Biochemical and molecular diagnosis of insecticide resistance conferred by esterase, MACE, kdr and super- kdr based mechanisms in Italian strains of the peach potato aphid, Myzus persicae (Sulzer)

In this paper we analysed the basis of insecticide resistance in 59 Italian strains of the peach potato aphid Myzus persicae using both molecular and biochemical assays. Our data as a whole clearly indicate that most M. persicae strains (76.3%) have high or extremely high production of an esterase e...

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Published in:Pesticide biochemistry and physiology 2008-03, Vol.90 (3), p.168-174
Main Authors: Criniti, A., Mazzoni, E., Cassanelli, S., Cravedi, P., Tondelli, A., Bizzaro, D., Manicardi, G.C.
Format: Article
Language:English
Subjects:
AChE
Aphididae
Biochemical and molecular diagnosis
Biological and medical sciences
Esterase
Insecticide resistance
kdr
MACE
Myzus persicae
Prunus
RFLP-PCR
Screening
Solanum tuberosum
Super- kdr
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Summary:In this paper we analysed the basis of insecticide resistance in 59 Italian strains of the peach potato aphid Myzus persicae using both molecular and biochemical assays. Our data as a whole clearly indicate that most M. persicae strains (76.3%) have high or extremely high production of an esterase enzyme which sequester and detoxify insecticides with esteric group. Kdr genotypes conferring resistance towards pyrethoids are present in 57.7% of the analysed populations. Moreover, 26.5% of the kdr positive strains possess also the M918T mutation conferring super- kdr phenotype. Strains with modified AChE (MACE) are not so numerous (27.1%), although they can be found almost everywhere in Italy. Considering all the strains analysed, both MACE and kdr phenotypes are associated with high levels of esterase activity. In Central–Southern regions, kdr and MACE resistance mechanisms resulted in linkage disequilibrium. Bioassays performed in order to evaluate the efficacy of a pyrethroid insecticide against a strain possessing a F979S mutation within its para-type sodium channel gene suggests that this amino acid substitution could affect the sodium channel responsivity to pyrethroids.
ISSN:0048-3575
1095-9939
DOI:10.1016/j.pestbp.2007.11.005