Synergistic Insecticidal Activity Against Hyphantria cunea by Cry9Aa3 Mutants and Cry1Ah Combinations
Pengdan Xu, Zeyu Wang, Ying Zhang, Jiaxing Han, Changlong Shu, Min Liao, Jie Zhang, Lili Geng

TL;DR
Researchers found that combining modified Cry9Aa3 proteins with Cry1Ah increases insecticidal activity against a damaging forest pest, offering a strategy to delay resistance.
Contribution
A highly toxic Cry9Aa3 mutant and its synergistic combination with Cry1Ah are identified for controlling Hyphantria cunea.
Findings
The mutant 316LRG318AAA showed 1.49-fold higher insecticidal activity than Cry9Aa3.
The mutant exhibited enhanced stability in the midgut juice of H. cunea.
Combinations of the mutant and Cry1Ah showed synergistic effects with factors of 4.76 and 8.33.
Abstract
The larvae of Hyphantria cunea feed on plant leaves, causing significant losses to forestry and agricultural production. At present, cry1 genes such as cry1Ac and cry1Ah are mainly used to control H. cunea. To delay the problem of pest resistance induced by a single insecticidal gene, it is crucial to discover and develop new insecticidal genes or gene combinations. This study found cry9Aa3 and cry9Aa4 showed insecticidal activity against H. cunea. The toxicity of 14 mutants of Cry9Aa3 was analyzed and the LC50 of the triple-amino-acid substitution mutant 316LRG318AAA was 3.69 μg/g, which represents a 1.49-fold increase in insecticidal activity compared to Cry9Aa3. Additionally, enhanced stability of this mutant was detected in the midgut juice of H. cunea. Cry9Aa3 and 316LRG318AAA, in combination with Cry1Ah, demonstrated synergistic effects against H. cunea, with synergistic factors…
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Taxonomy
TopicsInsect Resistance and Genetics · CRISPR and Genetic Engineering · Plant Virus Research Studies
