Literature DB >> 29634279

The Toxicogenome of Hyalella azteca: A Model for Sediment Ecotoxicology and Evolutionary Toxicology.

Helen C Poynton1, Simone Hasenbein2, Joshua B Benoit3, Maria S Sepulveda4, Monica F Poelchau5, Daniel S T Hughes6, Shwetha C Murali6, Shuai Chen4,7, Karl M Glastad8, Michael A D Goodisman9, John H Werren10, Joseph H Vineis11, Jennifer L Bowen11, Markus Friedrich12, Jeffery Jones12, Hugh M Robertson13, René Feyereisen14, Alexandra Mechler-Hickson15, Nicholas Mathers15, Carol Eunmi Lee15, John K Colbourne16, Adam Biales17, J Spencer Johnston18, Gary A Wellborn19, Andrew J Rosendale3, Andrew G Cridge20, Monica C Munoz-Torres21, Peter A Bain22, Austin R Manny23, Kaley M Major1, Faith N Lambert24, Chris D Vulpe24, Padrig Tuck1, Bonnie J Blalock1, Yu-Yu Lin25, Mark E Smith26, Hugo Ochoa-Acuña4, Mei-Ju May Chen25, Christopher P Childers5, Jiaxin Qu6, Shannon Dugan6, Sandra L Lee6, Hsu Chao6, Huyen Dinh6, Yi Han6, HarshaVardhan Doddapaneni6, Kim C Worley6,27, Donna M Muzny6, Richard A Gibbs6, Stephen Richards6.   

Abstract

Hyalella azteca is a cryptic species complex of epibenthic amphipods of interest to ecotoxicology and evolutionary biology. It is the primary crustacean used in North America for sediment toxicity testing and an emerging model for molecular ecotoxicology. To provide molecular resources for sediment quality assessments and evolutionary studies, we sequenced, assembled, and annotated the genome of the H. azteca U.S. Lab Strain. The genome quality and completeness is comparable with other ecotoxicological model species. Through targeted investigation and use of gene expression data sets of H. azteca exposed to pesticides, metals, and other emerging contaminants, we annotated and characterized the major gene families involved in sequestration, detoxification, oxidative stress, and toxicant response. Our results revealed gene loss related to light sensing, but a large expansion in chemoreceptors, likely underlying sensory shifts necessary in their low light habitats. Gene family expansions were also noted for cytochrome P450 genes, cuticle proteins, ion transporters, and include recent gene duplications in the metal sequestration protein, metallothionein. Mapping of differentially expressed transcripts to the genome significantly increased the ability to functionally annotate toxicant responsive genes. The H. azteca genome will greatly facilitate development of genomic tools for environmental assessments and promote an understanding of how evolution shapes toxicological pathways with implications for environmental and human health.

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Year:  2018        PMID: 29634279      PMCID: PMC6091588          DOI: 10.1021/acs.est.8b00837

Source DB:  PubMed          Journal:  Environ Sci Technol        ISSN: 0013-936X            Impact factor:   9.028


  108 in total

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10.  Multiple origins of pyrethroid insecticide resistance across the species complex of a nontarget aquatic crustacean, Hyalella azteca.

Authors:  Donald P Weston; Helen C Poynton; Gary A Wellborn; Michael J Lydy; Bonnie J Blalock; Maria S Sepulveda; John K Colbourne
Journal:  Proc Natl Acad Sci U S A       Date:  2013-09-24       Impact factor: 11.205
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