Chemistry and biology of novel amine fungicides: Attempts to improve the antifungal activity of fenpropimorph

Akers, Alan; Ammermann, Eberhard; Buschmann, Ernst; Götz, Norbert; Himmele, Walter; Lorenz, Gisela; Pommer, E. H.; Rentzea, Costin N.; Röhl, Franz; Siegel, Hardo; Zipperer, B.; Sauter, Hubert; Zipplies, M. F.

doi:10.1002/ps.2780310407

Cited by 14 publications

(7 citation statements)

References 13 publications

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“…Inhibitors of the ergosterol biosynthesis are potent fungicides [33]. Two enzymes, A14-sterol reductase and AS~AY-isomerase, are involved in the ergosterol transformation (Fig.…”

Section: Inhibitors Of Ergosterol Biosynthesismentioning

confidence: 99%

“…fenpropimorph, Fig. 2) inhibit both enzymes [33]. Due to their basic character, they are protonated under physiological conditions.…”

Section: Inhibitors Of Ergosterol Biosynthesismentioning

confidence: 99%

“…In the reductase, the positive charge should be delocalized between C8, C9 and C14; in the isomerase it should be located at C8. However, various molecular frameworks can be imagined to mimic the geometry of this cationic transition state [33]. Similar volume requirements and a positive charge are exhibited by a protonated nitrogen present in the different types of sterol mimics shown in Fig.…”

Section: Inhibitors Of Ergosterol Biosynthesismentioning

confidence: 99%

“…The potency of these derivatives increases with growing size of the side chain at nitrogen (see Fig. 3; I50 values of A14-reductase from Ustilago maydis [33]). For the structural comparison the 3,3-dimethylcyclohexyl derivative (1) has been used.…”

Section: Inhibitors Of Ergosterol Biosynthesismentioning

confidence: 99%

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Different approaches toward an automatic structural alignment of drug molecules: Applications to sterol mimics, thrombin and thermolysin inhibitors

Klebe

Mietzner

Weber

1994

J Computer-Aided Mol Des

108

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A relative comparison of the binding properties of different drug molecules requires their mutual superposition with respect to various alignment criteria. In order to validate the results of different alignment methods, the crystallographically observed binding geometries of ligands in the pocket of a common protein receptor have been used. The alignment function in the program SEAL that calculates the mutual superposition of molecules has been optimized with respect to these references. Across the reference data set, alignments could be produced that show mean rms deviations of approximately 1 A compared to the experimental situation. For structures with obvious skeletal similarities a multiple-flexible fit, linking common pharmacophoric groups by virtual springs, has been incorporated into the molecular mechanics program MOMO. In order to combine conformational searching with comparative alignments, the optimized SEAL approach has been applied to sets of conformers generated by MIMUMBA, a program for conformational analysis. Multiple-flexible fits have been calculated for inhibitors of ergosterol biosynthesis. Sets of different thrombin and thermolysin inhibitors have been conformationally analyzed and subsequently aligned by a combined MIMUMBA/SEAL approach. Since for these examples crystallographic data on their mutual alignment are available, an objective assessment of the computed results could be performed. Among the generated conformers, one geometry could be selected for the thrombin and thermolysin inhibitors that approached reasonably well the experimentally observed alignment.

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“…Inhibitors of the ergosterol biosynthesis are potent fungicides [33]. Two enzymes, A14-sterol reductase and AS~AY-isomerase, are involved in the ergosterol transformation (Fig.…”

Section: Inhibitors Of Ergosterol Biosynthesismentioning

confidence: 99%

“…fenpropimorph, Fig. 2) inhibit both enzymes [33]. Due to their basic character, they are protonated under physiological conditions.…”

Section: Inhibitors Of Ergosterol Biosynthesismentioning

confidence: 99%

Section: Inhibitors Of Ergosterol Biosynthesismentioning

confidence: 99%

Section: Inhibitors Of Ergosterol Biosynthesismentioning

confidence: 99%

See 2 more Smart Citations

Different approaches toward an automatic structural alignment of drug molecules: Applications to sterol mimics, thrombin and thermolysin inhibitors

Klebe

Mietzner

Weber

1994

J Computer-Aided Mol Des

108

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“…Extensive studies aimed at optimising the activity of the morpholine/piperidine fungicides based on this model have been published. 4 Although the level of activity at the enzyme level was signiÐcantly increased, no compounds were shown to have any advantage over fenpropimorph in the Ðeld.…”

Section: 47h9mentioning

confidence: 98%

Rationally Designed Guanidine and Amidine Fungicides

Liebeschuetz¹,

Katz²,

Duriatti³

et al. 1997

Pestic. Sci.

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: A previous investigation established that compounds containing a guanidinium or amidinium grouping are e †ective inhibitors of sterol *8È*7 isomerase and/or *14 reductase activity in plant pathogenic fungi. A binding model for known fungicidal inhibitors of this enzyme has now been used to rationally design further guanidinium or amidinium inhibitors. Three novel classes of chemistry were investigated. The results of biochemical testing against ergosterol biosynthesis in Ustilago maydis (DC) Corda and of in-vivo testing for fungicidal activity against Erysiphe graminis DC f. sp. hordei Marchal (powdery mildew of barley), do much to support the binding model, and compounds with signiÐcant fungicidal activity have been found.

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Molecular biology as virtual biology: Limitations of molecular biology in pesticide discovery

Akers¹

1996

Pestic. Sci.

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Much discussion has focused upon the concept that a 'rational', molecular biology-based strategy could revolutionize pesticide discovery. The personal viewpoint presented here is that such a concept is fundamentally flawed because it is based on false assumptions about the extent to which biological systems are genetically determined. It is argued that, even at the very low level of biological complexity represented by the structures and functions of individual proteins, the predictive capacity of molecular biology remains too weak to form a reliable basis for industrial research strategy, even when coupled with almost unlimited computing power. Expectations that molecular genetics could somehow speed up the discovery process and replace other methods of enquiry may thus be overoptimistic and an awareness of its limitations is essential to avoid the wasteful allocation of research resources. This article aims to highlight some of the limitations of which those who are not actively engaged in molecular biology may be unaware and which some of those who are so engaged may choose to ignore. Comments and counter-arguments are actively invited.

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Chemistry and biology of novel amine fungicides: Attempts to improve the antifungal activity of fenpropimorph

Cited by 14 publications

References 13 publications

Different approaches toward an automatic structural alignment of drug molecules: Applications to sterol mimics, thrombin and thermolysin inhibitors

Different approaches toward an automatic structural alignment of drug molecules: Applications to sterol mimics, thrombin and thermolysin inhibitors

Rationally Designed Guanidine and Amidine Fungicides

Molecular biology as virtual biology: Limitations of molecular biology in pesticide discovery

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