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41.
Kempf, S.J. et al.: Ionising radiation immediately impairs synaptic plasticity-associated cytoskeletal signalling pathways in HT22 cells and in mouse brain: An in vitro/in vivo comparison study. PLoS ONE 9:e110464 (2014)
42.
Kempf, S.J. et al.: The cognitive defects of neonatally irradiated mice are accompanied by changed synaptic plasticity, adult neurogenesis and neuroinflammation. Mol. Neurodegener. 9:57 (2014)
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Sievert, W. et al.: Adhesion molecule expression and function of primary endothelial cells in benign and malignant tissues correlates with proliferation. PLoS ONE 9:e91808 (2014)
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Sriharshan, A. ; Azimzadeh, O. ; Caldwell, R.B. & Tapio, S.: Proteomic strategies: SILAC and 2D-DIGE - powerful tool to investigate cellular alterations. Methods Mol. Biol. 1101, 369-392 (2014)
45.
Sriharshan, A. ; Krämer, A. ; Atkinson, M.J. ; Mörtl, S. & Tapio, S.: Radiation-induced crosstalk between microRNAs and proteins of the endothelium: In silico analysis. J. Proteomics Bioinf. 7, 327-331 (2014)
46.
Azimzadeh, O. et al.: PPAR alpha: A novel radiation target in locally exposed Mus musculus heart revealed by quantitative proteomics. J. Proteome Res. 12, 2700-2714 (2013)
47.
Azimzadeh, O. ; Atkinson, M.J. & Tapio, S.: Proteomics in radiation research: Present status and future perspectives. Radiat. Environ. Biophys. 53, 31-38 (2013)
48.
Bakshi, M.V. et al.: Long-term effects of acute low-dose ionizing radiation on the neonatal mouse heart: A proteomic study. Radiat. Environ. Biophys. 52, 451-461 (2013)
49.
Barjaktarovic, Z. et al.: Integrative proteomic and microRNA analysis of primary human coronary artery endothelial cells exposed to low-dose gamma radiation. Radiat. Environ. Biophys. 52, 87-98 (2013)
50.
Barjaktarovic, Z. et al.: Ionising radiation induces persistent alterations in the cardiac mitochondrial function of C57BL/6 mice 40 weeks after local heart exposure. Radiother. Oncol. 106, 404-410 (2013)
51.
Kempf, S.J. ; Azimzadeh, O. ; Atkinson, M.J. & Tapio, S.: Long-term effects of ionising radiation on the brain: Cause for concern? Radiat. Environ. Biophys. 52, 5-16 (2013)
52.
Kraemer, A. et al.: Cell survival following radiation exposure requires miR-525-3p mediated suppression of ARRB1 and TXN1. PLoS ONE 8:e77484 (2013)
53.
Little, M.P.* et al.: Comment on "Dose-responses from multi-model inference for the non-cancer disease mortality of atomic bomb survivors" (Radiat. Environ. Biophys (2012) 51:165-178) by Schöllnberger et al. Radiat. Environ. Biophys. 52, 157-159 (2013)
54.
Tapio, S.: Ionizing radiation effects on cells, organelles and tissues on proteome level. Adv. Exp. Med. Biol. 990, 37-48 (2013)
55.
Yentrapalli, R. et al.: Quantitative proteomic analysis reveals induction of premature senescence in human umbilical vein endothelial cells exposed to chronic low-dose rate gamma radiation. Proteomics 13, 1096-1107 (2013)
56.
Yentrapalli, R. et al.: The PI3K/Akt/mTOR pathway is implicated in the premature senescence of primary human endothelial cells exposed to chronic radiation. PLoS ONE 8:e70024 (2013)
57.
Azimzadeh, O. et al.: Label-free protein profiling of formalin-fixed paraffin-embedded (FFPE) heart tissue reveals immediate mitochondrial impairment after ionising radiation. J. Proteomics 75, 2384-2395 (2012)
58.
Little, M.P.* et al.: Systematic review and meta-analysis of circulatory disease from exposure to low-level ionizing radiation and estimates of potential population mortality risks. Environ. Health Perspect. 120, 1503-1511 (2012)
59.
Ludyga, N. et al.: Nucleic acids from long-term preserved FFPE tissues are suitable for downstream analyses. Virchows Arch. 460, 131-140 (2012)
60.
Pernot, E.* et al.: Ionizing radiation biomarkers for potential use in epidemiological studies. Mutat. Res.- Rev. Mutat. Res. 751, 258-286 (2012)