Long-Term Pathway Activation in Cardiac Ventricular Tissues Following Gamma and simGCRsim Irradiation. Additional Data.

This dataset contains additional/supplementary figures and tables associated with the manuscript entitled "Long-Term Pathway Activation in Cardiac Ventricular Tissues Following Gamma and simGCRsim Irradiation." to be submitted to Radiation Research journal (https://meridian.allenpress.com/radiation-research). The contents of the dataset are the following: 01.Additional_TableS1.xlsx - Additional Table S1. Sample-wise RNA sequencing QC statistics. _____________________________________________________________________________________________________ 02.Additional_TablesS2-S9.xlsx - Additional Tables S1-S9: Additional Table S1. Differential deregulation analysis of log₂PSF values in LV tissue of males: Gamma-IR vs. Sham group.  Additional Table S2. Differential deregulation analysis of log₂PSF values in LV tissue of males: simGCRsim-IR vs. Sham group.  Additional Table S3. Differential deregulation analysis of log₂PSF values in LV tissue of females: Gamma-IR vs. Sham group.  Additional Table S4. Differential deregulation analysis of log₂PSF values in LV tissue of females: simGCRsim-IR vs. Sham group.  Additional Table S5. Differential deregulation analysis of log₂PSF values in RV tissue of males: Gamma-IR vs. Sham group.  Additional Table S6. Differential deregulation analysis of log₂PSF values in RV tissue of males: simGCRsim-IR vs. Sham group.  Additional Table S7. Differential deregulation analysis of log₂PSF values in RV tissue of females: Gamma-IR vs. Sham group.  Additional Table S8. Differential deregulation analysis of log₂PSF values in RV tissue of females: simGCRsim-IR vs. Sham group.  _____________________________________________________________________________________________________ 03.Additional_Figures.pdf - Additional Figures S1-S34:  Figure S1. Pathway activity perturbations in the KEGG Cell cycle pathway in LV tissue of female animals in response to Gamma-IR. Figure S2. Pathway activity perturbations in the KEGG Chemokine signaling pathway in LV tissue of female animals in response to simGCRsim-IR. Figure S3. Pathway activity perturbations in the KEGG Fc gamma R-mediated phagocytosis pathway in LV tissue of female animals in response to simGCRsim-IR.  Figure S4. Pathway activity perturbations in the KEGG Complement and coagulation cascades pathway in LV tissue of female animals in response to simGCRsim-IR. Figure S5. Pathway activity perturbations in the KEGG Fc epsilon RI signaling pathway in LV tissue of female animals in response to simGCRsim-IR.  Figure S6. Pathway activity perturbations in the KEGG B cell receptor signaling pathway in LV tissue of female animals in response to simGCRsim-IR.  Figure S7. Pathway activity perturbations in the KEGG TNF signaling pathway in LV tissue of female animals in response to simGCRsim-IR. Figure S8. Pathway activity perturbations in the KEGG VEGF signaling pathway in LV tissue of female animals in response to simGCRsim-IR.  Figure S9. Pathway activity perturbations in the KEGG HIF-1 signaling pathway in LV tissue of female animals in response to simGCRsim-IR. Figure S10. Pathway activity perturbations in the KEGG ERBB signaling pathway in LV tissue of female animals in response to simGCRsim-IR. Figure S11. Pathway activity perturbations in the KEGG RAP1 signaling pathway in LV tissue of female animals in response to simGCRsim-IR. Figure S12. Pathway activity perturbations in the KEGG cGMP-PKG signaling pathway in LV tissue of female animals in response to simGCRsim-IR. Figure S13. Pathway activity perturbations in the KEGG JAK-STAT signaling pathway in LV tissue of female animals in response to simGCRsim-IR.  Figure S14. Pathway activity perturbations in the KEGG PPAR signaling pathway in RV tissue of male animals in response to Gamma-IR.  Figure S15. Pathway activity perturbations in the KEGG Hedgehog signaling pathway in RV tissue of male animals in response to Gamma-IR.  Figure S16. Pathway activity perturbations in the KEGG HIF-1 signaling pathway in RV tissue of male animals in response to Gamma-IR.  Figure S17. Pathway activity perturbations in the KEGG HIF-1 signaling pathway in RV tissue of male animals in response to Gamma-IR.  Figure S18. Pathway activity perturbations in the KEGG cAMP signaling pathway in RV tissue of male animals in response to Gamma-IR.  Figure S19. Pathway activity perturbations in the KEGG TGF-beta signaling pathway in RV tissue of male animals in response to Gamma-IR. Figure S20. Pathway activity perturbations in the KEGG VEGF signaling pathway in RV tissue of male animals in response to Gamma-IR.  Figure S21. Pathway activity perturbations in the KEGG AMPK signaling pathway in RV tissue of male animals in response to Gamma-IR.  Figure S22. Pathway activity perturbations in the KEGG NF-KAPPA B signaling pathway in RV tissue of male animals in response to simGCRsim-IR.  Figure S23. Pathway activity perturbations in the KEGG RAS signaling pathway in RV tissue of male animals in response to simGCRsim-IR.  Figure S24. Pathway activity perturbations in the KEGG VEGF signaling pathway in RV tissue of male animals in response to simGCRsim-IR. Figure S25. Pathway activity perturbations in the KEGG PPAR signaling pathway in RV tissue of male animals in response to simGCRsim-IR.  Figure S26. Pathway activity perturbations in the KEGG HIF-1 signaling pathway in RV tissue of male animals in response to simGCRsim-IR. Figure S27. Pathway activity perturbations in the KEGG cAMP signaling pathway in RV tissue of male animals in response to simGCRsim-IR.  Figure S28. Pathway activity perturbations in the KEGG PI3K-AKT signaling pathway in RV tissue of male animals in response to simGCRsim-IR. Figure S29. Pathway activity perturbations in the KEGG NOD-like signaling pathway in RV tissue of male animals in response to simGCRsim-IR. Figure S30. Pathway activity perturbations in the KEGG Apoptosis pathway in RV tissue of male animals in response to simGCRsim-IR.  Figure S31. Pathway activity perturbations in the KEGG B cell receptor signaling pathway in RV tissue of male animals in response to simGCRsim-IR.  Figure S32. Pathway activity perturbations in the KEGG Endocrine resistance pathway in RV tissue of male animals in response to simGCRsim-IR.  Figure S33. Pathway activity perturbations in the KEGG B cell receptor signaling pathway in RV tissue of male animals in response to simGCRsim-IR. Figure S34. Pathway activity perturbations in the KEGG Hedgehog signaling pathway in RV tissue of male animals in response to simGCRsim-IR.  Figure S35. Pathway activity perturbations in the KEGG Rap1 signaling pathway in RV tissue of male animals in response to simGCRsim-IR.