PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
26969708-0	2016	Soybean Ferritin Expression in Saccharomyces cerevisiae Modulates Iron Accumulation and Resistance to Elevated Iron Concentrations.	Iron	66-70	ferritin-1, chloroplastic	Glycine max	8-16	
26969708-0	2016	Soybean Ferritin Expression in Saccharomyces cerevisiae Modulates Iron Accumulation and Resistance to Elevated Iron Concentrations.	Iron	111-115	ferritin-1, chloroplastic	Glycine max	8-16	
26969708-2	2016	This work explored how plant ferritin expression influenced baker"s yeast iron metabolism.	Iron	74-78	ferritin-1, chloroplastic	Glycine max	29-37	
26969708-5	2016	Soybean ferritin protected yeast cells that lacked the Ccc1 vacuolar iron detoxification transporter from toxic iron levels by reducing cellular oxidation, thus allowing growth at high iron concentrations.	Iron	69-73	ferritin-1, chloroplastic	Glycine max	8-16	
26969708-5	2016	Soybean ferritin protected yeast cells that lacked the Ccc1 vacuolar iron detoxification transporter from toxic iron levels by reducing cellular oxidation, thus allowing growth at high iron concentrations.	Iron	112-116	ferritin-1, chloroplastic	Glycine max	8-16	
26969708-6	2016	Interestingly, when simultaneously expressed in ccc1Delta cells, SFerH1 and SFerH2 assembled as heteropolymers, which further increased iron resistance and reduced the oxidative stress produced by excess iron compared to ferritin homopolymer complexes.	Iron	136-140	ferritin-1, chloroplastic	Glycine max	65-71	
26969708-6	2016	Interestingly, when simultaneously expressed in ccc1Delta cells, SFerH1 and SFerH2 assembled as heteropolymers, which further increased iron resistance and reduced the oxidative stress produced by excess iron compared to ferritin homopolymer complexes.	Iron	204-208	ferritin-1, chloroplastic	Glycine max	65-71	
26969708-7	2016	Finally, soybean ferritin expression led to increased iron accumulation in both wild-type and ccc1Delta yeast cells at certain environmental iron concentrations.	Iron	54-58	ferritin-1, chloroplastic	Glycine max	17-25	
26969708-7	2016	Finally, soybean ferritin expression led to increased iron accumulation in both wild-type and ccc1Delta yeast cells at certain environmental iron concentrations.	Iron	130-134	ferritin-1, chloroplastic	Glycine max	17-25	
26969708-11	2016	Animals and plants possess large ferritin complexes that accumulate, detoxify, or buffer excess cellular iron.	Iron	105-109	ferritin-1, chloroplastic	Glycine max	33-41	
26969708-13	2016	Here, we explored how soybean ferritin expression influenced yeast iron metabolism, confirming that yeasts that express soybean seed ferritin could be explored as a novel strategy to increase dietary iron absorption.	Iron	67-71	ferritin-1, chloroplastic	Glycine max	30-38	
26969708-13	2016	Here, we explored how soybean ferritin expression influenced yeast iron metabolism, confirming that yeasts that express soybean seed ferritin could be explored as a novel strategy to increase dietary iron absorption.	Iron	200-204	ferritin-1, chloroplastic	Glycine max	30-38	
26969708-13	2016	Here, we explored how soybean ferritin expression influenced yeast iron metabolism, confirming that yeasts that express soybean seed ferritin could be explored as a novel strategy to increase dietary iron absorption.	Iron	200-204	ferritin-1, chloroplastic	Glycine max	133-141