreptomyces griseus. Jour. Am. Chem. Soc.71: 150–159. 1949.
Krassilnikov, N. A. andKoreniako, A. I. Bactericidal substance of actinomycetes. Mikrobiologia, Moskva8: 673–685. 1939.
——. Mycetin and its bactericidal properties. Mikrobiologiya (U.S.S.R.)14: 80–84. 1945.
Kriss, A. E. The lysozyme of actinomycetes. Mikrobiologia, Moskva9: 32–38. 1940.
Kuehl, F. A., Jr. et al. Isolation and some chemical properties of grisein. Jour. Am. Chem. Soc.73: 1770–1773. 1951.
Kuhn, R. andDury, K. Alkalischer Abbau von Aureomycin und Terramycin. Chem. Ber.84: 563–565. 1951.
Kupferberg, A. B. et al. The production of streptocin by different strains ofStreptomyces griseus. Jour. Bact.59: 523–526. 1950.
Kurosawa, H. Mycological characters of antagonisticStreptomyces. I. On the correlation between Pridham’s classification method and antibiotic characters. Jour. Antibiotics [Japan]4: 183–193. 1951.
Kuroya, M. et al. Studies on the antibiotic substances fromActinomyces. III. Jour. Antibiotics2 (B): 37–50. 1949.
— et al. Studies on antibiotic substances fromActinomyces. VI. On the properties of several streptothricin-like substances. Jour. Antibiotics [Japan]3: 223–228. 1950.
— et al. Studies on the antibiotic substances fromActinomyces. 1st Report. On the isolation and classification of antibiotic-producing Actinomycetaceae. Tohoku Jour. Exp. Med.54: 371–383. 1951.
Kushnick, T. et al. Variants ofEscherichia coli, Pseudomonas aeruginosa andBacillus subtilis requiring streptomycin. Science106: 587–588. 1947.
Landerkin, G. B. andLochhead, A. G. [Unpub., cited from reference 133].
— et al. A study of the antibiotic activity of actinomycetes from soils of Northern Canada. Canad. Jour. Res., C.28: 690–698. 1950.
Larson, L. M. et al. Production, isolation, and components of the antibiotic streptolin. 121st Meeting Am. Chem. Soc., Milwaukee, p. 8C. 1952. [Abs.]
Leach, B. E. et al. The isolation and characterization of neomycin. Jour. Am. Chem. Soc.73: 2797–2800. 1951.
— andTeeters, C. M. Neamine, an antibacterial degradation product of neomycin. Jour. Am. Chem. Soc.73: 2794–2797. 1951.
——. The identity of neamine and neomycin A. Jour. Am. Chem. Soc.74: 3187–3188. 1952.
Leben, C. andKeitt, G. W. The effect of an antibiotic substance on apple leaf infection byVenturia inaequalis. Phytopath.37: 14. 1947.
——. An antibiotic substance active against certain phytopathogens. Phytopath.38: 899–906. 1948.
— et al. An antibiotic that inhibits certain phytopathogens. Phytopath.41: 23–24. 1951.
— et al. Helixin, an antibiotic active against certain fungi and bacteria. Mycologia44: 159–169. 1952.
Lehr, H. andBerger, J. The isolation of a crystalline actinomycinlike antibiotic. Arch. Biochem,23: 503–505. 1949.
Leucke, R. W. et al. Effects of vitamin B12, animal protein factor, and streptomycin on the growth of young pigs. Arch. Biochem.26: 326–327. 1950.
— et al. The growth-promoting effect on pigs of a surface active agent. Mich. Quart. Bull.34: 331–332. 1952.
Lewis, J. C. [Personal communication.]
— andSnell, M. S. The amino acid composition of subtilin. Jour. Am. Chem. Soc.73: 4812–4816. 1951.
Lindenbein, W. Über einige chemisch interresante Aktinomycetenstämme und ihre Klassifizierung. Archiv Microbiologie17: 361–383. 1952.
Loughlin, E. H. et al. The treatment of enterobiasis with terramycin base. Antibiotics & Chemotherapy1: 588–593. 1951.
Lumb, M. Antibiotics. Rpts. Prog. Applied Chem.36: 493–513. 1951.
Luther, H. G. Synthetic milk for animal production. 17th Annual Conf., Nat. Farm Chemurgic Coun., St. Louis. 1952.
Machlowitz, R. A. et al. Cardicin, an antibiotic having antimicrobial and antiviral properties. 122nd Meeting Am. Chem. Soc., Atlantic City, p. 13A. 1952. [Abs.]
Maeda, K. Chemical studies on antibiotic substances. I. Purification of aureothricin and its molecular formula. Jap. Med. Jour.2: 85–88. 1949.
—. Chemical studies on antibiotic substances. II. On streptothricin BI and BII. Jour. Antibiotics [Japan]5: 343–347. 1952.
Marston, R. Q. The isolation of antibiotics produced byProactinomyces (Nocardia) gardneri. Brit. Jour. Exp. Path.30: 398–407. 1949.
— andFlorey, H. W. The antibacterial and pharmacological properties of the proactinomycins A, B, and C. Brit. Jour. Exp. Path.30: 407–418. 1949.
Matterson, L. D. andSingsen, E. P. A comparison of several antibiotics as growth stimulants in practical chick starting rations. Conn. Agr. Exp. Sta. [Storrs], Bull.275: 1–20. 1951.
Mayer, R. L. et al. Antibiotics fromActinomyces vinaceus. Microbiological studies. XII. Int. Cong. Pure & Appl. Chem.: 283–284. 1951. [Abs.].
McGinnis, J. et al. Response of chicks and turkey poults to vitamin B12 supplements produced by fermentation with different organisms. 116th Meet. Am. Chem. Soc.: 42A. 1949.
McGuire, J. M. et al. “Ilotycin”, a new antibiotic. Antibiotics & Chemotherapy2: 281–283. 1952.
McLamore, W. M. et al. The structure and synthesis of a new thiazolidone antibiotic. Jour. Am. Chem. Soc.74: 2946–2947. 1952.
McVay, L. V. et al. A preliminary report of the successful treatment of amebiasis with aureomycin. Science109: 590–591. 1949.
Meredith, C. H. The antagonism of soil organisms toFusarium oxysporum cubense. Phytopath.34: 426–429. 1944.
- andSemeniuk, G. The antagonism of some species of actinomycetes in relation to the soil-inhibiting plant pathogens. Iowa Agr. Exp. Sta., Rep. Agr. Res., Part I, 175. 1947.
Miller, C. P. andBonhoff, M. The development of streptomycinresistant variants ofMeningococcus. Science105: 620. 1947.
Mold, J. D. andBartz, Q. R. An antibiotic related to the xanthomycins. Jour. Am. Chem. Soc.72: 1847–1849. 1950.
Molitor, H. The pharmacology of streptothricin and streptomycin. Ann. N. Y. Acad. Sci.48: 101–118. 1946.
Morton, H. E. Sulfactin. Bacterial spectrum, toxicity, and therapeutic studies. Proc. Soc. Exp. Biol. & Med.66: 345–348. 1947.
—. Two antibiotics (lavendulin and actinorubin) produced by two strains ofActinomyces. III. Toxicity and therapeutic studies. Proc. Soc. Exp. Biol. & Med.64: 327–331. 1947.
Moore, P. R. et al. The use of sulfasuxidine, streptothricin, and streptomycin in nutritional studies with the chick. Jour. Biol. Chem.165: 437–441. 1946.
Nakhimovskaia, M. I. Antagonism between actinomycetes and soil bacteria. Mikrobiologia, Moskva.6: 131–157. 1937.
Norris, L. C. Newer nutritional developments of importance to feed manufacturers. Proc. VII Distiller’s Feed Conference, Cincinnati, pp. 72–86. 1952.
Ogata, K. Dextromycin, a new antibiotic byActinomyces. Jour. Antibiotics [Japan]3: 440–444. 1950.
Oki, N. andHata, T. Studies on the substance produced byActinomyces which inhibits the homologous strain. Jour. Antibiotics [Japan]5: 16–21. 1952.
Ott, W. H. et al. Activity of crystalline vitamin B12 for chick growth. Jour. Biol. Chem.174: 1047–1048. 1948.
Ouchi, N. Studies on the antibiotic substances fromActinomyces. 7th Report. On the isolation of special anti-phlei factor from anActinomyces in a crystalline form. Tohoku Jour. Exp. Med.55: 355–365. 1952.
Pasternack, R. et al. Alkaline degradation of terramycin. Abstr. of papers. 12th Int. Cong. Pure & Appl. Chem.: 281–282. 1951.
— et al. Degradation of terramycin. Jour. Am. Chem. Soc.71: 2400. 1951.
Peck, R. L. et al.Streptomyces antibiotics. XXIII. Isolation of neomytin A. Jour. Am. Chem. Soc.71: 2590–2591. 1949.
— et al. Dihydrostreptomycin. Jour. Am. Chem. Soc.68: 1390–1391. 1946.
— andLyons, J. E. Biochemistry of antibiotics. Ann. Rev. Biochem.20: 367–414. 1951.
— et al.Streptomyces antibiotics. VI. Isolation of streptothricin. Jour. Am. Chem. Soc.68: 772–776. 1946.
Pepinsky, R. andWatanabe, T. Isomorphism of terramycin and aureomycin hydrochloride. Science115: 541. 1952.
Peppler, H. J. et al. The effect of feeding crude polymyxin D on the intestinal bacteria of chickens. Poul. Sci.29: 520–526. 1950.
Perlman, D. andLanglykke, A. F. The occurrence of mannosidostreptomycinase. Jour. Am. Chem. Soc.70: 3968. 1948.
Peterson, D. H. et al. Evidence for the presence of streptothricin in streptolin culture filtrates. Jour. Am. Chem. Soc.69: 3145. 1947.
Peterson, W. H. [Personal communication].
Porter, J. N. et al. Achromycin: a new antibiotic having trypanocidal properties. Antibiotics & Chemotherapy2: 409–410. 1952.
Powell, H. M. et al. Antimicrobial spectrum of erythromycin. Antibiotics & Chemotherapy. [In press].
Pridham, T. G. andGottlieb, D. The utilization of carbon compounds by some Actinomycetales as an aid for species determination. Jour. Bact.56: 107–114. 1948.
Rake, G. et al. On some biological characteristics of streptomycin B. Proc. Soc. Exp. Biol. & Med.65: 107–112. 1947.
Rao, K. V. andPeterson, W. H. Further studies on the chemical nature of the xanthomycins. Abstracts of papers, 121st Meeting Am. Chem. Soc., Milwaukee, pp. 8C-9C. 1952.
Raper, K. B. A decade of antibiotics. Mycologia44: 1–61. 1952.
Raubitscheck, F. et al. Production of an antifungal agent of the fungicidin type byStreptomyces aureus. Antibiotics & Chemotherapy2: 179–183. 1952.
Rebstock, M. C. et al. Chloramphenicol (Chloromycetin). IV. Chemical studies. Jour. Am. Chem. Soc.71: 2458–2462. 1949.
Regna, P. P. andMurphy, F. X. The isolation of neomycin B. Jour. Am. Chem. Soc.72: 1045–1046. 1950.
— andSolomons, I. A. The chemical and physical properties of terramycin. Ann. N. Y. Acad. Sci.53: 229–237. 1950.
— et al. The stability of streptomycin. Jour. Biol. Chem.165: 631–638. 1946.
Reilly, H. C. The production and isolation of an antibiotic from a soil actinomycete. Abst. of papers. Bact. Proc.: 26. 1952.
A colloquium, “Studies on the growth effect of antibiotics in germfree animals”, Lobund Inst., Univ. Notre Dame, June 4, 1952:Luckey, T. D. Effect of feeding antibiotics upon the growth rate of germ-free birds.Reyniers, J. A. A critical analysis of the mode of action of antibiotics on producing growth stimulation in higher animals and a suggested experimental approach.Gordon, H. A. A morphological and biochemical approach.
Reynolds, D. M. et al. Grisein, a new antibiotic produced by a strain ofStreptomyces griseus. Proc. Soc. Exp. Biol. & Med.64: 50–54. 1947.
— andWaksman, S. A. Grisein, an antibiotic produced by certain strains ofStreptomyces griseus. Jour. Bact.55: 739–752. 1948.
Rickes, E. L. et al. Comparative data on vitamin B12 from liver and a new source,Streptomyces griseus. Science108: 634–635. 1948.
Rivett, R. W. andPeterson, W. H. Streptolin, a new antibiotic from a species ofStreptomyces. Jour. Am. Chem. Soc.69: 3006–3009. 1947.
Robinson, H. J. et al. Pharmacological studies on streptothricin. Jour. Pharmacol. & Exp. Therap.86: 22–36. 1946.
Rouatt, J. W. et al. Distribution of antagonistic properties among actinomycetes isolated from different soils. Antibiotics & Chemotherapy1: 185–192. 1951.
Routien, J. B. andFinlay, A. C. Problems in the search for microorganisms producing antibiotics. Bact. Rev.16: 51–67. 1952.
— andHofmann, A. Streptomyces californicus productor de viomicina. Arch. Med. Internacional y Antibioticos y Quimi.1: (8–9): 387–389. 1951.
Rucker, R. B. A streptomycete pathogenic to fish. Jour. Bact.58: 659–664. 1949.
Schatz, A. et al. Streptomycin, a substance exhibiting antibiotic activity against gram-positive and gram-negative bacteria. Proc. Soc. Exp. Biol. & Med.55: 66–69. 1944.
— andWaksman, S. A. Effect of streptomycin and other antibiotic substances uponMycobacterium tuberculosis and related organisms. Proc. Soc. Exp. Biol. & Med.57: 244–248. 1944.
Schneider, H. G. et al. Separation and determination of the antimycins. Arch. Biochem. & Biophysics37: 147–157. 1952.
Schenck, J. R. andDe Rose, A. F. Actithiazic acid. II. Isolation and characterization. Arch. Biochem. & Biophysics. [In press].
Schöne, R. An antibiotic which inhibitsCorynebacterium diphtheriae produced by the S form ofStreptomyces thermophilus. Antibiotics & Chemotherapy1: 176–180. 1951.
Schwartz, J. A. et al. Studies ofCoccidioides immitis with certain antifungal agents. Trans. 11th Conference on the Chemotherapy of Tuberculosis. Veterans Administration: Army: Navy, pp. 86–93. 1952.
Seneca, H. et al. Bactericidal, protozoicidal and fungicidal properties of thiolutin. Antibiotics & Chemotherapy2: 357–360. 1952.
Shockman, G. andWaksman, S. A. Rhodomycin. An antibiotic produced by a red-pigmented mutant ofStreptomyces griseus. Antibiotics & Chemotherapy1: 68–75. 1951.
Smissman, E. E. et al. Chemical studies of the antibiotic streptolin. Abstracts of papers. 121st Meeting Am. Chem. Soc., Milwaukee, p. 8C. 1952.
Smith, N. R. et al. Aerobic mesophilic sporeforming bacteria. U. S. Dept. Agr. Misc. Pub. 559, 112 pages. 1946.
Smith, R. M. et al. Chloromycetin, biological studies. Jour. Bact.55: 425–448. 1948.
Sobin, B. A. A newStreptomyces antibiotic. Jour. Am. Chem. Soc.74: 2947–2948. 1952.
Stephens, C. R. et al. Terramycin. VIII. Structure of aureomycin and terramycin. Jour. Am. Chem. Soc.74: 4976–4977. 1952.
Stodola, F. H. et al. Hydroxystreptomycin, a new antibiotic fromStreptomyces griseocarneus. Jour. Am. Chem. Soc.73: 2290–2293. 1951.
Stokstad, E. L. R. et al. The multiple nature of the animal protein factor. Jour. Biol. Chem.180: 647–654. 1949.
— et al. Further observations on the animal protein factor. Proc. Soc. Exp. Biol. & Med.73: 523–528. 1950.
Stoll, A. et al. Nocardamin, ein neues Antibioticum aus einerNocardia-Art. Schweiz Zeit. Path. u. Bakt.14: 225–233. 1951.
— et al. Beiträge zur Konstitutions Aufklarung des Nocardamins. Helv. Chim. Acta34: 862–873. 1951.
Suhren, O. Erste klinische Erfahrungen mit Pikromycin, einem neuen Antibioticum aus Actinomyceten, bei der Behandlung von Pyodermien. Medizinische Klinik, No. 25/26, pages 722–723. 1951.
Swart, E. A. Use of countercurrent distribution for characterization ofStreptomyces antibiotics. Jour. Am. Chem. Soc.71: 2942–2944. 1949.
— et al. Neomycin, recovery and purification. Arch. Biochem.24: 92–103. 1949.
— et al. The identity of the neomycin complex, as measured by countercurrent distribution and microbiological analyses. Jour. Am. Chem. Soc.73: 3253–3255. 1951.
— et al. Fradicin, an antifungal agent produced byStreptomyces fradiae. Proc. Soc. Exp. Biol. & Med.73: 376–378. 1950.
Szybalski, W. [Personal communication].
— andBryson, V. Genetic studies on microbial cross resistance to toxic agents. I. Cross resistance ofEscherichia coli to fifteen antibiotics. Jour. Bact.64: 489–499. 1952.
Taira, T. andFujii, S. New antibiotics produced byMicromonospara sp., Microcin A and B. Jour. Antibiotics [Japan]4: 185–187. 1952.
Takahashi, I. Studies on the antibiotic substances fromActinomyces 27th Report. A new antifungal substance “Flavacid”. Tohoku Jour. Exp. Med. [In press]. 1952.
Tanner, F. W., Jr. et al. Thiolutin, an antibiotic produced by certain strains ofStreptomyces albus. Abstracts of papers, 118th Meeting Am. Chem. Soc., Chicago, p. 18A. 1950.
- et al. Thiolutin, an antibiotic produced by certain strains ofStreptomyces albus. Jour. Am. Chem. Soc. [In press].
— et al. Some properties of Magnamycin, a new antibiotic. Antibiotics & Chemotherapy2: 441–443. 1952.
Tejera, E. et al. Mycobacidin: an antibiotic active against acid-fast organisms. Antibiotics & Chemotherapy2: 333. 1952.
Tener, G. M. [Personal communication].
Thaysen, A. C. [Personal communication].
— andButlin, K. R. Inhibition of the development ofFusarium oxysporum cubense by a growth substance produced by Meredith’s actinomycete. Nature156: 781–782. 1945.
Thorne, C. B. andPeterson, W. H. Xanthomycins A and B, new antibiotics produced by a species ofStreptomyces. Jour. Biol. Chem.176: 413–428. 1948.
Townley, R. W. et al. Antibiotics produced byActinomyces vinaceus. Chemical studies. Abstracts of papers, Twelfth International Congress of Pure and Applied Chem., page 284. 1951.
Trussell, P. C. et al. Two antibiotics produced by aStreptomyces. Jour. Bact.53: 769–780. 1947.
— andRichardson, E. M. Actinomycin from a newStreptomyces. Canad. Jour. Res., C.,26: 27–30. 1948.
Ueda, S. andUesaka, I. On the antibiosis ofNocardia. Jour. Antibiotics [Japan]5: 170–171. 1952.
Uesaka, I. Studies on the antibiotic action ofNocardia. I. Isolation and classification of antibiotic Actinomycetales. Jour. Antibiotics [Japan]3: 730–735. 1950.
—. Studies on the antibiotic action ofNocardia. II. Production of antibiotic substance by the surface culture of A.422 strain. Jour. Antibiotics [Japan]3(C): 27–34. 1950.
—. Studies on the antibiotic activity ofNocardia. III. Taxonomical studies of A.422 strain. Jour. Antibiotics [Japan]5: 75–79. 1952.
—. Studies on the antibiotic activity ofNocardia. IV. Extraction of the active substance from the fermented broth. Jour. Antibiotics [Japan]5: 154–159. 1952.
Umezawa, H. et al. On the various sources of actinomycin. Jour. Antibiotics [Japan]4: 335–338. 1951.
— et al. On a new antibiotic, griseolutein, produced byStreptomyces. Jour. Antibiotics [Japan]4: 34–40. 1951.
— et al. Studies on the antibacterial substance from a strain ofActinomyces. I. A crystalline antibacterial substance of a strain ofActinomyces. Jour. Penicillin [Japan]1: 129–133. 1947.
— et al. Isolation of a new antibiotic substance, aureothricin, from a strain ofStreptomyces. Jap. Med. Jour.1: 512–517. 1948.
— et al. On the new source of chloromycetin,Streptomyces omiyaensis. Jap. Med. Jour.2: 207–211. 1949.
— et al. Isolation of a new antibiotic substance, aureothricin from a strain ofStreptomyces. Jour. Antibiotics [Japan]2-A: 107–111. 1949.
— andTakeuchi, T. An antibiotic active to gram-positive bacteria, nitrosporin, fromStreptomyces nitrosporeus. Jour. Antibiotics [Japan]5: 270–273. 1952.
— et al. An antiviral substance, abikoviromycin, produced byStreptomyces sp. Jap. Med. Jour.4: 331–346. 1951.
— et al. Studies on streptothricin BI produced byS. fradiae. Jour. Antibiotics [Japan]3: 833–838. 1950.
Uno, S. [Personal communication].
Vander Brook, M. J. et al. Extraction and purification of streptomycin with a note on streptothricin. Jour. Biol. Chem.165: 463–468. 1946.
van Tamelen,E. E. andSmissman, E. E. Streptolin. The structure and synthesis of isolysine. Jour. Am. Chem. Soc.74: 3713–3714. 1952.
Vaughn, J. R. andHamner, C. L. The present status of cycloheximide (Acti-dione) as a fungicide. Proc. Am. Soc. Hort. Sci.54: 435–437. 1949.
— et al. The action of actidione on plant tissue and upon certain fungi. Mich. Agr. Exp. Sta. Quart. Bull.31: 456–464. 1949.
Vinson, J. W. andWalsh, F. T. The effect of terramycin on the PR8 strain of influenza A virus in chick embryos and mice. Jour. Immun.65: 129–134. 1950.
Wakaki, S. [Personal communication].
— et al. Antifungal substances produced byActinomyces. II. An antibiotic from a strain resembling toStreptomyces cacaoi. I. Jour. Antibiotics [Japan]5: 24–29. 1952.
— et al. Antifungal substances produced byActinomyces. I. On the morphology of the antifungal-substance-producing strains. Jour. Antibiotics [Japan]4: 357–362. 1951.
Waksman, S. A. The Actinomycetes. Their nature, occurrence, activities, and importance, p. 118. 1950.
-. Microbial antagonisms and antibiotic substances. 350 pp. 1945.
—. Streptomycin—isolation properties and utilization. Jour. Hist. Med. & Allied Sci.3: 318–347. 1951.
-. [Personal communication].
— et al. Micromonosporin, an antibiotic substance from a little-known group of microorganisms. Jour. Bact.53: 355–357. 1947.
— et al. Strain specificity and production of antibiotic substances. VII. Production of actinomycin by different actinomycetes. Proc. Nat. Acad. Sci. [U. S.]32: 117–120. 1946.
— et al. The distribution of antagonistic actinomycetes in nature. Soil Sci.54: 281–296. 1942.
— andLechevalier, H. A. Neomycin, a new antibiotic active against streptomycin-resistant bacteria, including tuberculous organisms. Science109: 305–307. 1949.
— et al. Streptocin, antibiotic isolated from mycelium ofStreptomyces griseus, active againstTrichomonas vaginalis and certain bacteria. Proc. Soc. Exp. Biol. & Med.70: 308–312. 1949.
— et al. Studies onStreptomyces lavendulae. Jour. Bact.62: 149–161. 1951.
— et al. Toxicity of actinomycin. Proc. Soc. Exp. Biol. & Med.47: 261–263. 1941.
— andTischler, M. Nature of actinomycin, an antimicrobial substance produced byActinomyces antibioticus. Jour. Biol. Chem.142: 519–528. 1942.
— andWoodruff, H. B. Bacteriostatic and bactericidal substances produced by a soilActinomyces. Proc. Soc. Exp. Biol. & Med.45: 609–614. 1940.
—.Actinomyces antibioticus, a new soil organism antagonistic to pathogenic and non-pathogenic bacteria. Jour. Bact.42: 231–249. 1941.
——. Streptothricin, a new selective bacteriostatic and bactericidal agent, particularly active against gramnegative bacteria. Proc. Soc. Exp. Biol. & Med.49: 207–210. 1942.
- et al. Actinomycetes as producers of antibiotics with special reference to the flavus group. Bact. Proc.: 30. 1951.
Wallace, H. D. et al. Various antibiotics and 3-nitro-4-hydroxyphenyl arsonic acid in corn-peanut meal rations for swine. Proc. Soc. Exp. Biol. & Med.78: 807–808. 1951.
Waller, C. W. et al. Degradation of aureomycin. IV. Desdimethylamioaureomycinic acid. Jour. Am. Chem. Soc.74: 4979–4980. 1952.
— et al. Degradation of aureomycin. VI. Isoaureomycin and aureomycin. Jour. Am. Chem. Soc.74: 4981. 1952.
— et al. Degradation of aureomycin. VII. Aureomycin and anhydroaureomycin. Jour. Am. Chem. Soc.74: 4981–4982. 1952.
Walter, C. E. et al. [Personal communication from R. E. Hargrove].
Weber, E. M. et al. Antibiotics as animal growth stimulants. Symp. Int. Res. Labs. Microbiol. World Health Organization, Rome, Italy. 1951.
Weiser, R. S. et al. Search for antibiotics active againstMycobacterium tuberculosis. 1. A streptothricin-like antibiotic from aStreptomyces sp. Proc. Soc. Exp. Biol. & Med.72: 283–287. 1949.
Welsch, M. Bactericidal substances from sterile culture media and bacterial cultures, with special reference to the bacteriolytic properties of actinomycetes. Jour. Bact.42: 801–814. 1941.
—. Bacteriostatic and bacteriolytic properties of actinomycetes. Jour. Bact.44: 571–588. 1942.
—. Actinomycetin. Jour. Bact.53: 101–102. 1947.
Welsh, H. Erythromycin—a new broad spectrum antibiotic. Antibiotics & Chemotherapy2: 279–280. 1952.
Whiffen, A. J. The production, assay, and antibiotic activity of actidione, an antibiotic fromStreptomyces griseus. Jour. Bact.56: 283–291. 1948.
— et al. The production of an antifungal antibiotic byStreptomyces griseus. Jour. Bact.52: 610–611. 1946.
Whitehill, A. R. et al. Stimulatory effect of aureomycin on the growth of chicks. Proc. Soc. Exp. Biol. & Med.74: 11–13. 1950.
Wintersteiner, O. andDutcher, J. D. Chemistry of antibiotics. Ann. Rev. Microbiol.3: 559–594. 1949.
Woodruff, H. B. andFoster, J. W. Streptin, an antibiotic from a species ofStreptomyces. Jour. Bact.52: 502. 1946.
Work, T. S. The biochemistry of antibiotics. Ann. Rev. Biochem.21: 431–458. 1952.
Yacowitz, H. et al. The distribution of aureomycin, Chloromycetin, procaine penicillin G, and terramycin in the gastrointestinal tract of the chick. Informal Poultry Nutrition Conference, New York, 1952.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Benedict, R.G. Antibiotics produced by actinomycetes. Bot. Rev 19, 229 (1953). https://doi.org/10.1007/BF02861819
DOI: https://doi.org/10.1007/BF02861819