Portal de Periódicos da CAPES

Chemical structure-activity relationships of the inhibition of sterol biosynthesis by N-substituted morpholines in higher plants

1986; Elsevier BV; Volume: 25; Issue: 1 Linguagem: Inglês

10.1016/0048-3575(86)90038-6

1095-9939

Alain Rahier, Paulette Schmitt, Brigitte Huss, Pierre Benveniste, Ernst‐Heinrich Pommer,

Transgenic Plants and Applications

Tridemorph and fenpropimorph as well as several related N-alkyl morpholines have been tested in vitro on the cycloeucalenol-obtusifoliol isomerase, a microsomal enzyme involved in higher plant sterol biosynthesis. The results showed that N-substituted morpholines inhibit powerfully the enzyme (I50 = 0.4 μM for fenpropimorph). The following important molecular parameters of the inhibition could be determined: (i) the inhibitory capacity was probably related to the presence of a positive charge on the nitrogen atom, (ii) the length of the alkyl group was critical, with a maximum activity for n = 13 carbons in the case of a linear hydrocarbon chain, (iii) the presence of bulky substituents at the proximity of the nitrogen atom led to a strong decrease of the inhibitory power, (iv) in the fenpropimorph series where a chiral center is present at C-2 of the alkyl chain, a remarkable enantiomeric selectivity of the inhibition was observed, (v) the N-oxide derivative of fenpropimorph was shown to be as active as the parent compound. The N-alkyl morpholines have been also assayed on suspension cultures of bramble cells and led to a strong accumulation of 9β, 19-cyclopropyl- and Δ8-sterols. This result confirmed that the cycloeucalenol-obtusifoliol isomerase was a major target of the N-substituted morpholines and suggested that the Δ8 → Δ7-sterol isomerase was also a target for these chemicals. The molecular parameters implied in the in vivo accumulation of 9β, 19-cyclopropyl sterols were very similar to those resulting from the in vitro study. The chemical structure-inhibitory activity relationship of N-alkyl morpholines was discussed with respect to their fungicidal activity which has been described in a previous study [E. H. Pommer, Pestic. Sci. 15, 285 (1984)]. The comparison revealed that the better the inhibitory capacity on the cycloeucalenol-obtusifoliol isomerase was, the higher was the fungicidal activity in vivo.