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Article Abstract
Natural toxins are highly effective at targeting ion channels with high selectivity and potency. To date, all identified spider venom peptide toxins that modulate voltage-gated potassium (K) channels inhibit Shab (K2) or Shal-related isoforms (K4) by interacting with their voltage-sensing domains. In this study, we report novel spider-derived pore-blocking toxins that selectively target Shaker-type (K1) channels with nanomolar potency. We isolated murinotoxins MnTx-1 and MnTx-2 from the orange baboon tarantula Pterinochilus murinus and sequenced them using a combination of Edman degradation, mass spectrometry, and venom gland nanopore transcriptomics. MnTx-1 was produced recombinantly, and its NMR solution structure was determined. Although MnTx-1 shares sequence motifs common to spider toxins, it displays a distinctly different three-dimensional structure, featuring an alternative disulfide linkage, which we have termed the Disulfide-Reined Hairpin (DRH). We attribute the unique pharmacology of MnTx-1 to its unusual spatial structure. The DRH motif represents a promising new miniature scaffold for future bioengineering applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12334782 | PMC |
| http://dx.doi.org/10.1007/s00018-025-05778-7 | DOI Listing |
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