PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
18154662-14	2007	To gain further insight into the iron physiological status of the plants, the root iron reductase activity was measured in both iron efficient and inefficient genotypes for plants grown under iron sufficient and iron limited conditions.	Iron	83-87	chalcone reductase CHR1	Glycine max	88-97	
18154662-14	2007	To gain further insight into the iron physiological status of the plants, the root iron reductase activity was measured in both iron efficient and inefficient genotypes for plants grown under iron sufficient and iron limited conditions.	Iron	83-87	chalcone reductase CHR1	Glycine max	88-97	
18154662-14	2007	To gain further insight into the iron physiological status of the plants, the root iron reductase activity was measured in both iron efficient and inefficient genotypes for plants grown under iron sufficient and iron limited conditions.	Iron	83-87	chalcone reductase CHR1	Glycine max	88-97	
18154662-15	2007	Iron inefficient plants failed to respond to decreased iron availability with increased activity of Fe reductase.	Iron	0-4	chalcone reductase CHR1	Glycine max	103-112	
18154662-18	2007	Root membrane bound reductase capacity is often correlated with iron efficiency.	Iron	64-68	chalcone reductase CHR1	Glycine max	20-29	
18154662-19	2007	Under iron-limited conditions, the iron efficient plant had high root bound membrane reductase capacity while the iron inefficient plants reductase levels remained low, further limiting iron uptake through the root.	Iron	6-10	chalcone reductase CHR1	Glycine max	85-94	
18154662-19	2007	Under iron-limited conditions, the iron efficient plant had high root bound membrane reductase capacity while the iron inefficient plants reductase levels remained low, further limiting iron uptake through the root.	Iron	35-39	chalcone reductase CHR1	Glycine max	85-94	
18154662-19	2007	Under iron-limited conditions, the iron efficient plant had high root bound membrane reductase capacity while the iron inefficient plants reductase levels remained low, further limiting iron uptake through the root.	Iron	35-39	chalcone reductase CHR1	Glycine max	85-94	
18154662-19	2007	Under iron-limited conditions, the iron efficient plant had high root bound membrane reductase capacity while the iron inefficient plants reductase levels remained low, further limiting iron uptake through the root.	Iron	35-39	chalcone reductase CHR1	Glycine max	85-94	
16741749-3	2006	Like other dicotyledonous plants, soybean responds to iron-limiting environments by induction of an active proton pump, a ferric iron reductase and an iron transporter.	Iron	54-58	chalcone reductase CHR1	Glycine max	134-143	
16741749-7	2006	The enhanced ferric reductase activity led to reduced chlorosis, increased chlorophyll concentration and a lessening in biomass loss in the transgenic events between Fe treatments as compared to control plants grown under hydroponics that mimicked Fe-sufficient and Fe-deficient soil environments.	Iron	166-168	chalcone reductase CHR1	Glycine max	20-29	
16741749-7	2006	The enhanced ferric reductase activity led to reduced chlorosis, increased chlorophyll concentration and a lessening in biomass loss in the transgenic events between Fe treatments as compared to control plants grown under hydroponics that mimicked Fe-sufficient and Fe-deficient soil environments.	Iron	248-250	chalcone reductase CHR1	Glycine max	20-29	
16741749-7	2006	The enhanced ferric reductase activity led to reduced chlorosis, increased chlorophyll concentration and a lessening in biomass loss in the transgenic events between Fe treatments as compared to control plants grown under hydroponics that mimicked Fe-sufficient and Fe-deficient soil environments.	Iron	248-250	chalcone reductase CHR1	Glycine max	20-29	
12226335-7	1996	We detected ferric-chelate reductase activity associated with the PBM and suggest that reduction of Fe(III) to ferrous [Fe(II)] plays a role in the movement of iron into soybean symbiosomes.	Iron	160-164	chalcone reductase CHR1	Glycine max	27-36