PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
8364403-6	1993	When bovine rumen fluid was used as a source of carotenoid for in vitro studies with preparations of lipoxygenase, a rapid decrease in carotenoid and chlorophyll concentrations was observed, again requiring the addition of linoleic acid.	Carotenoids	48-58	linoleate 9S-lipoxygenase-4	Glycine max	101-113	
10606550-2	1999	Because of the large number of high molecular weight products detected and their probable chemical structures, a co-oxidation mechanism is proposed that involves random attack along the alkene chain of the carotenoid by a LOX-generated linoleoylperoxyl radical.	Carotenoids	206-216	linoleate 9S-lipoxygenase-4	Glycine max	222-225	
8364403-6	1993	When bovine rumen fluid was used as a source of carotenoid for in vitro studies with preparations of lipoxygenase, a rapid decrease in carotenoid and chlorophyll concentrations was observed, again requiring the addition of linoleic acid.	Carotenoids	135-145	linoleate 9S-lipoxygenase-4	Glycine max	101-113	
8364403-9	1993	The inclusion of dietary sources of lipoxygenase may be an effective method for controlling carotenoid uptake in certain ruminant species.	Carotenoids	92-102	linoleate 9S-lipoxygenase-4	Glycine max	36-48	
823735-0	1976	Co-oxydation of a carotenoid by the enzyme lipoxygenase: influence on the formation of linoleic acid hydroperoxides.	Carotenoids	18-28	linoleate 9S-lipoxygenase-4	Glycine max	43-55	
117839-0	1979	Co-oxidation of carotenes requires one soybean lipoxygenase isoenzyme.	Carotenoids	16-25	linoleate 9S-lipoxygenase-4	Glycine max	47-59