Paul Battlay
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Explore the profile of Paul Battlay including associated specialties, affiliations and a list of published articles.
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22
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208
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Recent Articles
11.
Scanlan J, Battlay P, Robin C
Curr Res Insect Sci
. 2022 Aug;
2:100030.
PMID: 36003262
A unique aspect of metabolic detoxification in insects compared to other animals is the presence of xenobiotic phosphorylation, about which little is currently understood. Our previous work raised the hypothesis...
12.
Bieker V, Battlay P, Petersen B, Sun X, Wilson J, Brealey J, et al.
Sci Adv
. 2022 Aug;
8(34):eabo5115.
PMID: 36001672
Invasive species are a key driver of the global biodiversity crisis, but the drivers of invasiveness, including the role of pathogens, remain debated. We investigated the genomic basis of invasiveness...
13.
Crombie T, Battlay P, Tanny R, Evans K, Buchanan C, Cook D, et al.
Mol Ecol
. 2022 Feb;
31(8):2327-2347.
PMID: 35167162
The nematode Caenorhabditis elegans is among the most widely studied organisms, but relatively little is known about its natural ecology. Genetic diversity is low across much of the globe but...
14.
Rosinger H, Geraldes A, Nurkowski K, Battlay P, Cousens R, Rieseberg L, et al.
Mol Ecol
. 2020 Dec;
30(3):810-825.
PMID: 33296112
Biological invasions are accelerating, and invasive species can have large economic impacts as well as severe consequences for biodiversity. During invasions, species can interact, potentially resulting in hybridization. Here, we...
15.
Scanlan J, Gledhill-Smith R, Battlay P, Robin C
Insect Biochem Mol Biol
. 2020 Jun;
123:103429.
PMID: 32540344
Phosphorylation is a phase II detoxification reaction that, among animals, occurs near exclusively in insects, but the enzymes responsible have never been cloned or otherwise identified. We propose the hypothesis...
16.
Robin C, Battlay P, Fournier-Level A
Curr Opin Insect Sci
. 2019 May;
31:99-105.
PMID: 31109681
If we are to fully comprehend the evolution of insect diversity at a genomic level we need to understand how natural selection can alter genetically encoded characters within populations. Genetic...
17.
Green L, Battlay P, Fournier-Level A, Good R, Robin C
Proc Natl Acad Sci U S A
. 2019 May;
116(21):10424-10429.
PMID: 31064874
Insecticide resistance is a paradigm of microevolution, and insecticides are responsible for the strongest cases of recent selection in the genome of Here we use a naïve population and a...
18.
Fournier-Level A, Good R, Wilcox S, Rane R, Schiffer M, Chen W, et al.
Nat Ecol Evol
. 2019 Mar;
3(4):647-656.
PMID: 30886368
Imidacloprid, the world's most used insecticide, has caused considerable controversy due to harmful effects on non-pest species and increasing evidence showing that insecticides have become the primary selective force in...
19.
Battlay P, Leblanc P, Green L, Garud N, Schmidt J, Fournier-Level A, et al.
G3 (Bethesda)
. 2018 Sep;
8(11):3489-3497.
PMID: 30190421
Patterns of nucleotide polymorphism within populations of suggest that insecticides have been the selective agents driving the strongest recent bouts of positive selection. However, there is a need to explicitly...
20.
Schmidt J, Battlay P, Gledhill-Smith R, Good R, Lumb C, Fournier-Level A, et al.
Genetics
. 2017 Sep;
207(3):1181-1193.
PMID: 28935691
Insecticide resistance is considered a classic model of microevolution, where a strong selective agent is applied to a large natural population, resulting in a change in frequency of alleles that...