PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
21576464-4	2011	Metabolite analysis of wounded leaves showed that loss of CYP94B3 function in cyp94b3 mutants causes hyperaccumulation of JA-Ile and concomitant reduction in 12-hydroxy-JA-Ile (12OH-JA-Ile) content, whereas overexpression of this enzyme results in severe depletion of JA-Ile and corresponding changes in 12OH-JA-Ile levels.	jasmonic acid	122-124	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	58-65	
25210037-4	2014	Cytochromes P450 (CYP) 94B3 and 94C1 were recently shown to sequentially oxidize JA-Ile to hydroxy (12OH-JA-Ile) and dicarboxy (12COOH-JA-Ile) derivatives.	jasmonic acid	81-83	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	0-36	
25210037-11	2014	The double loss-of-function mutant of CYP94B3 and ILL6, a JA-Ile amidohydrolase, displayed a JA profile consistent with the collaborative action of the oxidative and the hydrolytic pathways in JA-Ile turnover.	jasmonic acid	58-60	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	38-45	
24859518-5	2014	The neomycin-dependent reduced JA-Ile level is partially due to increased CYP94B3 expression and subsequent JA-Ile turn-over to12-hydroxy-JA-Ile.	jasmonic acid	31-33	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	74-81	
21849397-10	2011	These results demonstrate that CYP94B3 plays a major regulatory role in controlling the level of JA-Ile in plants.	jasmonic acid	97-99	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	31-38	
21576464-4	2011	Metabolite analysis of wounded leaves showed that loss of CYP94B3 function in cyp94b3 mutants causes hyperaccumulation of JA-Ile and concomitant reduction in 12-hydroxy-JA-Ile (12OH-JA-Ile) content, whereas overexpression of this enzyme results in severe depletion of JA-Ile and corresponding changes in 12OH-JA-Ile levels.	jasmonic acid	122-124	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	78-85	
21576464-4	2011	Metabolite analysis of wounded leaves showed that loss of CYP94B3 function in cyp94b3 mutants causes hyperaccumulation of JA-Ile and concomitant reduction in 12-hydroxy-JA-Ile (12OH-JA-Ile) content, whereas overexpression of this enzyme results in severe depletion of JA-Ile and corresponding changes in 12OH-JA-Ile levels.	jasmonic acid	169-171	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	58-65	
21576464-4	2011	Metabolite analysis of wounded leaves showed that loss of CYP94B3 function in cyp94b3 mutants causes hyperaccumulation of JA-Ile and concomitant reduction in 12-hydroxy-JA-Ile (12OH-JA-Ile) content, whereas overexpression of this enzyme results in severe depletion of JA-Ile and corresponding changes in 12OH-JA-Ile levels.	jasmonic acid	169-171	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	78-85	
21576464-6	2011	CYP94B3-overexpressing plants displayed phenotypes indicative of JA-Ile deficiency, including defects in male fertility, resistance to jasmonate-induced growth inhibition, and susceptibility to insect attack.	jasmonic acid	135-144	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	0-7	
34224307-5	2021	The amidohydrolases, including ILL6 and IAR3 and cytochrome P450 (CYP94B3), encoding JA-Ile catabolism were markedly depressed by ABA receptors.	jasmonic acid	85-87	cytochrome P450, family 94, subfamily B, polypeptide 3	Arabidopsis thaliana	66-73