The hydrolysis of the sulfonylurea herbicide triasulfuron
[(2-(2-chloroethoxy)-N-[[4-methoxy-6-methyl-1,3,5-triazin-2-yl)amino]carbonyl]benzenesulfonamide]
was studied in aqueous buffers of pH
values 2, 3, 4, 5, 6, 7, and 9. The reaction was of first-order
and pH-dependent. Triasulfuron was
more persistent in neutral or weakly basic than in acidic solution.
Five metabolites have been
isolated and identified. At all pH values studied, the primary
pathway of degradation was the
cleavage of the sulfonylurea bridge. However, minor degradation
pathways have also been observed
like O-demethylation and opening of the triazine ring. The product
distribution was pH-dependent.
Keywords: Sulfonylureas; herbicides; triasulfuron; hydrolysis;
degradation
Compartmentalized in liposome arrays, the Belousov-Zhabotinsky (BZ) oscillatory reaction might represent a good model for biochemical networks. In order to engineer such liposomes, we used small-angle X-ray scattering (SAXS) to study the effect of individual BZ reactant as well as of the entire BZ mixture on the structural properties of lipid layer(s) formed by 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) phospholipids in aqueous media. These properties were compared with those of lipid layers doped with myristic acid (Myr-A), sodium tetradecyl sulfate (STS), and cholesterol (CHOL). In parallel, the effect on the BZ reaction exerted by doped DMPC liposomes was investigated by UV-vis spectroscopy, followed by image analysis of the recorded time series. SAXS experiments showed that chemical species involved in the BZ reaction bring small changes to the internal structure of DMPC bilayers. However, ferroin can reduce the liposome lamellarity by being adsorbed on the surface of lipid layers. Also, the presence of charged dopants such as STS and TA tends to reduce the lamellarity of liposomes, while CHOL brings marked changes in the BZ system due to chemical reaction with oxidant species. In particular, an increase of the oscillation frequency is observed when the BZ reaction is carried out in the presence of CHOL-DMPC liposomes. For this behavior, a possible explanation supported by numerical simulations is bromination of CHOL double bonds by BZ intermediates.
We experimentally discriminated and qualitatively-quantitatively characterized the extracellular fraction of a forest soil DNA pool. We sequentially extracted and classified the components of extracellular DNA by its strength of interaction with soil colloids as: (1) extractable in water, free in the extracellular soil environment or adsorbed on soil colloids; and as (2) extractable in alkaline buffer after previous extraction in water, bound on soil colloids. The comparative molecular analysis (fluorometer, gel electrophoresis, genetic fingerprinting) of directly and sequentially extracted extracellular DNA revealed quantitative and qualitative differences, also in terms of genetic information about microbial communities. The sequential extraction of extracellular DNA revealed differences in molecular weight, indicating a relationship between DNA fragment length and strength of interaction with soil colloids. The sequential extraction was also suitable to assess the presence of tightly bound DNA, providing information about the DNA-colloid interactions naturally occurring in the soil environment.
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