Abstract
Buchnera aphidicola, an obligate endosymbiont of most aphid species, can influence aphids' host adaptability through amino acid metabolism, potentially mediating biotype differentiation. However, its role in the biotype differentiation of Sitobion avenae remains unclear. To address this issue, six S. avenae biotypes were tested in this study. Buchnera abundance varied among biotypes fed on different wheat/barley varieties (i.e., Zhong 4 wumang, 186-TM12-34; Dulihuang, Zaoshu No.3, Xiyin No.2). The reduction in Buchnera abundance through antibiotic (rifampicin) treatment altered the virulence of five S. avenae biotypes. Based on transcriptome analysis, the differential expression of three genes (i.e., LeuB, TrpE, and IlvD) related to leucine, tryptophan, isoleucine, and valine metabolism was detected between different biotypes. Principal component analysis showed that leucine and tryptophan deficiencies most significantly impacted nymph development duration and aphid fecundity. Additionally, a neighbor-joining phylogenetic tree indicated the genetic differentiation of Buchnera among different biotypes. These results suggest Buchnera-mediated amino acid metabolism is correlated with biotype differentiation in S. avenae, although the precise mechanisms by which Buchnera influences this differentiation require further investigation. This study can offer a theoretical basis for the development of resistant crops, leading to the sustainable control of this aphid and reduced reliance on chemical insecticides.