Promoter structure and intron-exon organization of a scorpion alpha-toxin gene.

Abstract

The Androctonus australis scorpion venom contains alpha-toxins for which the complementary DNAs have been cloned [Bougis et al. (1989) J. Biol. Chem. 264, 19259-19265], targeting with high affinity the voltage-sensitive sodium channel. From a genomic library made of this species of scorpion, we have cloned and characterized the gene encoding the toxin AaH I'. The gene transcriptional unit is 793 base pairs long, and the gene has a single intron of 425 base pairs located near the end of the signal peptide of the toxin precursor. The transcription initiation site was determined by primer extension and corresponded to the nucleotide sequence AACAA. Upstream, a promoter region has been identified with positive acting sequence elements at consensus positions, such as a CCAAT box and a TATA box. In addition, putative elements for binding the transcriptional factors MAT-alpha 2, Pit-1, and IEF1 are also present. Analysis of DNA curvature by computer modeling revealed a strong bending centered around the transcription initiation site of the gene. The bending angle (61 degrees) estimated experimentally using polyacrylamide gel electrophoresis correlates well with the value predicted by computer modeling (66 degrees). Other minor deflections of the helix axis cooperate for an overall curvature of nearly 90 degrees, which is significantly stronger than similar structures already reported in eukaryotic cells. It is worth noting that the grooves relative to the CCAAT box and the TATA box lie along the inside of the DNA curve. This observation is in agreement with the previously reported correlation between DNA bending and promoter function.