摘要
Hainantoxin-Ⅳ(HNTX-Ⅳ)was isolated from the Chinese bird spider Ornithoctorcs hainana and identified as a novel antagonist of tetrodotoxin-sensitive(TTX-S)sodium channels.As revealed by the solution structure of HNTX-Ⅳ solved by two-dimensional nuclear magnetic resonance(2D-NMR),HNTX-Ⅳ adopts an inhibitor cystine knot motif.To check the role of basic residues during HNTX-Ⅳ’s interaction with TTX-S sodium channels,R26A and K27A mutants of HNTX-Ⅳ were constructed by solid-phase chemical synthesis.The synthesized peptides were purified and refolded under optimized oxidation conditions.Correct synthesis and folding were confirmed by MALDI-TOF mass spectrometry and NMR spectroscopy,respectively.Using the whole-cell patch-clamp technique,Lys27 but not Arg26 was identified as a key residue for HNTX-Ⅳ’s bioactivity against TTX-S sodium channels,because R26A-HNTX-Ⅳ showed slightly reduced activity and K27A-HNTX-Ⅳ showed almost no inhibition.
