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21.
Badie, C.* et al.: Transcriptomic and proteomic analysis of mouse radiation-induced Acute Myeloid Leukaemia (AML). Oncotarget 7, 40461-40480 (2016)
22.
Bakshi, M.V. et al.: In-utero low-dose irradiation leads to persistent alterations in the mouse heart proteome. PLoS ONE 11:e0156952 (2016)
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Casciati, A.* et al.: Age-related effects of X-ray irradiation on mouse hippocampus. Oncotarget 7, 28040-28058 (2016)
24.
Hladik, D. & Tapio, S.: Effects of ionizing radiation on the mammalian brain. Mutat. Res.- Rev. Mutat. Res. 770, 219-230 (2016)
25.
Karapiperis, C.* et al.: Brain Radiation Information Data Exchange (BRIDE): Integration of experimental data from low-dose ionising radiation research for pathway discovery. BMC Bioinformatics 17:212 (2016)
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Kempf, S.J. et al.: Long-term consequences of in utero irradiated mice indicate proteomic changes in synaptic plasticity related signalling. Proteome Sci. 13:26 (2016)
27.
Kempf, S.J. et al.: Chronic low-dose-rate ionising radiation affects the hippocampal phosphoproteome in the ApoE-/- Alzheimer's mouse model. Oncotarget 7, 71817-71832 (2016)
28.
Tapio, S.: Developing an understanding of biological damage mechanisms. Int. Innov., DOI: undefined (2016)
29.
Tapio, S.: Pathology and biology of radiation-induced cardiac disease. J. Radiat. Res. 57, 439-448 (2016)
30.
Azimzadeh, O. et al.: Integrative proteomics and targeted transcriptomics analyses in cardiac endothelial cells unravel mechanisms of long-term radiation-induced vascular dysfunction. J. Proteome Res. 14, 1203-1219 (2015)
31.
Azimzadeh, O. ; Atkinson, M.J. & Tapio, S.: Qualitative and quantitative proteomic analysis of Formalin-Fixed Paraffin-Embedded (FFPE) tissue. Methods Mol. Biol. 1295, 109-115 (2015)
32.
Bakshi, M.V. et al.: Total body exposure to low-dose ionizing radiation induces long-term alterations to the liver proteome of neonatally exposed mice. J. Proteome Res. 14, 366-373 (2015)
33.
Barjaktarovic, Z. et al.: Ionizing radiation induces immediate protein acetylation changes in human cardiac microvascular endothelial cells. J. Radiat. Res. 56, 623-632 (2015)
34.
Kempf, S.J. et al.: Low-dose ionizing radiation rapidly affects mitochondrial and synaptic signaling pathways in murine hippocampus and cortex. J. Proteome Res. 14, 2055-2064 (2015)
35.
Kempf, S.J. et al.: Neonatal irradiation leads to persistent proteome alterations involved in synaptic plasticity in the mouse hippocampus and cortex. J. Proteome Res. 14, 4674-4686 (2015)
36.
Kreuzer, M.* et al.: Low-dose ionising radiation and cardiovascular diseases – strategies for molecular epidemiological studies in Europe. Mutat. Res.- Rev. Mutat. Res. 764, 90-100 (2015)
37.
Mancuso, M.* et al.: Acceleration of atherogenesis in ApoE-/- mice exposed to acute or low-dose-rate ionizing radiation. Oncotarget 6, 31263-31271 (2015)
38.
Sievert, W. et al.: Late proliferating and inflammatory effects on murine microvascular heart and lung endothelial cells after irradiation. Radiother. Oncol. 117, 376-381 (2015)
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Skiöld, S.* et al.: Unique proteomic signature for radiation sensitive patients: A comparative study between normo-sensitive and radiation sensitive breast cancer patients. Mutat. Res. -Fund. Mol. Mech. Mutag. 776, 128-135 (2015)
40.
Yentrapalli, R. et al.: Quantitative and integrated proteome and microRNA analysis of endothelial replicative senescence. J. Proteomics 126, 12-23 (2015)