@article{oai:repo.qst.go.jp:00055996,
 author = {F., Spitta L. and Baumstark-Khan, C. and Diegeler, S. and Feles, S. and E., Hellweg C. and Weiß, M. and Konishi, T. and 小西 輝昭},
 journal = {平成27 年度放射線医学総合研究所 重粒子線がん治療装置等 共同利用研究報告書},
 month = {Sep},
 note = {There are two limiting factors for humans in space, namely microgravity and galactic cosmic radiation. For sake of improved risk assessment for astronauts, the cellular response to such ionizing radiation qualities that predominate in space (high linear energy transfer, LET) needs to be better understood. One of the key elements to be investigated is cell cycle control. It acts as a central element in DNA damage response as a switch for cellular decision making between life and death. Thus, cell death bypass mechanisms in DNA damage response of mammalian cells will be investigated after heavy ion exposure relevant for the space radiation environment. The dependency of relative biological effectiveness (RBE) on LET will be determined for different biological endpoints: cellular survival, the activation of transcription factors, identification of genes expressed in DNA damage response.},
 pages = {122--123},
 title = {Cell death bypass mechanisms in DNA damage response of mammalian cells after exposure with heavy ions relevant for space radiation environment (13-J399)},
 volume = {HIMAC-144},
 year = {2016}
}