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- Zhelifonova, V. P., et al. Show all 3 Authors
- Applied biochemistry and microbiology 2013 v.49 no.1 pp. 1-10
- Penicillium; benzodiazepines; biosynthesis; diketopiperazines; ergot alkaloids; excretion; fungi; physicochemical properties; quinolines; secondary metabolites; taxonomy; tryptophan
- ... Fungi of the genus Penicillium isolated from little studied habitats are able to synthesize both previously known and new physiologically active compounds with diverse structures. They include secondary metabolites of alkaloid nature, i.e., ergot alkaloids, diketopiperazines, quinolines, quinazolines, benzodiazepines, and polyketides. We discuss the use of profiles of secondary metabolites for tax ...
- Zhelifonova, V. P., et al. Show all 4 Authors
- Applied biochemistry and microbiology 2011 v.47 no.4 pp. 426-430
- Penicillium; biosynthesis; ergot alkaloids; fungi; genes; metabolites; metabolome; quinoline; zinc
- ... Four cultures of fungi of the genus Penicillium belonging to Furcatum Pitt subgenus, such as P. citrinum Thom, 1910; P. corylophilum Dierckx, 1901; P. fellutanum Biourge, 1923; and P. waksmanii Zaleski, 1927, produced the ergot alkaloids, namely, agroclavine-I, and epoxyagroclavine-I; their N-N-dimers, such as dimer of epoxyagroclavine-I and the mixed dimer of epoxyagroclavine-I and agroclavine-I; ...