Abstract
BackgroundThe fungal ribotoxin hirsutellin A (HtA) exhibits strong insecticidal activity; however, efficient systems for expressing recombinant HtA (rHtA) are lacking. Here, we established an efficient heterologous expression system to produce large amounts of rHtA.ResultsRecombinant Pichia pastoris transformants with high levels of secretory rHtA were screened, and in a fed-batch reactor, rHtA was secreted at levels up to 80 mg/l following methanol induction, which was more than sixfold higher than that in shake flasks. Approximately 7 mg of highly pure rHtA was obtained from 300 ml of fed-batch culture supernatant by Ni+-nitriloacetic acid affinity chromatography and CM Sepharose ion-exchange chromatography. Mass spectrometry results revealed rHtA as a native N-terminal non-glycosylated monomeric protein with a molecular weight of 15.3 kDa. Purified rHtA exhibited excellent thermal and protease stability and dose-dependent cytotoxicity to Sf9 insect cells and insecticidal activity against Galleria mellonella larvae.ConclusionsThis is the first report of rHtA expression in P. pastoris. The rHtA was expressed at a high level under high-cell-density fed-batch fermentation and was efficiently purified using a two-step purification method. Purified rHtA exhibited thermal and protease stability, as well as appropriate bioactivities. Our results indicate that fed-batch production by P. pastoris is an efficient method to produce functional rHtA.
Highlights
The fungal ribotoxin hirsutellin A (HtA) exhibits strong insecticidal activity; efficient systems for expressing recombinant HtA are lacking
We reported a method for efficient expression and purification of recombinant HtA (rHtA) from P. pastoris X33 by fedbatch fermentation
SDS-PAGE results for all screened transformants (Fig. 1a) indicated their ability to secrete a protein with a molecular weight (MW) similar to that predicted for rHtA, whereas control transformants and samples from the untransformed X33 strain showed no visible protein band at the predicted MW
Summary
The fungal ribotoxin hirsutellin A (HtA) exhibits strong insecticidal activity; efficient systems for expressing recombinant HtA (rHtA) are lacking. Fungi are the major source of biological pesticides [6,7,8] Their metabolites, Ribotoxins produced by some fungal species, such as Aspergillus, Hirsutella thompsonii and other entomopathogenic fungi, have the potential to be used as biological pesticides [10, 12, 13]. The fungal ribotoxin hirsutellin A (HtA) produced by the invertebrate fungal pathogen H. thompsonii exhibits insect-specific cytotoxicity and strong insecticidal properties [14, 15]. HtA is 10–20 amino acids shorter than ribotoxins from Aspergillus, and has a low homology with them (25%), which is the main reason leading to significant differences in their biological functions [14, 16, 17]. Previous studies have reported that HtA is highly toxic to adult mites and
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