PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
16659756-9	1976	Under the latter condition, in vitro NR activity was appreciable (19 mumol NO(2) (-) [g fresh weight, hr](-1)) suggesting that enzyme level per se was not the limiting factor and that reductant energy might be limiting.The addition of NADH to the in vivo NR assay medium did not stimulate NR activity, although it was not established that NADH entered the tissue.	NAD	235-239	inducible nitrate reductase [NADH] 1	Glycine max	37-39	
16659756-9	1976	Under the latter condition, in vitro NR activity was appreciable (19 mumol NO(2) (-) [g fresh weight, hr](-1)) suggesting that enzyme level per se was not the limiting factor and that reductant energy might be limiting.The addition of NADH to the in vivo NR assay medium did not stimulate NR activity, although it was not established that NADH entered the tissue.	NAD	339-343	inducible nitrate reductase [NADH] 1	Glycine max	37-39	
16659756-12	1976	Increased NR activities from the various additives were attributed to production of NADH.	NAD	84-88	inducible nitrate reductase [NADH] 1	Glycine max	10-12	
1989691-1	1991	The activity of the pH 7.5 NADH-linked nitrate reductase isoform from soybeans is termed inducible.	NAD	27-31	inducible nitrate reductase [NADH] 1	Glycine max	39-56	
16661245-9	1980	When 5- to 8-day-old cotyledons were extracted and purified, further elution of the blue-Sepharose with KNO(3), subsequent to the NADPH elution, yielded an NR fraction most active with NADH.	NAD	185-189	inducible nitrate reductase [NADH] 1	Glycine max	156-158	
16661245-10	1980	Assays of this fraction with different nitrate concentrations revealed that this NR had a higher nitrate affinity and was similar to the NADH:NR of soybean leaves.	NAD	137-141	inducible nitrate reductase [NADH] 1	Glycine max	81-83	
16661245-12	1980	The analysis of these fractions prepared from the extracts of older cotyledons indicated that residual NAD(P)H:NR contaminated the NADH:NR.	NAD	131-135	inducible nitrate reductase [NADH] 1	Glycine max	111-113	
16661245-12	1980	The analysis of these fractions prepared from the extracts of older cotyledons indicated that residual NAD(P)H:NR contaminated the NADH:NR.	NAD	131-135	inducible nitrate reductase [NADH] 1	Glycine max	136-138	
16661245-14	1980	It was concluded that NADH:NR was most active in young cotyledons and that as the cotyledons aged the NAD(P)H:NR became more active.	NAD	22-26	inducible nitrate reductase [NADH] 1	Glycine max	27-29	
16661245-14	1980	It was concluded that NADH:NR was most active in young cotyledons and that as the cotyledons aged the NAD(P)H:NR became more active.	NAD	22-26	inducible nitrate reductase [NADH] 1	Glycine max	110-112	
16664862-8	1986	Blue Sepharose columns loaded with NR extract of urea-grown mutants and sequentially eluted with NADPH and NADH yielded a NADPH:NR peak only, while the wild-type yielded both NADPH: and NADH:NR peaks.	NAD	107-111	inducible nitrate reductase [NADH] 1	Glycine max	128-130	
16664862-8	1986	Blue Sepharose columns loaded with NR extract of urea-grown mutants and sequentially eluted with NADPH and NADH yielded a NADPH:NR peak only, while the wild-type yielded both NADPH: and NADH:NR peaks.	NAD	107-111	inducible nitrate reductase [NADH] 1	Glycine max	128-130