J.-Y. Dugast scite author profile

J.-Y. Dugast

3Publications

73Citation Statements Received

54Citation Statements Given

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Affiliations

University of Rouen, French National Centre for Scientific Research, Laboratoire de Tribologie et Dynamique des Systèmes

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Ion channel stabilization of synthetic alamethicin analogs by rings of inter-helix H-bonds

Molle

Dugast

Spach

et al. 1996

Biophysical Journal

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Rings of inter-helix H-bonds due to Gln at position 7, a highly conserved residue in all pore-forming peptaibols, have been suggested to play an important role in the stabilization of alamethicin channels. In an attempt to test this hypothesis, experimental studies have been undertaken on four synthetic alamethicin non-Aib analogs (Alm-dUL) in which the Gln at position 7 (Q7) is substituted by Ala, Asn, or Ser (Q7A, Q7N, or Q7S). Voltage-dependent pore formation by these analogs in planar lipid bilayers is compared at the macroscopic and single-channel conductance levels. As anticipated, the Q7A substitution abolished all channel-forming activity. The voltage dependence of macroscopic current-voltage curves was conserved with the Q7N substitution but reduced in the Q7S analog. Normalized single-channel conductance ratios between substates follow the same pattern, with the Q7S analog yielding the highest unit conductances. Channel lifetimes were the most significantly modulated parameter with markedly faster kinetics when Gln or Asn was replaced by Ser. The effect of the Q7S substitution on channel lifetimes may be explained through a reduced stabilization of bundles by inter-helix H-bonds.

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Prolines are not essential residues in the "barrel-stave" model for ion channels induced by alamethicin analogues

Duclohier

Molle

Dugast

et al. 1992

Biophysical Journal

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In the "barrel-stave" model for voltage-gated alamethicin channels in planar lipid bilayers, proline residues, especially Pro14, are assumed to play a significant role. Taking advantage of a previous synthetic alamethicin analogue in which all eight alpha-aminoisobutyric acids were replaced by leucines, two new analogues were prepared in order to test the effects of Pro14 and Pro2 substitutions by alanines. The alpha-helical content of the three analogues in methanol solution remains predominant (between 63 and 80%). Macroscopic conductance experiments show that a high voltage dependence is conserved, although the apparent mean number of monomers forming the channels is significantly reduced when the substitution occurs at position 14. This is confirmed in single-channel experiments which further reveal faster fluctuations for the modified analogues. These results demonstrate that, although prolines, especially Pro14, are favorable residues for alamethicin-like events, they are not absolute prerequisites for the development of highly voltage-dependent multistate conductances.

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Design and conformation of non‐Aib synthetic peptides enjoying alamethicin‐like ionophore activity

et al. 1989

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Analogues of alamethicin, a 20-mer amphipathic helical peptide with ionophore activity, in the sequence of which all Aib residues were substituted by Ala (A1) or Leu (L1), were synthesized by the solid phase method, purified by high performance liquid chromatography and characterized by fast atomic bombardment mass spectrometry. Infrared and CD studies showed that A1 easily underwent a transconformation to beta-structure whereas L1 displayed a predominant alpha-helical character, thus being a potential ionophore model. Its voltage-dependent multistate activity in model membranes showed that Aib is not a requisite residue to observe an alamethicin-like behavior. However, as the lifetime of the single channels was much shorter than for alamethicin, the peptide chain was lengthened by a Leu (LL1) or a Ser (SL1) residue. The last peptide gave an increased channel lifetime, but the design of other non-Aib peptides, taking into account the hydroxyl C-terminus and side-chain interactions between helices in a barrel-stave bundle, is desirable to approach more closely the alamethicin activity.

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J.-Y. Dugast

Ion channel stabilization of synthetic alamethicin analogs by rings of inter-helix H-bonds

Prolines are not essential residues in the "barrel-stave" model for ion channels induced by alamethicin analogues

Design and conformation of non‐Aib synthetic peptides enjoying alamethicin‐like ionophore activity

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