PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27836598-6	2017	Moreover, the application for detecting tap water samples further demonstrates that this AuNP-based assay can be an excellent method used for sensing mercury at very low content in the environment.	Mercury	150-157	nuclear RNA export factor 1	Homo sapiens	40-43	
202896-3	1977	Samples of household tap water showed increased mercury concentrations (median 0.001 micromol/L).	Mercury	48-55	nuclear RNA export factor 1	Homo sapiens	21-24	
22831998-6	2012	The proposed method was applied to the determination of mercury in tap water and river water samples with the recovery in an acceptable range (95.7-105.3%).	Mercury	56-63	nuclear RNA export factor 1	Homo sapiens	67-70	
21813234-2	2011	MP-MCM-41 is an extremely efficient and selective sorbent for the removal of mercury (II) from samples of distilled water doped with heavy metal ions and additionally from more complex matrices including tap and river water.	Mercury	77-84	nuclear RNA export factor 1	Homo sapiens	204-207	
22967539-0	2012	Portable mercury sensor for tap water using surface plasmon resonance of immobilized gold nanorods.	Mercury	9-16	nuclear RNA export factor 1	Homo sapiens	28-31	
22967539-1	2012	The surface plasmon resonance of surface immobilized gold nanorods (Au NRs) was used to quantify mercury in tap water.	Mercury	97-104	nuclear RNA export factor 1	Homo sapiens	108-111	
22967539-5	2012	The possibility to using glass substrates with immobilized Au NRs is a significant step towards the analysis of mercury in tap water flows at this low concentration level.	Mercury	112-119	nuclear RNA export factor 1	Homo sapiens	123-126	
21858316-7	2011	In snow made from unmodified tap water, more than half of the mercury present in the snowpack was recovered from the bottom of the snow vessel after all of the snow had melted.	Mercury	62-69	nuclear RNA export factor 1	Homo sapiens	29-32	
17723743-0	2006	Separation and determination of trace amounts of zinc, lead, cadmium and mercury in tap and Qaroun lake water using polyurethane foam functionalized with 4-hydroxytoluene and 4-hydroxyacetophenone.	Mercury	73-80	nuclear RNA export factor 1	Homo sapiens	84-87	
21787604-2	2010	From the results of the study, the hazard quotient for oral ingestion of mercury in tap water in Obuasi is 7.4 and 15 respectively via both central tendency exposure (CTE) and reasonable maximum exposure (RME) parameters, respectively.	Mercury	73-80	nuclear RNA export factor 1	Homo sapiens	84-87	
19233554-6	2009	The method was successfully applied to the determination of mercury in river, sea, mineral and tap water samples and a certified reference material (CRM).	Mercury	60-67	nuclear RNA export factor 1	Homo sapiens	95-98	
12904947-8	2003	The accuracy of the proposed method was evaluated by determination of the recovery of known amount of mercury added to mineral, spring, and tap waters, and by analysis of a certified reference material BCR-144R (sewage sludge).	Mercury	102-109	nuclear RNA export factor 1	Homo sapiens	140-143	
16408926-1	2006	The method presented here provides a direct way to determine mercury in tap water samples at the parts-per-trillion level.	Mercury	61-68	nuclear RNA export factor 1	Homo sapiens	72-75	
7800048-0	1994	The nature of mercury in tap water.	Mercury	14-21	nuclear RNA export factor 1	Homo sapiens	25-28