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A transcriptomic and proteomic atlas of expression in the Nezara viridula (Heteroptera: Pentatomidae) midgut suggests the compartmentalization of xenobiotic metabolism and nutrient digestion

Shane Denecke, Panagiotis Ioannidis, Benjamin Buer, Aris Ilias, Vassilis Douris, Pantelis Topalis, Ralf Nauen, Sven Geibel, John Vontas

2020BMC Genomics22 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Stink bugs are an emerging threat to crop security in many parts of the globe, but there are few genetic resources available to study their physiology at a molecular level. This is especially true for tissues such as the midgut, which forms the barrier between ingested material and the inside of the body. RESULTS: Here, we focus on the midgut of the southern green stink bug Nezara viridula and use both transcriptomic and proteomic approaches to create an atlas of expression along the four compartments of the anterior-posterior axis. Estimates of the transcriptome completeness were high, which led us to compare our predicted gene set to other related stink bugs and Hemiptera, finding a high number of species-specific genes in N. viridula. To understand midgut function, gene ontology and gene family enrichment analyses were performed for the most highly expressed and specific genes in each midgut compartment. These data suggested a role for the anterior midgut (regions M1-M3) in digestion and xenobiotic metabolism, while the most posterior compartment (M4) was enriched in transmembrane proteins. A more detailed characterization of these findings was undertaken by identifying individual members of the cytochrome P450 superfamily and nutrient transporters thought to absorb amino acids or sugars. CONCLUSIONS: These findings represent an initial step to understand the compartmentalization and physiology of the N. viridula midgut at a genetic level. Future studies will be able to build on this work and explore the molecular physiology of the stink bug midgut.

Topics & Concepts

Nezara viridulaPentatomidaeBiologyMidgutHeteropteraCompartmentalization (fire protection)TranscriptomeProteomicsBotanyGene expressionBiochemistryEnzymeGeneLarvaHemiptera Insect StudiesBeetle Biology and Toxicology StudiesInvertebrate Immune Response Mechanisms