| Autor: |
Jin, Minghui, Liu, Bo, Zheng, Weigang, Liu, Conghui, Liu, Zhenxing, He, Yuan, Li, Xiaokang, Wu, Chao, Wang, Ping, Liu, Kaiyu, Wu, Shigang, Liu, Hangwei, Chakrabarty, Swapan, Yuan, Haibin, Wilson, Kenneth, Wu, Kongming, Fan, Wei, Xiao, Yutao |
| Rok vydání: |
2023 |
| DOI: |
10.6084/m9.figshare.22613080 |
| Popis: |
Additional file 2: Fig. S1. Life cycle of Agrotis ipsilon and crop damage. Fig. S2. Distribution of 17-mer frequency in Agrotis ipsilon. Fig. S3. Chromosomes of Agrotis ipsilon in cell of testis from fifth instar larvae. Thirty-one pairs (2n = 62) were present at diakinesis during meiosis. Fig. S4. Venn plot of gene function in five databases in Agrotis ipsilon. Fig. S5. Dot plots of syntenic orthologous between A. ipsilon and S. litura. Fig. S6. KEGG analysis of rapidly expanded gene families in Agrostis ipsilon. Fig. S7. Expression profiles of P450 genes in different tissues and developmental stages of Agrostis ipsilon. Fig. S8. Distribution of P450 genes on the chromosomes of A. ipsilon. Fig. S9. Expression profiles of GST genes in different tissues and developmental stages of Agrostis ipsilon. Fig. S10. Distribution of GST genes on the chromosomes of Agrostis ipsilon. Fig. S11. The expression level of pigment-dispersing factor (PDF) in heads of migrating moths and tethered-flight moths. Fig. S12. The expression level of JH signaling pathway genes, Broad and Kr-h1, in different tissues of migrating moths and tethered-flight moths (*p < 0.05, **p < 0.01). Fig. S13. RNA-seq of tethered-flight. Fig. S14. GSEA after different durations of tethered-flight moths of Agrostis ipsilon. Fig. S15. Trend analysis of DEGs after different durations of tethered flight. Fig. S16. GSEA analysis of southward and northward migrating moths. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
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