Kevin T. Kranis scite author profile

Dethiobiotin synthetase (DTBS ; E.C. 6.6.6.6), the penultimate enzyme in the biosynthesis of the essential vitamin biotin, is a new potential target for novel herbicides. Inhibitors were designed based on mechanistic and structural information. The in-vitro activities of these potential inhibitors versus the bacterial enzyme are reported here. Mimics of 7,8-diaminopelargonic acid (DAPA) or the DAPA carbamate reaction intermediate were substrates or partial substrates for the enzyme. Synergistic binding with ATP was noted with compounds which contained an amino functionality. NMR studies and X-ray structures conürmed that the inhibitors could be phosphorylated by the enzyme. Several series of potential inhibitors were designed to take advantage of this partial substrate activity by generating potentially more tightly bound phosphorylated inhibitors in situ. Structure-activity relationships for these series based on both substrate and inhibitory activity are described herein. An X-ray structure for one of these inhibitors is also discussed. Although considerable potential for inhibitors of this type was demonstrated, none of the compounds reported showed sufficient herbicidal activity to be a commercial proposition.

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The design and synthesis of inhibitors of dethiobiotin synthetase as potential herbicides

Taylor¹,

Gibson²,

Lorimer³

et al. 1999

Pestic. Sci.

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: Dethiobiotin synthetase (DTBS ; E.C. 6.6.6.6), the penultimate enzyme in the biosynthesis of the essential vitamin biotin, is a new potential target for novel herbicides. Inhibitors were designed based on mechanistic and structural information. The in-vitro activities of these potential inhibitors versus the bacterial enzyme are reported here. Mimics of 7,8-diaminopelargonic acid (DAPA) or the DAPA carbamate reaction intermediate were substrates or partial substrates for the enzyme. Synergistic binding with ATP was noted with compounds which contained an amino functionality. NMR studies and X-ray structures conürmed that the inhibitors could be phosphorylated by the enzyme. Several series of potential inhibitors were designed to take advantage of this partial substrate activity by generating potentially more tightly bound phosphorylated inhibitors in situ. Structure-activity relationships for these series based on both substrate and inhibitory activity are described herein. An X-ray structure for one of these inhibitors is also discussed. Although considerable potential for inhibitors of this type was demonstrated, none of the compounds reported showed sufficient herbicidal activity to be a commercial proposition.

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Famoxadone and oxazolidinones: potent inhibitors of cytochrome bc1

Jordan

Kranis

Picollelli

et al. 1999

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Design of Sterol Reductase Inhibitors

Basarab

Livingston

Vollmer

et al. 1992

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Kevin T. Kranis

Tricyclic cyanoguanidines: synthesis, site of action and insecticidal activity of a novel class of reversible acetylcholinesterase inhibitors

The design and synthesis of inhibitors of dethiobiotin synthetase as potential herbicides

The design and synthesis of inhibitors of dethiobiotin synthetase as potential herbicides

Famoxadone and oxazolidinones: potent inhibitors of cytochrome bc1

Design of Sterol Reductase Inhibitors

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