The peptide GsMTx4 from the tarantula venom (Grammostola spatulata) inhibits mechanosensitive ion channels. In this work, we report the cDNA sequence encoding GsMTx4. The gene is translated as a precursor protein of 80 amino acids. The first 21 amino acids are a predicted signal sequence and the C-terminal residues are a signal for amidation. An arginine residue adjacent to the N-terminal glycine of GsMTx4 is the cleavage site for release. The resulting peptide is 34 amino acids in length with a C-terminal phenylalanine and not a serine-alanine previously identified [J. Gen. Physiol. 115 (2000) 583]. We chemically synthesized this peptide and folded it in 0.1 M Tris, pH 7.9 with oxidized/reduced glutathione (1/10). Properties of the synthetic peptide were identical to the wild type for high performance liquid chromatography (HPLC), mass spectrometry, CD, and NMR. We also cloned GsMTx4 in a thioredoxin fusion protein system containing six histidines. Nickel affinity columns allowed rapid purification and folding occurred in conditions described above with 0.5 M guanidiniumHCl present. Thrombin cleavage liberated GsMTx4 with three extra amino acids at the N-terminus. The retention time in HPLC analysis and the CD spectrum was similar to wild type. Both the synthetic and cloned peptides were active in the patch clamp assay.