Search results for "EPSP synthase"

showing 2 items of 2 documents

Mode of action of herbicidal derivatives of aminomethylenebisphosphonic acid. Part II. Reversal of herbicidal action by aromatic amino acids

1997

The herbicidal action of N-pyridylaminomethylenebisphosphonic acids is accompanied by an impairment of anthocyanin biosynthesis. This suggests that they might act as inhibitors of some steps in aromatic amino acid biosynthesis. Herbicidal effects were reversed by aromatic amino acids using both bacterial and plant models, a finding that strongly supports this hypothesis. Structural features of these compounds suggest the sixth enzyme in the shikimate pathway 5-enol-pyruvoylshikimate-3-phosphate (EPSP) synthase as a possible target, since a strong structural similarity exists between aminomethylenebisphosphonic acid and an inhibitor of EPSP synthase, the herbicide glyphosate. This is, howeve…

chemistry.chemical_classificationaromatic metabolismStereochemistryN-Pyridylaminomethylenebisphosphonic acids; EPSP synthase; Herbicides; Glyphosate; Aromatic metabolismEPSP synthasePlant Science3-Phosphoshikimate 1-Carboxyvinyltransferasechemistry.chemical_compoundEnzymeherbicidesBiochemistrychemistryMechanism of actionBiosynthesisN-Pyridylaminomethylenebisphosphonic acidsglyphosatemedicineAromatic amino acidsShikimate pathwaymedicine.symptomMode of actionAgronomy and Crop ScienceEPSP synthaseJournal of Plant Growth Regulation
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Biochemical bases for a widespread tolerance of cyanobacteria to the phosphonate herbicide glyphosate

2008

Possible non-target effects of the widely used, non-selective herbicide glyphosate were examined in six cyanobacterial strains, and the basis of their resistance was investigated. All cyanobacteria showed a remarkable tolerance to the herbicide up to millimolar levels. Two of them were found to possess an insensitive form of glyphosate target, the shikimate pathway enzyme 5-enol-pyruvyl-shikimate-3-phosphate synthase. Four strains were able to use the phosphonate as the only phosphorus source. Low uptake rates were measured only under phosphorus deprivation. Experimental evidence for glyphosate metabolism was also obtained in strains apparently unable to use the phosphonate. Results suggest…

CyanobacteriaTime Factorsherbicide tolerancePhysiologytarget enzyme-based resistanceGlycineOrganophosphonateschemistry.chemical_elementPlant ScienceBiologycyanobacteriaPhosphorus metabolismchemistry.chemical_compoundglyphosateShikimate pathwayEPSP synthasecyanobacteria; EPSP synthase; glyphosate; herbicide tolerance; phosphonate/phoshate uptake; target enzyme-based resistance; xenobiotic metabolismchemistry.chemical_classificationHerbicidesPhosphorusPhosphorusEPSP synthaseCell BiologyGeneral Medicinebiology.organism_classificationxenobiotic metabolismPhosphonateEnzymeBiochemistrychemistryGlyphosateMutationphosphonate/phoshate uptake3-Phosphoshikimate 1-CarboxyvinyltransferaseHerbicide ResistancePlant and Cell Physiology
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