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  • Title: Structure-function relationships in helix-bundle channels probed via total chemical synthesis of alamethicin dimers: effects of a Gln7 to Asn7 mutation.
    Author: Jaikaran DC, Biggin PC, Wenschuh H, Sansom MS, Woolley GA.
    Journal: Biochemistry; 1997 Nov 11; 36(45):13873-81. PubMed ID: 9374865.
    Abstract:
    Alamethicin channels are prototypical helix bundles that may serve as tractable models for more complex protein ion channels. Solid-phase peptide synthesis of alamethicin analogues using FMOC-amino acid fluorides followed by chemical dimerization of these peptides facilitates structure-function studies of particular channel states in bilayer membranes. State 3 in particular, tentatively assigned to a hexameric helix bundle, is sufficiently long-lived that current-voltage measurements can be made during the lifetime of an individual channel opening. Molecular models of hexameric helix bundles, generated using restrained molecular dynamics with simulated annealing, indicate that a Gln7-->Asn7 (Q7-->N7) mutation will increase channel diameter locally. Experimentally, the conductance of state 3 of the N7-alm channel is found to be larger than that of the Q7-alm channel when ion flow is in the usual direction (cations entering the C-terminal end of the channel). When ion flow is in the opposite direction, no difference in the conductances of state 3 of Q7 and state 3 of N7 channels is observed. These results indicate that the effect of a change in pore diameter at position 7 is dependent on the magnitude of other barriers to permeation and that these barriers are voltage-dependent.
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