PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 25030724-4 2014 On March 16(th), 2011, radioiodine and radioactive cesium were detected at levels of 177 Bq/kg and 58 Bq/kg, respectively, in tap water in Fukushima city (about 62km northwest of TEPCO F-1 NPP). Iodine-131 23-34 nuclear RNA export factor 1 Homo sapiens 126-129 28260731-1 2017 As a result of the nuclear accident at the Fukushima Daiichi nuclear power station (FDNPS) after the Great East Japan Earthquake on March 11, 2011, volatile radionuclides including iodine-131 were released into the environment and contaminated open-field vegetables, raw milk, tap water, etc. Iodine-131 181-191 nuclear RNA export factor 1 Homo sapiens 277-280 26198990-2 2015 In this work, the I-131 concentrations in breast milk from nursing mothers in Ibaraki prefecture were calculated based on the iodine biokinetic model during lactation together with time-variable intake scenarios by inhalation of ambient air and ingestion of tap water, using the authors" code. Iodine-131 18-23 nuclear RNA export factor 1 Homo sapiens 258-261 25030724-5 2014 On March 20th, radioiodine was detected in tap water at a level of 965 Bq/kg, which is over the value-index of restrictions on food and drink intake (radioiodine 300 Bq/kg (infant intake 100 Bq/kg)) designated by the Nuclear Safety Commission. Iodine-131 15-26 nuclear RNA export factor 1 Homo sapiens 43-46 21700315-0 2011 Can we remove iodine-131 from tap water in Japan by boiling? Iodine-131 14-24 nuclear RNA export factor 1 Homo sapiens 30-33 29618130-3 2018 As the number of measured values of tap water following the accident was limited, 131I concentration in tap water was estimated by 1-compartment model using the deposition amount of radionuclides calculated by an atmospheric transport, dispersion and deposition simulation. Iodine-131 82-86 nuclear RNA export factor 1 Homo sapiens 104-107