PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
24981681-3	2014	Conversely, the reduction of Cr(VI) occurred only in the PRB for the EK/Fe3O4 PRB.	ferryl iron	72-77	RB transcriptional corepressor 1	Homo sapiens	57-60	
24981681-5	2014	In addition, it was found that the majority of Cr(VI) migrating to the Fe3O4 PRB retained its oxidation state without being converted into Cr(III).	ferryl iron	71-76	RB transcriptional corepressor 1	Homo sapiens	77-80	
24981681-6	2014	These two adverse effects were mitigated by maintaining the soil pH values at 6.8, but at the same time, 18% of Cr(VI) penetrated through the Fe3O4 PRB.	ferryl iron	142-147	RB transcriptional corepressor 1	Homo sapiens	148-151	
24981681-7	2014	The penetration of Cr(VI) through the Fe3O4 PRB was successfully prevented by increasing the reaction time through the introduction of a cation exchange membrane between the Fe3O4 PRB and the anode well.	ferryl iron	38-43	RB transcriptional corepressor 1	Homo sapiens	44-47	
24981681-7	2014	The penetration of Cr(VI) through the Fe3O4 PRB was successfully prevented by increasing the reaction time through the introduction of a cation exchange membrane between the Fe3O4 PRB and the anode well.	ferryl iron	38-43	RB transcriptional corepressor 1	Homo sapiens	180-183	
24981681-7	2014	The penetration of Cr(VI) through the Fe3O4 PRB was successfully prevented by increasing the reaction time through the introduction of a cation exchange membrane between the Fe3O4 PRB and the anode well.	ferryl iron	174-179	RB transcriptional corepressor 1	Homo sapiens	44-47	
24981681-7	2014	The penetration of Cr(VI) through the Fe3O4 PRB was successfully prevented by increasing the reaction time through the introduction of a cation exchange membrane between the Fe3O4 PRB and the anode well.	ferryl iron	174-179	RB transcriptional corepressor 1	Homo sapiens	180-183