The soybean aphid,Aphis glycines,is an extreme specialist and an important invasive pest that relies on olfaction for behaviors such as feeding,mating,and foraging.Odorant-binding proteins (OBPs) play a vital role in olfaction by binding to volatile compounds and by regulating insect sensing of the environment.In this work we used rapid amplification of complementary DNA ends technology to identify and characterize 10 genes encoding A.glycines OBPs (AglyOBPs) belonging to 3 subfamilies,including 4 classic OBPs,5 Plus-C OBPs,and one Minus-C OBP.Quantitative real-time polymerase chain reaction demonstrated variable specific expression patterns for the 10 genes based on developmental stage and aphid tissue sampled.Expression levels of 7 AglyOBPs (2,3,4,5,7,9,and 10) were highest in the 4th instar,indicating that the 4th nymphal instar is an important developmental period during which soybean aphids regulate feeding and search for host plants.Tissue-specific expression results demonstrated that AglyOBP2,7,and 9 exhibited significantly higher expression levels in antennae.Meanwhile,ligand-binding analysis of 5OBPs demonstrated binding of AglyOBP2 and AglyOBP3 to a broad spectrum of volatiles released by green leaf plants,with bias toward 6-to 8-carbon chain volatiles and strong binding of AglyOBP7 to trans-β-farnesene.Taken together,our findings build a foundation of knowledge for use in the study of molecular olfaction mechanisms and provide insights to guide future soybean aphid research.