ted V. javana spe(t = -4.505; p 0.000) and amongst the five Blastophaga taxa (28667; t = -5.408; p 0.000) cies (t = -4.505; p 0.000) and amongst the five Blastophaga taxa (28667; t = -5.408; p (Figure S1a,b; Table 2) in comparison for the remaining species (890864). Among these 0.000) (Figure S1a,b; Table two) in comparison towards the remaining species (890864). Amongst other species, zero to seven REGs have been enriched in GO and zero to five had been enriched in these other species, zero to seven REGs were enriched in GO and zero to 5 have been enKEGG. None of the five connected V. javana species had REGs enriched in GO and only three riched in KEGG. None of your five associated V. javana species had REGs enriched in GO and of them had REGs enriched in KEGG (Supplementary Supplies, Excel S5 and S6): the PEP4 only three of them had REGs enriched in KEGG (Supplementary Materials, Excel S5 and gene in V. javana sp. two; CYP6, ydfG, and USO1 in V. esquirolianae; and ANK in V. javana S6): the PEP4 gene in V. javana sp. 2; CYP6, ydfG, and USO1 in V. esquirolianae; and ANK sp. 1. Among the five taxa of Blastophaga, the numbers of GO- and KEGG-enriched genes in V. javana sp. 1. Among the 5 taxa of Blastophaga, the numbers of GO- and have been 093 and 00, respectively. Most REGs in B. sp.-F. abeli and B. sp.-F. pyriformis enKEGG-enriched genes have been 093 and 00, respectively. Most REGs in B. sp.-F. abeli and riched in GO/KEGG have been connected to carbohydrate and energy metabolism, Bradykinin B1 Receptor (B1R) web environmental B. sp.-F. the ribosome (genetic GO/KEGG processing), to carbohydrate and power meadaptation,pyriformis enriched in informationwere connected and neurodegenerative disease. tabolism, environmental adaptation, the ribosome (genetic data processing), andInsects 2021, 12,13 ofIn addition, 35 REGs had been enriched in GO for B. sp.-F. variolosa and their functions have been connected for the improvement of cells, tissues, and organs. 3.7. Positively Chosen Genes (PSGs) Within the family Agaonidae, we detected 68 PSGs and none of those have been GO- or KEGGenriched (Table 2; Figure S1b and Excels S7 and S8). These PSGs mostly coded for proteins connected to signal transduction (CAMK1, FOXG, GRIN, IRAK4, PLK2, STAT5B, and KCNH8), immune response, antibacterial systems, genetic information processing (transport, translation, transcription, membrane trafficking, replication, and repair), development and regeneration, amino acid metabolism, and power metabolism (Supplementary Components, Excel S9). When creating comparisons at the genus level, we located 7510 (87.8 15.4) genes beneath good choice; of these genes, 03 have been enriched in GO and 0 were enriched in KEGG (Figure S1b and Excels S7 and S8). These genes mostly coded for proteins involved in power metabolism, genetic facts processing, and environmental adaptation. There was a single Macrolide Synonyms common KEGG, genetic information and facts processing, shared among the 3 genera associated with dioecious hosts. In total, the numbers of PSGs were lower than those of REGs for Agaonidae, genera, and species (Table two; Figure S1a,b). In contrast to REGs, the numbers of PSGs were a lot higher among the 5 connected Valisia species (12807 (t = 8.773, p 0.001)) and also the 5 taxa of Blastophaga (22788 (t = 15.227, p 0.001)) compared to those of other species (226) (Table two; Figure S1). The number of GO- and KEGG-enriched PSGs in most species was 0 (Supplementary Materials, Excels S7 and S8). Amongst the 5 connected Valisia species, only the PSGs of V. esquirolianae were enriched
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