High expression and rapid purification of recombinant scorpion anti-insect neurotoxin AaIT

Abstract

Scorpion long-chain insect neurotoxins are potentially valuable as agricultural pest control agents. Unfortunately, natural insect neurotoxins are limited in quantity and difficult to obtain from scorpion venom. To determine if recombinant insect neurotoxin is active to insects, we expressed and purified an AaIT fusion protein in Escherichia coli and a recombinant AaIT protein in Pichia pastoris. To quantify AaIT expression in P. pichia colonies, we produced highly sensitive antiserum against AaIT in BALB/c mice. P. pastoris transformants that highly expressed AaIT were selected based on immunoassay with the AaIT antiserum. The P. pastoris recombinant AaIT was rapidly purified in a new and efficient two-step method that eliminated all contaminant proteins using ultracentrifugal filters with molecular weight cut-off 10 kDa and 3 kDa. With this new protocol 10 mg of purified recombinant AaIT was harvested from a 1-l P. pastoris culture. Bioactivity tests indicated that the P. pastoris recombinant AaIT was highly toxic to cockroach larvae, but the E. coli AaIT fusion protein was not toxic to cockroaches. The new expression, screening, and purification protocol described here was efficient for quickly producing high concentrations of pure, bioactive protein.