750 A MANUAL OF THE PENICILLIA 



BiRKiNSHAW, J. H. AND Raistrick, H. 1931. Biochemistry of micro-organisms. 

 XII. New methoxy-dihydroxy-toluquinone produced from dextrose by 

 species of Penicillium of the P. spinulosum series. Roy. Soc. London, 

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Brenner, W. 1918. Die Farbstoffbildung bei Penicillium purpurogenum. Svensk 

 Bot.Tidskr. 12:91-102. 



Chopra, N. N. and Ray, J. N. 1939. Biochemical synthesis of coloring matter 

 by an Indian strain of Penicillium. Current Sci. (India) 8: 409-411. 



Clutterbuck, p. W. and Lovell, R. 1931. The formation by P. chrysogenum 

 Thom of a pigment, an alkali-soluble protein, and penicillin (Fleming's 

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— - — , Lovell, R., and Raistrick, H. 1932. Studies in the biochemistry of micro- 

 organisms. XXVI. The formation from glucose by members of the P. 

 chrysogenum series of a pigment, an alkali-soluble protein, and "penicillin" 

 — the antibacterial substance of Fleming. Biochem. Jour. 26: 1907-1918. 



CuRTiN, T., Fitzgerald, G., and Reilly, J. 1940. Production of phoenicine on 

 synthetic media. 1. Penicillium phoeniceum van Beyma. 2. Penicillium 

 ruhrum Grassberger-Stoll. Biochem. Jour. 34: 1605-1610. 



and Reilly, J. 1940. Sclerotiorine, a chlorinated metabolic product of 



Penicillium sclerotiorum van Beyma. Nature 146: 335. 



and Reilly, J. 1940. Sclerotiorine, C20H20O6CI, a chlorine-containing 



metabolic product of Penicillium sclerotiorum van Beyma. Biochem. Jour. 

 34: 1419-1421. 



Curtis, P. J. and Grove, J. F. 1947. A fungistatic and bacteriostatic red pigment 

 produced by a strain of the Penicillium nigricans-janczewskii series. Nature 

 160: 574-575. 



Doebelt, H. 1909. Beitrage z. Kenntnis eines Pigmentbildender Penicillium. 

 Ann. My col. 7: 315-338. 



Ebling, R. 1938. tJber den Einfluss von Licht auf die Farbstoffbildung bei Peni- 

 cillium funiculosum Thom. Arch. f. Mikrobiol. 9: 1-19, 4 figs. 



Friedheim, E. 1933. Respiratory function of the red pigment of Penicillium 

 phoeniceum. Soc. de Biol. Compt. Rend. 112: 1030-1032. 



1938. Recherches sur la biochemie des champignons inf^rieurs. I. Insold- 



ment du pigment rouge de Penicillium phoeniceum (Phoenicine). Helvetica 

 Chim. Acta 21: 1464-1465. 



Grigorieva-Manoilova, O. C. and Poradielova, N. N. 1915. (Trans. Title.) 

 Concerning a new pigment-producing mold belonging to the genus Peni- 

 cillium. Arch, des Sci. Biol. Leningrad 19: 120-134, 1 pi., 1 fig., photographs 

 1-6. 



Hetherington, A. C. and Raistrick, H. 1931. Studies in the biochemistry of 

 micro-organisms. XI. On citromvcetin, a new yellow colouring matter 

 produced from glucose by species of Citromyces. Roy. Soc. London, Phil. 

 Trans., Ser. B. 220: 209-245. 



Hind, H. G. 1940. The colouring matters of Penicillium carmino-violaceum Bi- 

 ourge, with a note on the production of ergosterol by this mould. Biochem. 

 Jour. 34: 67-72. 



1940. The constitution of carviolin: a colouring matter of Penicillium 



carmino-violaceum Biourge. Biochem. Jour. 34: 577-579. 



Igarasi, H. 1939. Metabolic products of Penicillium funiculosiim Thom. I. A 

 new red coloring matter, funiculosin. II. Organic acids. Agr. Chem. Soc. 

 Japan, Jour. 15: 225-230. 



