Найдено научных статей и публикаций: 4, для научной тематики: Fungi
1.
Igor A. Parshikov
- Primedia E-launch LLC Dallas , 2016
The monograph describes microbial technologies for obtaining of derivatives of terpenoids. Obtaining new derivatives of terpenoids, including artemisinin derivatives with increased antimalarial activity, is an important goal of research in microbial biotechnology and medicinal chemistry....
The monograph describes microbial technologies for obtaining of derivatives of terpenoids. Obtaining new derivatives of terpenoids, including artemisinin derivatives with increased antimalarial activity, is an important goal of research in microbial biotechnology and medicinal chemistry.
Dallas: Primedia E-launch LLC, 2016. − 102 p. (ISBN 978-1-68419-775-0)
2.
Igor A. Parshikov
- Primedia E-launch LLC Dallas , 2016
The monography describes microbial technologies for obtaining of derivatives from a series of nitrogen heterocycles (saturated nitrogen heterocycles, azaarenes and quinolones). It is proposed alternative ways for synthesize substances that are difficult to obtain by the methods of organic chemistry....
The monography describes microbial technologies for obtaining of derivatives from a series of nitrogen heterocycles (saturated nitrogen heterocycles, azaarenes and quinolones). It is proposed alternative ways for synthesize substances that are difficult to obtain by the methods of organic chemistry. Microbial technologies of synthesis of organic compounds may find out a practical application in the production of various drugs.
Dallas: Primedia E-launch LLC, 2016. − 130 p. (ISBN 978-1-68419-830-6)
3.
21. Terent'ev P.B., Parshikov I.A., Grishina G.V., Piskunkova N.F., Chumakov T.I., Bulakhov G.A.
- ChemInform Abstract , 2010
Hydroxylation of the Multiple Bond in 1Benzyl-3-methyl-Δ3-piperideine by Micellar Fungi by Cunninghamella verticillata...
Hydroxylation of the Multiple Bond in 1Benzyl-3-methyl-Δ3-piperideine by Micellar Fungi by Cunninghamella verticillata
Cheminform. 2010. V.29. N 1. http://dx.doi.org/10.1002/chin.199801033
4.
Parshikov I. A., Freeman J. P., Williams A. J., Moody J. D., Sutherland J. B.
- Applied Microbiology and Biotechnology , 1999
Cultures of the fungi Aspergillus niger, Cunninghamella verticillata, and Penicillium simplicissimum, grown in a sucrose/peptone medium, transformed N-acetylphenothiazine to N-acetylphenothiazine sulfoxide (from 13% to 28% of the total) and phenothiazine sulfoxide (from 5% to 27%). Phenothiazin-3-on...
Cultures of the fungi Aspergillus niger, Cunninghamella verticillata, and Penicillium simplicissimum, grown in a sucrose/peptone medium, transformed N-acetylphenothiazine to N-acetylphenothiazine sulfoxide (from 13% to 28% of the total) and phenothiazine sulfoxide (from 5% to 27%). Phenothiazin-3-one (4%) and phenothiazine N-glucoside (4%) were also produced by C. verticillata. The probable intermediate, phenothiazine, was detected only in cultures of P. simplicissimum (6%)
Appl. Microbiol. Biotechnol. 1999. V. 52. P.553-557.