The substituted 1,2,4-triazolo[ 1,5-a]pyrimidines are a new class of highly active herbicides. Protection of Arabidopsis thaliana seedlings fiom triazolopyrimidine-induced injury by the branched-chain amino acids was observed. Acetolactate synthase (EC 4.1.3.18) was isolated and found to be quite sensitive to inhibition. I,, values for inhibition of the enzyme fiom a number of plant sources show little variation and no correlation to wholeplant response, suggesting uptake, translocation and metabolism play key roles in modulating herbicidal activity. Further studies indicate that these chemicals are slow, tight-binding inhibitors that are readily dissociated by gel filtration. Some correlations between in-vitro activity and in-vivo activity were observed for ortho-substituted analogs on selected broadleaf species.
Acetolactate synthase from spontaneous mutants of tobacco (Nlcotlana tabacum; and cotton (Gossypium hirsutum; PS-3, PSH-91, and DO-2) selected in tissue culture for resistance to a triazolopyrimidine sulfonanilide showed varying degrees of insensitivity to feedback inhibitor(s) valine and/or leucine. A similar feature was evident in the enzyme isolated from chlorsulfuron-resistant weed biotypes, Kochia scoparia and Stellaria media. Dual inhibition analyses of triazolopyrimidine sulfonanilide, thifensulfuron, and imazethapyr versus feedback inhibitor leucine revealed that the three herbicides were competitive with the amino acid for binding to acetolactate synthase from wild-type cotton cultures. Acetolactate synthase inhibiting herbicides may bind to the regulatory site on the enzyme.
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