2001
DOI: 10.1002/1521-3765(20010401)7:7<1479::aid-chem1479>3.0.co;2-2
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Solid State and Solution Conformation of [Ala7]-Phalloidin: A Synthetic Phallotoxin Analogue

Abstract: Phallotoxins are toxic compounds produced by poisonous mushroom Amanita phalloides and belong to the class of bicyclic peptides with a transannular thioether bridge. Their intoxication mechanism in the liver involves a specific binding of the toxins to F-actin that, consequently, prevents the depolymerization equilibrium with G-actin. Even though the conformational features of phallotoxins have been worked out in solution, the exact mechanism of interaction with F-actin is still unknown. In this study a toxic … Show more

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Cited by 24 publications
(34 citation statements)
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“…The CD spectrum of this analogue shows some similarities but also marked differences when compared to those of the bioactive phallopeptides. The three-dimensional structure of this molecule, as determined by twodimensional NMR and RMD analyses, shows significant structural modifications of the backbone, mainly due to isomerism about the Cys 3 ÀHyp 4 peptide bond (trans in natural PHD [11] and in the active analogues 1 e [9] and 1' f; cis in 1 h) and the different position of a type I b-turn (residues 3 ± 6 in PHD, [11] 1 e, [9] and 1' f; residues 6 ± 2 in 1 h). Therefore, the inversion of chirality of residue 3 leads to significant structural changes of the backbone with a concomitant loss of activity.…”
Section: Discussionmentioning
confidence: 99%
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“…The CD spectrum of this analogue shows some similarities but also marked differences when compared to those of the bioactive phallopeptides. The three-dimensional structure of this molecule, as determined by twodimensional NMR and RMD analyses, shows significant structural modifications of the backbone, mainly due to isomerism about the Cys 3 ÀHyp 4 peptide bond (trans in natural PHD [11] and in the active analogues 1 e [9] and 1' f; cis in 1 h) and the different position of a type I b-turn (residues 3 ± 6 in PHD, [11] 1 e, [9] and 1' f; residues 6 ± 2 in 1 h). Therefore, the inversion of chirality of residue 3 leads to significant structural changes of the backbone with a concomitant loss of activity.…”
Section: Discussionmentioning
confidence: 99%
“…Specifically, 40 % and 60 % of the recovered bioactivity can be assigned to the b-hydroxyl group on the side chain of d-Thr 2 and to the branched side chain of Leu 7 , respectively. The replacement of d-Thr 2 in the [Ala 7 ]-phalloidin (1 e) [9] by an l-Thr 2 residue (analogues 1 f and 1' f) causes a pronounced loss of toxicity (Table 1). Analogues 1 f and 1' f correspond to two atropisomers obtained by two subsequent cyclization reactions of the appropriate linear heptapeptide precursor.…”
Section: Discussionmentioning
confidence: 99%
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