ABCC2
Xenobiotic resistance (insecticide; Bt toxins)
Coding,
Deletion
N
Spodoptera exigua
beet armyworm - (species) D
Intraspecific
Linkage Mapping
Park Y; González-Martínez RM; Navarro-Cerrillo G ; et al. (2014)
ABCC transporters mediate insect resistance to multiple Bt toxins revealed by bulk segregant analysi[...]
GP00001439
Physiology
About 500 nt genomic deletion over 2 exons involving 246 nt coding 82aa N
Spodoptera exigua
beet armyworm - (species)
Spodoptera exigua
beet armyworm - (species) D
ABCC2
Spodoptera exigua
beet armyworm - (species)
Published - Accepted by Curator
CYP321A8
Xenobiotic resistance (organophosphate; chlorpyrifos; pyrethroid; cypermethrin; deltamethrin)
Cis-regulatory,
SNP
Spodoptera exigua
beet armyworm - (species) D
Intraspecific
Candidate Gene
Hu B; Huang H; Hu S ; et al. (2021)
Changes in both trans- and cis-regulatory elements mediate insecticide resistance in a lepidopteron [...]
GP00002394
CYP321A8
A0A286QUG5
Physiology
A > G at position -197bp in a cis-regulatory region, leading to increased expression of the gene
Spodoptera exigua
beet armyworm - (species)
Spodoptera exigua
beet armyworm - (species) D
CYP321A8
Spodoptera exigua
beet armyworm - (species)
Published - Accepted by Curator
CYP9A186
Xenobiotic resistance (insecticide; avermectin; emamectin benzoate; abamectin)
Coding,
SNP
Spodoptera exigua
beet armyworm - (species) D
Intraspecific
Linkage Mapping
Zuo Y; Shi Y; Zhang F ; et al. (2021)
Genome mapping coupled with CRISPR gene editing reveals a P450 gene confers avermectin resistance in[...]
GP00002393
CYP9A186
A0A8E4AAI2
Physiology
Heterologous expression and in vitro functional assays further confirm that a natural substitution (F116V) found in the substrate recognition site 1 (SRS1) of the CYP9A186 protein results in enhanced metabolism of EB and abamectin
Spodoptera exigua
beet armyworm - (species)
Spodoptera exigua
beet armyworm - (species) D
CYP9A186
Spodoptera exigua
beet armyworm - (species)
Published - Accepted by Curator
GSTe
Xenobiotic resistance (insecticide; DDT)
Coding,
SNP
Spodoptera exigua
beet armyworm - (species)
Intraspecific
Candidate Gene
Hilliou F; Chertemps T; Maïbèche M ; et al. (2021)
Resistance in the Genus Spodoptera: Key Insect Detoxification Genes.
1 Additional References
GP00002458
GstE2
Q7JYZ9
Physiology
L119F. The resistant allele is more efficient at metabolizing DDT than the susceptible one.
Spodoptera exigua
beet armyworm - (species)
Spodoptera exigua
beet armyworm - (species)
GSTe
Spodoptera exigua
beet armyworm - (species)
Published - Accepted by Curator
RYR
Xenobiotic resistance (insecticide ; diamide)
Coding,
SNP
Spodoptera exigua
beet armyworm - (species) D
Intraspecific
Candidate Gene
Zuo YY; Ma HH; Lu WJ ; et al. (2020)
Identification of the ryanodine receptor mutation I4743M and its contribution to diamide insecticide[...]
2 Additional References
GP00002633
RyR
Q24498
Physiology
I4743M - corresponds to I4790M in PxRyR
Spodoptera exigua
beet armyworm - (species)
Spodoptera exigua
beet armyworm - (species) D
RYR
Spodoptera exigua
beet armyworm - (species)
Published - Accepted by Curator