R. Anders scite author profile

Chrysospermin C is a 19-residue peptaibol capable of forming transmembrane ion channels in phospholipid bilayers. The conformation of chrysospermin C bound to dodecylphosphocholine micelles has been solved using heteronuclear NMR spectroscopy. Selective 15N-labeling and 13C-labeling of specific alpha-aminoisobutyric acid residues was used to obtain complete stereospecific assignments for all eight alpha-aminoisobutyric acid residues. Structures were calculated using 339 distance constraints and 40 angle constraints obtained from NMR data. The NMR structures superimpose with mean global rmsd values to the mean structure of 0. 27 A (backbone heavy atoms) and 0.42 A (all heavy atoms). Chrysospermin C bound to decylphosphocholine micelles displays two well-defined helices at the N-terminus (residues Phe1-Aib9) and C-terminus (Aib13-Trp-ol19). A slight bend preceding Pro14, i.e. encompassing residues 10-12, results in an angle of approximately 38 degrees between the mean axes of the two helical regions. The bend structure observed for chrysospermin C is compatible with the sequences of all 18 long peptaibols and may represent a common 'active' conformation. The structure of chrysospermin C shows clear hydrophobic and hydrophilic surfaces which would be appropriate for the formation of oligomeric ion channels.

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A solution NMR study of the selectively ¹³C, ¹⁵N‐labeled peptaibol chrysospermin C in methanol

Anders

Wenschuh

Šoškić

et al. 1998

The Journal of Peptide Research

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The conformation of the 19‐residue peptaibol chrysospermin C in methanol has been investigated by NMR spectroscopy using selective 15N and 13C labeling of the α‐aminoisobutyric acid (Aib) residues. Complete 1H and 13C sequential assignments, including stereospecific assignments for the heavily overlapped resonances from the two Cβ methyl groups of the eight Aib residues, are reported for a peptaibol for the first time. An Aib residue followed by a Pro is an exception to previous suggestions regarding stereospecific assignment of the two Cβ methyl groups of Aib residues. Local nuclear Overhauser effects and 3JHNC and 3JHNCβ scalar couplings indicate that the φ angles of the Aib residues are restricted sterically to local conformations consistent with right‐handed helices. Despite these constraints on the eight Aib residues, the NMR data for chrysospermin C in methanol are generally most consistent with an ensemble of transient conformations, including backbone conformations inconsistent with helical structures. Initial NMR measurements for chrysospermin C bound to micelles suggest structural and dynamic differences relative to alamethicin bound to micelles which may be related to differences in gating voltages for formation of ion channels.

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NMR Structure of the Peptaibol Chrysospermin C Bound to DPC Micelles

Anders¹,

Ohlenschläger²,

Šoškić³

et al. 2000

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R. Anders

The NMR solution structure of the ion channel peptaibol chrysospermin C bound to dodecylphosphocholine micelles

A solution NMR study of the selectively ¹³C, ¹⁵N‐labeled peptaibol chrysospermin C in methanol

NMR Structure of the Peptaibol Chrysospermin C Bound to DPC Micelles

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R. Anders

The NMR solution structure of the ion channel peptaibol chrysospermin C bound to dodecylphosphocholine micelles

A solution NMR study of the selectively 13C, 15N‐labeled peptaibol chrysospermin C in methanol

NMR Structure of the Peptaibol Chrysospermin C Bound to DPC Micelles

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A solution NMR study of the selectively ¹³C, ¹⁵N‐labeled peptaibol chrysospermin C in methanol