Atrazine exposure can dysregulate the immune system and increase the susceptibility against pathogens in honeybees in a dose-dependent manner.

[1]  C. M.,et al.  A review of modeling pesticides in freshwaters: Current status, progress achieved and desirable improvements. , 2022, Environmental pollution.

[2]  A. Weidenmüller,et al.  Glyphosate impairs collective thermoregulation in bumblebees , 2022, Science.

[3]  Zheguang Lin,et al.  Effect of carbendazim on honey bee health: Assessment of survival, pollen consumption, and gut microbiome composition. , 2022, Ecotoxicology and environmental safety.

[4]  D. Goulson,et al.  Anthropogenic influences on bee foraging , 2022, Science.

[5]  E. K. Eskov,et al.  Damage to the Intestinal Medium of Honey Bees with Nosema , 2022, Cell and Tissue Biology.

[6]  A. Fisher,et al.  The active ingredients of a mitotoxic fungicide negatively affect pollen consumption and worker survival in laboratory-reared honey bees (Apis mellifera). , 2021, Ecotoxicology and environmental safety.

[7]  H. Sadeghnia,et al.  Atrazine neural and reproductive toxicity , 2021, Toxin Reviews.

[8]  U. Sauer,et al.  Niche partitioning facilitates coexistence of closely related honey bee gut bacteria , 2021, eLife.

[9]  Wenlin Chen,et al.  Assessment of risks to listed species from the use of atrazine in the USA: a perspective , 2021, Journal of toxicology and environmental health. Part B, Critical reviews.

[10]  Geoffrey R. Williams,et al.  Long-term field-realistic exposure to a next-generation pesticide, flupyradifurone, impairs honey bee behaviour and survival , 2021, Communications Biology.

[11]  Shangqian Wang,et al.  Meta-analysis and experimental validation identified atrazine as a toxicant in the male reproductive system , 2021, Environmental Science and Pollution Research.

[12]  M. O'Donnell,et al.  Mechanisms of Nitrogen Excretion in Insects. , 2021, Current opinion in insect science.

[13]  Maohua Chen,et al.  Characterization of Rhopalosiphum padi takeout-like genes and their role in insecticide susceptibility. , 2020, Pesticide biochemistry and physiology.

[14]  OUP accepted manuscript , 2021, FEMS Microbiology Reviews.

[15]  Kang Wang,et al.  Carbendazim exposure during the larval stage suppresses major royal jelly protein expression in nurse bees (Apis mellifera). , 2020, Chemosphere.

[16]  B. Neov,et al.  Factors Associated with Honey Bee Colony Losses: A Mini-Review , 2020, Veterinary sciences.

[17]  A. James,et al.  The Lethal(2)-Essential-for-Life [L(2)EFL] Gene Family Modulates Dengue Virus Infection in Aedes aegypti , 2020, International journal of molecular sciences.

[18]  E. Silva-Zacarin,et al.  Silent effect of the fungicide pyraclostrobin on the larval exposure of the non-target organism Africanized Apis mellifera and its interaction with the pathogen Nosema ceranae in adulthood. , 2020, Environmental pollution.

[19]  T. A. Guedes,et al.  Toxicity and genetic analysis of bees Scaptotrigona bipunctata after contamination with insecticide accephate , 2020 .

[20]  A. Gentile,et al.  Meta-analysis reveals declines in terrestrial but increases in freshwater insect abundances , 2020, Science.

[21]  Xiaoxu Fan,et al.  Effects of the long-term application of atrazine on soil enzyme activity and bacterial community structure in farmlands in China. , 2020, Environmental pollution.

[22]  K. Solomon,et al.  Effects of atrazine on fish, amphibians, and reptiles: update of the analysis based on quantitative weight of evidence , 2019, Critical reviews in toxicology.

[23]  Y. Ge,et al.  Thiacloprid exposure perturbs the gut microbiota and reduces the survival status in honeybees. , 2019, Journal of hazardous materials.

[24]  Lizhen Zhu,et al.  Nitenpyram disturbs gut microbiota and influences metabolic homeostasis and immunity in honey bee (Apis mellifera L.). , 2019, Environmental pollution.

[25]  S. Tringe,et al.  Division of labor in honey bee gut microbiota for plant polysaccharide digestion , 2019, Proceedings of the National Academy of Sciences.

[26]  Rongmei Liu,et al.  Transcriptome profiling analysis of the intoxication response in midgut tissue of Agrotis ipsilon larvae to Bacillus thuringiensis Vip3Aa protoxin. , 2019, Pesticide biochemistry and physiology.

[27]  Steven L Salzberg,et al.  Graph-based genome alignment and genotyping with HISAT2 and HISAT-genotype , 2019, Nature Biotechnology.

[28]  P. Engel,et al.  Gut microbiota structure differs between honeybees in winter and summer , 2019, The ISME Journal.

[29]  S. Sauvé,et al.  Quality survey and spatiotemporal variations of atrazine and desethylatrazine in drinking water in Quebec, Canada. , 2019, The Science of the total environment.

[30]  Xiwu Gao,et al.  Differential expression of genes in greenbug (Schizaphis graminum Rondani) treated by imidacloprid and RNA interference. , 2019, Pest management science.

[31]  J. Giesy,et al.  Cellular alterations in midgut cells of honey bee workers (Apis millefera L.) exposed to sublethal concentrations of CdO or PbO nanoparticles or their binary mixture. , 2019, The Science of the total environment.

[32]  Guohong Chen,et al.  Transcriptome Analysis of Newly Emerged Honeybees Exposure to Sublethal Carbendazim During Larval Stage , 2018, Front. Genet..

[33]  N. Moran,et al.  Glyphosate perturbs the gut microbiota of honey bees , 2018, Proceedings of the National Academy of Sciences.

[34]  P. Bork,et al.  Gut microbiota composition is associated with environmental landscape in honey bees , 2017, Ecology and evolution.

[35]  A. Chauhan,et al.  Toxicity, degradation and analysis of the herbicide atrazine , 2018, Environmental Chemistry Letters.

[36]  K. Lu,et al.  Gene expression changes in honey bees induced by sublethal imidacloprid exposure during the larval stage. , 2017, Insect biochemistry and molecular biology.

[37]  K. Hartfelder,et al.  Methyl farnesoate epoxidase (mfe) gene expression and juvenile hormone titers in the life cycle of a highly eusocial stingless bee, Melipona scutellaris. , 2017, Journal of insect physiology.

[38]  U. Sauer,et al.  Disentangling metabolic functions of bacteria in the honey bee gut , 2017, bioRxiv.

[39]  Lee Ann McCue,et al.  FQC Dashboard: integrates FastQC results into a web-based, interactive, and extensible FASTQ quality control tool , 2017, Bioinform..

[40]  N. Moran,et al.  Honeybee gut microbiota promotes host weight gain via bacterial metabolism and hormonal signaling , 2017, Proceedings of the National Academy of Sciences.

[41]  Xiaofan Zhou,et al.  Differential expression of chemosensory-protein genes in midguts in response to diet of Spodoptera litura , 2017, Scientific Reports.

[42]  N. Moran,et al.  Antibiotic exposure perturbs the gut microbiota and elevates mortality in honeybees , 2017, PLoS biology.

[43]  Ben Nichols,et al.  VSEARCH: a versatile open source tool for metagenomics , 2016, PeerJ.

[44]  sarah-rose marcus,et al.  Atrazine exposure affects longevity, development time and body size in Drosophila melanogaster. , 2016, Journal of insect physiology.

[45]  S. Soltanian Effect of atrazine on immunocompetence of red-eared slider turtle(Trachemys scripta) , 2016, Journal of immunotoxicology.

[46]  N. Moran,et al.  Gut microbial communities of social bees , 2016, Nature Reviews Microbiology.

[47]  J. A. Stallins,et al.  Honey Bees and Colony Collapse Disorder: A Pluralistic Reframing: Honey Bees and Colony Collapse Disorder , 2016 .

[48]  M. Berenbaum,et al.  Xenobiotic detoxification pathways in honey bees. , 2015, Current opinion in insect science.

[49]  Erin Jo Tiedeken,et al.  Bees prefer foods containing neonicotinoid pesticides , 2015, Nature.

[50]  L. Sirot,et al.  Effects of atrazine exposure on male reproductive performance in Drosophila melanogaster. , 2015, Journal of insect physiology.

[51]  M. Boily,et al.  Effects of realistic doses of atrazine, metolachlor, and glyphosate on lipid peroxidation and diet-derived antioxidants in caged honey bees (Apis mellifera) , 2015, Environmental Science and Pollution Research.

[52]  J. Frazier,et al.  Genomic analysis of the interaction between pesticide exposure and nutrition in honey bees (Apis mellifera). , 2014, Journal of insect physiology.

[53]  Wei Guo,et al.  Identification and Molecular Characterization of a Chitin-Binding Protein from the Beet Webworm, Loxostege sticticalis L. , 2014, International journal of molecular sciences.

[54]  A. Vasquez,et al.  Lactobacillus apinorum sp. nov., Lactobacillus mellifer sp. nov., Lactobacillus mellis sp. nov., Lactobacillus melliventris sp. nov., Lactobacillus kimbladii sp. nov., Lactobacillus helsingborgensis sp. nov. and Lactobacillus kullabergensis sp. nov., isolated from the honey stomach of the honeybee A , 2014, International journal of systematic and evolutionary microbiology.

[55]  I. Valterová,et al.  Lactobacillus bombi sp. nov., from the digestive tract of laboratory-reared bumblebee queens (Bombus terrestris). , 2014, International journal of systematic and evolutionary microbiology.

[56]  P. Rosenkranz,et al.  Putative orthologues of genetically identified Drosophila melanogaster chitin producing and organising genes in Apis mellifera , 2014, Apidologie.

[57]  R. Menzel,et al.  Neonicotinoids Interfere with Specific Components of Navigation in Honeybees , 2014, PloS one.

[58]  J. Liu,et al.  Cantharidin Impedes Activity of Glutathione S-Transferase in the Midgut of Helicoverpa armigera Hübner , 2013, International journal of molecular sciences.

[59]  M. Boily,et al.  Acetylcholinesterase in honey bees (Apis mellifera) exposed to neonicotinoids, atrazine and glyphosate: laboratory and field experiments , 2013, Environmental Science and Pollution Research.

[60]  E. Yang,et al.  Impaired Olfactory Associative Behavior of Honeybee Workers Due to Contamination of Imidacloprid in the Larval Stage , 2012, PloS one.

[61]  Richard J. Gill,et al.  Combined pesticide exposure severely affects individual- and colony-level traits in bees , 2012, Nature.

[62]  B. Henrissat,et al.  Bifidobacterium asteroides PRL2011 Genome Analysis Reveals Clues for Colonization of the Insect Gut , 2012, PloS one.

[63]  D. vanEngelsdorp,et al.  Pathogen Webs in Collapsing Honey Bee Colonies , 2012, PloS one.

[64]  Xin Chen,et al.  Transcriptional regulation during Drosophila spermatogenesis , 2012, Spermatogenesis.

[65]  N. Moran,et al.  Functional diversity within the simple gut microbiota of the honey bee , 2012, Proceedings of the National Academy of Sciences.

[66]  Mickaël Henry,et al.  A Common Pesticide Decreases Foraging Success and Survival in Honey Bees , 2012, Science.

[67]  D. Goulson,et al.  Neonicotinoid Pesticide Reduces Bumble Bee Colony Growth and Queen Production , 2012, Science.

[68]  D. M. Soderlund Molecular mechanisms of pyrethroid insecticide neurotoxicity: recent advances , 2012, Archives of Toxicology.

[69]  Y. Nomura,et al.  A sodium channel mutation identified in Aedes aegypti selectively reduces cockroach sodium channel sensitivity to type I, but not type II pyrethroids. , 2011, Insect biochemistry and molecular biology.

[70]  T. Hayes,et al.  Atrazine induces complete feminization and chemical castration in male African clawed frogs (Xenopus laevis) , 2010, Proceedings of the National Academy of Sciences.

[71]  M. A. Mandal,et al.  Retinol dehydrogenase 12 detoxifies 4-hydroxynonenal in photoreceptor cells. , 2010, Free radical biology & medicine.

[72]  J. Finnerty,et al.  A conserved cluster of three PRD-class homeobox genes (homeobrain, rx and orthopedia) in the Cnidaria and Protostomia , 2010, EvoDevo.

[73]  R. Beeman,et al.  Domain organization and phylogenetic analysis of proteins from the chitin deacetylase gene family of Tribolium castaneum and three other species of insects. , 2008, Insect biochemistry and molecular biology.

[74]  Jay D. Evans,et al.  A Metagenomic Survey of Microbes in Honey Bee Colony Collapse Disorder , 2007, Science.

[75]  Mark A J Huijbregts,et al.  PestScreen: a screening approach for scoring and ranking pesticides by their environmental and toxicological concern. , 2007, Environment international.

[76]  G. C. Cutler,et al.  Exposure to Clothianidin Seed-Treated Canola Has No Long-Term Impact on Honey Bees , 2007, Journal of economic entomology.

[77]  T. Satoh,et al.  Response of the Microaerophilic Bifidobacterium Species, B. boum and B. thermophilum, to Oxygen , 2006, Applied and Environmental Microbiology.

[78]  Jennifer Bethsass,et al.  European Union Bans Atrazine, While the United States Negotiates Continued Use , 2006, International journal of occupational and environmental health.

[79]  James H. Thomas,et al.  Fluoxetine-Resistance Genes in Caenorhabditis elegans Function in the Intestine and May Act in Drug Transport , 2006, Genetics.

[80]  W. Guo,et al.  A novel chitin-binding protein identified from the peritrophic membrane of the cabbage looper, Trichoplusia ni. , 2005, Insect biochemistry and molecular biology.

[81]  G. Theophilidis,et al.  Triazines facilitate neurotransmitter release of synaptic terminals located in hearts of frog (Rana ridibunda) and honeybee (Apis mellifera) and in the ventral nerve cord of a beetle (Tenebrio molitor). , 2003, Comparative biochemistry and physiology. Toxicology & pharmacology : CBP.

[82]  J. Angerer,et al.  Current internal exposure to pesticides in children and adolescents in Germany: blood plasma levels of pentachlorophenol (PCP), lindane (gamma-HCH), and dichloro(diphenyl)ethylene (DDE), a biostable metabolite of dichloro(diphenyl)trichloroethane (DDT). , 2003, International journal of hygiene and environmental health.

[83]  M. Lehane Peritrophic matrix structure and function. , 1997, Annual review of entomology.

[84]  T. Narahashi Effects of Insecticides on Nervous Conduction and Synaptic Transmission , 1976 .