Background: Transgenic crops producing Cry and Vip3 insecticidal proteins from the bacterium Bacillus thuringiensis provide effective control of the fall armyworm, Spodoptera frugiperda J. E. Smith. However, cases of practical S. frugiperda resistance to transgenic corn producing Cry1F, Cry1Ab and Cry1A.105 proteins have been reported in the Western hemisphere. Importantly, S. frugiperda resistance to Cry1F corn in Puerto Rico was previously associated with lower susceptibility to synthetic pesticides. When characterized, resistance to transgenic corn in S. frugiperda involved alterations in an ABC transporter subfamily C2 (SfABCC2) gene. The main goal of this work was to test the role of mutations in SfABCC2 that result in resistance to Cry1F in susceptibility to synthetic and semisynthetic small molecule pesticides.
Results: Marginal but significantly reduced susceptibility to bifenthrin and increased susceptibility to spinetoram was detected in a Cry1F-resitant S. frugiperda strain from Puerto Rico carrying a frameshift mutation in the SfABCC2 gene. Gene editing by CRISPR/Cas9 created a SfABCC2 knockout in a laboratory reference S. frugiperda strain. When compared to the parental reference, the knockout strain displayed 25-fold resistance to Cry1F but no alteration in susceptibility to small molecule pesticides.
Conclusion: These results support that resistance to Cry1F due to mutations in the SfABCC2 gene do not affect susceptibility to the tested small molecule pesticides.
Keywords: ABC transporter; Bacillus thuringiensis; Cry1F resistance; Spodoptera frugiperda; chemical control; resistance management.
© 2020 Society of Chemical Industry.